Surface chemical immobilization of parylene c with thermosensitive block copolymer brushes based on n isopropylacrylamide and n-tert-butylacrylamide synthesis characterization and cell adhesion detachment
This document describes a study that immobilized thermosensitive block copolymer brushes containing poly(N-isopropylacrylamide) (pNIPAM) and poly(N-tert-butylacrylamide) (pNTBAM) onto parylene C (PC) surfaces via surface initiated atom transfer radical polymerization (ATRP). The modified PC surfaces exhibited temperature sensitive hydrophobicity. Cell adhesion/detachment studies showed that PC grafted with pNIPAM brushes allowed low cell adhesion and proliferation at 37°C, and detachment at 24°C, while PC grafted with pNTBAM or their copolymer brushes improved cell adhesion and proliferation over
The document summarizes research on developing polymer nanocomposites with sustained antimicrobial activity. Halloysite nanotubes (HNTs) were used as carriers for carvacrol, an essential oil with antimicrobial properties. HNTs/carvacrol hybrids were melt compounded with low-density polyethylene (LDPE) to produce films. The films exhibited strong antimicrobial activity against E. coli, L. innocua biofilms, and A. alternata fungi over extended periods, demonstrating their potential for food packaging applications to reduce microbial growth. The HNTs carriers helped retain the volatile carvacrol during high-temperature processing and provided sustained release from the films.
The document summarizes research on developing antimicrobial polymer films containing the essential oil carvacrol. Halloysite nanotubes were used to encapsulate carvacrol before melt compounding with low-density polyethylene to form films. This process helped retain the carvacrol during high-temperature processing. The resulting films showed strong and long-lasting antimicrobial activity against E. coli, Listeria innocua biofilms, and the fungus Alternaria alternata. Tests on bread and cheese demonstrated effectiveness in complex food systems, indicating potential for active food packaging applications.
This study examines the heat transfer properties of submicro-encapsulated phase change material (PCM) plates for potential use in food packaging applications. Rubitherm RT5 PCM was encapsulated in polycaprolactone shells using electrospinning. Plates with 30% and 38% PCM mass fractions were tested experimentally and modeled numerically using an enthalpy method. Experimental differential scanning calorimetry showed the 38% plate had a higher phase change enthalpy. Numerical modeling validated by experiments demonstrated the encapsulated PCM plates provide better thermal buffering than standard cardboard packaging.
This document discusses how DNA damage occurs through endogenous and exogenous sources, and the importance of DNA repair in maintaining genomic integrity and preventing cancer. It describes various types of DNA damage including base modifications, single-strand breaks, and double-strand breaks that can be caused by reactive oxygen species, radiation, chemicals and replication errors. The document outlines different DNA repair pathways including base excision repair, nucleotide excision repair, mismatch repair, non-homologous end joining and homologous recombination that evolved to fix different types of DNA lesions. Defects in DNA repair genes are associated with increased cancer risks demonstrating the critical role of DNA repair in preventing tumorigenesis.
Enhancing the gas barrier properties of polylactic acid by means of electrosp...Sergio Torres-Giner
This document summarizes research on enhancing the gas barrier properties of polylactic acid (PLA) films through the addition of electrospun zein fibers. Zein fibers with diameters between 100-500 nm were incorporated into a PLA/polyethylene glycol (PEG) matrix using a proprietary multilayer assembly method. This resulted in a transparent, colorless composite film. While the zein fibers did not significantly affect the water vapor or thermal properties of the PLA/PEG matrix, they reduced the oxygen permeability by around 70%. Thus, the addition of electrospun zein fibers can produce highly transparent PLA films with improved oxygen barrier performance suitable for packaging applications.
Chapter 5 -repair or radiation damage and dose-rate effect - jtlJohn Lucas
The document summarizes various pathways for repairing DNA damage from radiation: base excision repair removes inappropriate bases; nucleotide excision repair removes bulky adducts like pyrimidine dimers. Mismatch repair fixes base-base mismatches. Non-homologous end joining and homologous recombination repair double-strand breaks, with the former being error-prone and active in G1, and the latter being error-free using a sister chromatid template and most active in G2 phase. Certain syndromes like ataxia-telangiectasia and LIG4 syndrome result from defects in these pathways and cause radiation sensitivity.
Dendrimers are nanoscale, tree-branching polymers that have potential applications as drug delivery agents. They are synthesized in a stepwise process that builds up branches around a core molecule. Dendrimers can encapsulate or conjugate to drug molecules, releasing them in a controlled manner. They have properties like water solubility and low toxicity that make them promising for targeted drug delivery. However, further research is still needed to address challenges like toxicity at high generations and scale up for commercialization before dendrimer-based drugs can be developed.
The document discusses molecular mechanisms of DNA damage and repair. It provides an overview of different types of DNA strand breaks caused by radiation, including single-strand breaks, double-strand breaks, and base damage. It then describes different pathways for repairing DNA damage, including base excision repair, nucleotide excision repair, and strand break repairs. Double-strand breaks are identified as particularly important lesions that can lead to cell killing, carcinogenesis, or mutation if not properly repaired.
The document summarizes research on developing polymer nanocomposites with sustained antimicrobial activity. Halloysite nanotubes (HNTs) were used as carriers for carvacrol, an essential oil with antimicrobial properties. HNTs/carvacrol hybrids were melt compounded with low-density polyethylene (LDPE) to produce films. The films exhibited strong antimicrobial activity against E. coli, L. innocua biofilms, and A. alternata fungi over extended periods, demonstrating their potential for food packaging applications to reduce microbial growth. The HNTs carriers helped retain the volatile carvacrol during high-temperature processing and provided sustained release from the films.
The document summarizes research on developing antimicrobial polymer films containing the essential oil carvacrol. Halloysite nanotubes were used to encapsulate carvacrol before melt compounding with low-density polyethylene to form films. This process helped retain the carvacrol during high-temperature processing. The resulting films showed strong and long-lasting antimicrobial activity against E. coli, Listeria innocua biofilms, and the fungus Alternaria alternata. Tests on bread and cheese demonstrated effectiveness in complex food systems, indicating potential for active food packaging applications.
This study examines the heat transfer properties of submicro-encapsulated phase change material (PCM) plates for potential use in food packaging applications. Rubitherm RT5 PCM was encapsulated in polycaprolactone shells using electrospinning. Plates with 30% and 38% PCM mass fractions were tested experimentally and modeled numerically using an enthalpy method. Experimental differential scanning calorimetry showed the 38% plate had a higher phase change enthalpy. Numerical modeling validated by experiments demonstrated the encapsulated PCM plates provide better thermal buffering than standard cardboard packaging.
This document discusses how DNA damage occurs through endogenous and exogenous sources, and the importance of DNA repair in maintaining genomic integrity and preventing cancer. It describes various types of DNA damage including base modifications, single-strand breaks, and double-strand breaks that can be caused by reactive oxygen species, radiation, chemicals and replication errors. The document outlines different DNA repair pathways including base excision repair, nucleotide excision repair, mismatch repair, non-homologous end joining and homologous recombination that evolved to fix different types of DNA lesions. Defects in DNA repair genes are associated with increased cancer risks demonstrating the critical role of DNA repair in preventing tumorigenesis.
Enhancing the gas barrier properties of polylactic acid by means of electrosp...Sergio Torres-Giner
This document summarizes research on enhancing the gas barrier properties of polylactic acid (PLA) films through the addition of electrospun zein fibers. Zein fibers with diameters between 100-500 nm were incorporated into a PLA/polyethylene glycol (PEG) matrix using a proprietary multilayer assembly method. This resulted in a transparent, colorless composite film. While the zein fibers did not significantly affect the water vapor or thermal properties of the PLA/PEG matrix, they reduced the oxygen permeability by around 70%. Thus, the addition of electrospun zein fibers can produce highly transparent PLA films with improved oxygen barrier performance suitable for packaging applications.
Chapter 5 -repair or radiation damage and dose-rate effect - jtlJohn Lucas
The document summarizes various pathways for repairing DNA damage from radiation: base excision repair removes inappropriate bases; nucleotide excision repair removes bulky adducts like pyrimidine dimers. Mismatch repair fixes base-base mismatches. Non-homologous end joining and homologous recombination repair double-strand breaks, with the former being error-prone and active in G1, and the latter being error-free using a sister chromatid template and most active in G2 phase. Certain syndromes like ataxia-telangiectasia and LIG4 syndrome result from defects in these pathways and cause radiation sensitivity.
Dendrimers are nanoscale, tree-branching polymers that have potential applications as drug delivery agents. They are synthesized in a stepwise process that builds up branches around a core molecule. Dendrimers can encapsulate or conjugate to drug molecules, releasing them in a controlled manner. They have properties like water solubility and low toxicity that make them promising for targeted drug delivery. However, further research is still needed to address challenges like toxicity at high generations and scale up for commercialization before dendrimer-based drugs can be developed.
The document discusses molecular mechanisms of DNA damage and repair. It provides an overview of different types of DNA strand breaks caused by radiation, including single-strand breaks, double-strand breaks, and base damage. It then describes different pathways for repairing DNA damage, including base excision repair, nucleotide excision repair, and strand break repairs. Double-strand breaks are identified as particularly important lesions that can lead to cell killing, carcinogenesis, or mutation if not properly repaired.
This document discusses different types of DNA damage and DNA repair mechanisms. It describes two groups of DNA damage: endogenous from normal metabolic byproducts and exogenous from external agents like radiation, toxins, and chemicals. Five types of endogenous damage are outlined caused by oxidation, alkylation, hydrolysis, adduct formation, and mismatches. Exogenous damage results from UV light, ionizing radiation, heat, and industrial chemicals. DNA repair systems include light-dependent photoreactivation and light-independent pathways like base excision, nucleotide excision, and mismatch repair which remove damaged portions of DNA through excision and synthesis.
DNA Damage Caused by Ultraviolet Radiationnicollearosa
This document discusses DNA damage caused by ultraviolet (UV) radiation. It begins by introducing DNA and its importance, as well as the three types of UV radiation. UV radiation can cause cyclobutane pyrimidine dimers and 6-4 photoproducts in DNA, which can lead to mutations if not repaired. The document then describes nucleotide excision repair as the main mechanism for repairing UV-induced DNA damage. A lack of proper repair may result in skin cancers like melanoma, the most dangerous type. In conclusion, UV radiation presents a major threat to health by damaging DNA and potentially causing cancer if mutations are not corrected.
The document summarizes key components of nucleic acids including phosphates, sugars, and nitrogenous bases. It also describes the primary, secondary, and tertiary structural levels of nucleic acids. Additionally, it discusses the discovery of a ring-shaped SMC-kleisin protein complex that ensures order in DNA packaging during cell division. Disruption of this complex can lead to disorders like cancer and genetic defects. The document also summarizes an article about the discovery of fragile sites in DNA that contribute to damage in B-cell lymphoma and how this finding could help develop new cancer treatments.
1) Researchers discovered a new class of DNA regions called early replicating fragile sites (ERFSs) that are prone to damage during cell division.
2) ERFSs overlap significantly with DNA alterations found in B cell lymphoma, suggesting they contribute to mutations in this cancer.
3) Understanding how these fragile sites lead to DNA breaks could enable better treatments for cancers like B cell lymphoma.
Mutations occur through endogenous and exogenous DNA damage and can be in the form of point mutations, frame shifts, or splicing errors. Mutation types include nonsense mutations which result in premature stop codons, missense mutations which code for different amino acids, and silent mutations which do not change the amino acid. Frameshift mutations change the reading frame by inserting or deleting nucleotides. Splicing errors can occur from mutations affecting splice sites or their specificity. Lethal mutations cause death while loss or gain of function mutations impact gene activity.
This document summarizes different types of DNA repair mechanisms including base excision repair, nucleotide excision repair, and their mechanisms in E. coli and humans. It also discusses short patch and long patch base excision repair, and conditions like xeroderma pigmentosum that arise from defects in nucleotide excision repair.
DNA is constantly damaged by radiation, chemicals, and oxidation. Failure to repair DNA damage can lead to mutations. There are two main types of DNA repair - direct reversal and excision repair. Excision repair includes base excision repair, nucleotide excision repair, mismatch repair, and strand break repair. These pathways remove damaged DNA sections and replace them with the correct sequence to prevent mutations. Defects in DNA repair genes increase cancer risk.
Nucleotide excision repair (NER) is a pathway that repairs a broad class of helix-distorting lesions in DNA that disrupt transcription and replication. It involves recognizing the damaged site, unwinding the DNA helix, making dual incisions on both sides of the damage, excising the damaged fragment, and resynthesizing the replacement DNA. NER is a complex process involving at least 28 genes and is important for repairing UV-induced damage and protecting against sunlight-induced DNA damage and cancer. Defects in NER genes can cause diseases like xeroderma pigmentosum, trichothiodystrophy, and Cockayne syndrome.
The document is the July 2016 issue of the VARINDIA magazine. It includes articles on various technology topics such as Cisco accelerating the startup ecosystem, HPE announcing a universal IoT platform, Microsoft enhancing public cloud adoption with 3 datacenters in India, and Innovation being the driving force for Intex. It also includes advertisements. The magazine has sections for news, events, products, interviews and more within the IT channel industry in India.
My books- Hacking Digital Learning Strategies http://hackingdls.com & Learning to Go https://gum.co/learn2go
Resources at http://shellyterrell.com/mlearning
How To Look Stylish Without Letting Your Health SufferEason Chan
There’s no question that the fashion industry is bigger than ever which is fine because people loves looking fashionable. However, if it means you’re hurting not just financially but as well as physically just by trying to keep up with the trends, you should start reflecting on your priorities.
The Content Marketer’s A to-Z Guide to Google AnalyticsBarry Feldman
The document discusses the benefits of meditation for reducing stress and anxiety. Regular meditation practice can help calm the mind and body by lowering heart rate and blood pressure. Making meditation a part of a daily routine, even if just 10-15 minutes per day, can offer improvements to mood, focus, and overall feelings of well-being over time.
Learn how Hire and Retain Good People talent management technology can help your business grow faster and more efficiently. Only HRGP provides talent acquisition and talent management for one low price. HRGP is the perfect talent management solution for small business!
On November 2nd, Cohesion conducted the Early Talent Recruitment Webinar. The turnout was enormous; the feedback, fantastic. This positive feedback got us thinking - "can those who weren't there on the day benefit from seeing this valuable resource and insight?". From circulating this with some of our clients and contacts - the answer was a resounding "yes".
Discussing the best practices of Early Talent Recruitment - how you can reach, engage and retain the best candidates possible - we teach you how to get the best out of your resource.
Group4.plasma surface modification of polylactic acid to promoteRoy Rodriguez Solano
Plasma surface modification of polylactic acid (PLA) films was investigated using a dielectric barrier discharge (DBD) operating at medium pressure in different atmospheres. After plasma treatment, water contact angle measurements showed increased hydrophilicity of the PLA surface. X-ray photoelectron spectroscopy revealed an increased oxygen content on treated surfaces. Cell culture tests found that plasma treatment improved initial fibroblast cell attachment and morphology compared to untreated PLA, though no difference in proliferation was observed after 7 days. Plasma treatment in air was determined to be the most economical option for modifying PLA surfaces to enhance cell interactions.
Thermal degradation kinetic study of polypropylene co-polymer (PPCP) nanocomp...IRJET Journal
This document summarizes a study on the thermal degradation kinetics of polypropylene co-polymer (PPCP) nanocomposites. Nanocomposites were prepared with PPCP, maleic anhydride grafted polypropylene (MAgPP), and multiwall carbon nanotubes (MWCNTs). Thermogravimetric analysis showed the thermal stability of the nanocomposites increased with higher MWCNT loading. The Coats-Redfern method was used to evaluate kinetic parameters like reaction order, activation energy, and frequency factor from the thermogravimetric data. The degradation mostly followed 0.5 order kinetics, with activation energies ranging from 120-355 kJ
This document discusses a study on the correlation between the annealing-induced growth of CdTe nanocrystals and the performance of PPV:CdTe hybrid solar cells. The key findings are:
1) Increasing the CdTe nanocrystal concentration or annealing temperature caused the CdTe nanocrystals to grow larger via dynamic coalescence.
2) Transmission electron microscopy and X-ray diffraction analysis showed that at higher annealing temperatures, the CdTe nanocrystals grew to around 26 nm in size with a spacing of 6-12 nm, forming a percolation network.
3) The best performing solar cells had a CdTe concentration of 30 mg/mL and were anne
This document contains information about Muhammad Aleem's M.Phil research including:
1. The research is on a stable solution-processed polymer semiconductor with record high-mobility for printed transistors.
2. Various characterization techniques are discussed for analyzing the active layer in organic solar cells including X-ray, neutron, and scanning probe microscopy methods.
3. Details are provided on materials used and results obtained in synthesizing and testing different organic solar cell devices with polymers like P3HT, PCDTBT, and F8BT.
Photoactive Additives for Crosslinking Thin Polymer Films: Inhibition of Dewe...Gregory Carroll
In this report, we describe a versatile photochemical method for cross-linking polymer films and demonstrate that
this method can be used to inhibit thin polymer films from dewetting. A bifunctional photoactive molecule featuring
two benzophenone chromophores capable of abstracting hydrogen atoms from various donors, including C-H groups,
is mixed into PS films. Upon exposure to UV light, the bis-benzophenone molecule cross-links the chains presumably
by hydrogen abstraction followed by radical recombination. Photoinduced cross-linking is characterized by infrared
spectroscopy and gel permeation chromatography. Optical and atomic force microscopy images show that
photocrosslinked polystyrene (PS) thin films resist dewetting when heated above the glass transition temperature or
exposed to solvent vapor. PS films are inhibited from dewetting on both solid and liquid substrates. The effectiveness
of the method to inhibit dewetting is studied as a function of the ratio of cross-linker to macromolecule, duration of
exposure to UV light, film thickness, the driving force for dewetting, and the thermodynamic nature of the substrate.
The document compares the mechanical and physical properties of low density polyethylene (LDPE) thin films and sheets reinforced with graphene nanoparticles. LDPE/graphene thin films were produced via solution casting, while sheets were made by compression molding. Testing showed that the thin films had enhanced tensile strength, lower melt flow index, and higher thermal stability compared to sheets. The tensile strength of thin films increased by up to 160% with 1% graphene, while sheets increased by 70%. Melt flow index decreased more for thin films, indicating higher viscosity. Thin films also showed greater improvement in glass transition temperature. These results demonstrate that processing technique affects the properties of LDPE/graphene nanocomposites.
Our team is developing a technique called biOrigami to reduce the mass, volume, and assembly time of materials for space missions. We are producing biologically-based substrate materials like polystyrene and poly-(3-hydroxybutyrate) plastics and cellulose, engineering folding mechanisms using these materials, and designing functional products. We are also creating a novel and efficient method of bacterial transformation using CRISPR/Cas9 to selectively insert genes. This project integrates manufacturing at both the micro and macro levels to create lightweight, compactly foldable materials for applications in space exploration.
This document discusses different types of DNA damage and DNA repair mechanisms. It describes two groups of DNA damage: endogenous from normal metabolic byproducts and exogenous from external agents like radiation, toxins, and chemicals. Five types of endogenous damage are outlined caused by oxidation, alkylation, hydrolysis, adduct formation, and mismatches. Exogenous damage results from UV light, ionizing radiation, heat, and industrial chemicals. DNA repair systems include light-dependent photoreactivation and light-independent pathways like base excision, nucleotide excision, and mismatch repair which remove damaged portions of DNA through excision and synthesis.
DNA Damage Caused by Ultraviolet Radiationnicollearosa
This document discusses DNA damage caused by ultraviolet (UV) radiation. It begins by introducing DNA and its importance, as well as the three types of UV radiation. UV radiation can cause cyclobutane pyrimidine dimers and 6-4 photoproducts in DNA, which can lead to mutations if not repaired. The document then describes nucleotide excision repair as the main mechanism for repairing UV-induced DNA damage. A lack of proper repair may result in skin cancers like melanoma, the most dangerous type. In conclusion, UV radiation presents a major threat to health by damaging DNA and potentially causing cancer if mutations are not corrected.
The document summarizes key components of nucleic acids including phosphates, sugars, and nitrogenous bases. It also describes the primary, secondary, and tertiary structural levels of nucleic acids. Additionally, it discusses the discovery of a ring-shaped SMC-kleisin protein complex that ensures order in DNA packaging during cell division. Disruption of this complex can lead to disorders like cancer and genetic defects. The document also summarizes an article about the discovery of fragile sites in DNA that contribute to damage in B-cell lymphoma and how this finding could help develop new cancer treatments.
1) Researchers discovered a new class of DNA regions called early replicating fragile sites (ERFSs) that are prone to damage during cell division.
2) ERFSs overlap significantly with DNA alterations found in B cell lymphoma, suggesting they contribute to mutations in this cancer.
3) Understanding how these fragile sites lead to DNA breaks could enable better treatments for cancers like B cell lymphoma.
Mutations occur through endogenous and exogenous DNA damage and can be in the form of point mutations, frame shifts, or splicing errors. Mutation types include nonsense mutations which result in premature stop codons, missense mutations which code for different amino acids, and silent mutations which do not change the amino acid. Frameshift mutations change the reading frame by inserting or deleting nucleotides. Splicing errors can occur from mutations affecting splice sites or their specificity. Lethal mutations cause death while loss or gain of function mutations impact gene activity.
This document summarizes different types of DNA repair mechanisms including base excision repair, nucleotide excision repair, and their mechanisms in E. coli and humans. It also discusses short patch and long patch base excision repair, and conditions like xeroderma pigmentosum that arise from defects in nucleotide excision repair.
DNA is constantly damaged by radiation, chemicals, and oxidation. Failure to repair DNA damage can lead to mutations. There are two main types of DNA repair - direct reversal and excision repair. Excision repair includes base excision repair, nucleotide excision repair, mismatch repair, and strand break repair. These pathways remove damaged DNA sections and replace them with the correct sequence to prevent mutations. Defects in DNA repair genes increase cancer risk.
Nucleotide excision repair (NER) is a pathway that repairs a broad class of helix-distorting lesions in DNA that disrupt transcription and replication. It involves recognizing the damaged site, unwinding the DNA helix, making dual incisions on both sides of the damage, excising the damaged fragment, and resynthesizing the replacement DNA. NER is a complex process involving at least 28 genes and is important for repairing UV-induced damage and protecting against sunlight-induced DNA damage and cancer. Defects in NER genes can cause diseases like xeroderma pigmentosum, trichothiodystrophy, and Cockayne syndrome.
The document is the July 2016 issue of the VARINDIA magazine. It includes articles on various technology topics such as Cisco accelerating the startup ecosystem, HPE announcing a universal IoT platform, Microsoft enhancing public cloud adoption with 3 datacenters in India, and Innovation being the driving force for Intex. It also includes advertisements. The magazine has sections for news, events, products, interviews and more within the IT channel industry in India.
My books- Hacking Digital Learning Strategies http://hackingdls.com & Learning to Go https://gum.co/learn2go
Resources at http://shellyterrell.com/mlearning
How To Look Stylish Without Letting Your Health SufferEason Chan
There’s no question that the fashion industry is bigger than ever which is fine because people loves looking fashionable. However, if it means you’re hurting not just financially but as well as physically just by trying to keep up with the trends, you should start reflecting on your priorities.
The Content Marketer’s A to-Z Guide to Google AnalyticsBarry Feldman
The document discusses the benefits of meditation for reducing stress and anxiety. Regular meditation practice can help calm the mind and body by lowering heart rate and blood pressure. Making meditation a part of a daily routine, even if just 10-15 minutes per day, can offer improvements to mood, focus, and overall feelings of well-being over time.
Learn how Hire and Retain Good People talent management technology can help your business grow faster and more efficiently. Only HRGP provides talent acquisition and talent management for one low price. HRGP is the perfect talent management solution for small business!
On November 2nd, Cohesion conducted the Early Talent Recruitment Webinar. The turnout was enormous; the feedback, fantastic. This positive feedback got us thinking - "can those who weren't there on the day benefit from seeing this valuable resource and insight?". From circulating this with some of our clients and contacts - the answer was a resounding "yes".
Discussing the best practices of Early Talent Recruitment - how you can reach, engage and retain the best candidates possible - we teach you how to get the best out of your resource.
Similar to Surface chemical immobilization of parylene c with thermosensitive block copolymer brushes based on n isopropylacrylamide and n-tert-butylacrylamide synthesis characterization and cell adhesion detachment
Group4.plasma surface modification of polylactic acid to promoteRoy Rodriguez Solano
Plasma surface modification of polylactic acid (PLA) films was investigated using a dielectric barrier discharge (DBD) operating at medium pressure in different atmospheres. After plasma treatment, water contact angle measurements showed increased hydrophilicity of the PLA surface. X-ray photoelectron spectroscopy revealed an increased oxygen content on treated surfaces. Cell culture tests found that plasma treatment improved initial fibroblast cell attachment and morphology compared to untreated PLA, though no difference in proliferation was observed after 7 days. Plasma treatment in air was determined to be the most economical option for modifying PLA surfaces to enhance cell interactions.
Thermal degradation kinetic study of polypropylene co-polymer (PPCP) nanocomp...IRJET Journal
This document summarizes a study on the thermal degradation kinetics of polypropylene co-polymer (PPCP) nanocomposites. Nanocomposites were prepared with PPCP, maleic anhydride grafted polypropylene (MAgPP), and multiwall carbon nanotubes (MWCNTs). Thermogravimetric analysis showed the thermal stability of the nanocomposites increased with higher MWCNT loading. The Coats-Redfern method was used to evaluate kinetic parameters like reaction order, activation energy, and frequency factor from the thermogravimetric data. The degradation mostly followed 0.5 order kinetics, with activation energies ranging from 120-355 kJ
This document discusses a study on the correlation between the annealing-induced growth of CdTe nanocrystals and the performance of PPV:CdTe hybrid solar cells. The key findings are:
1) Increasing the CdTe nanocrystal concentration or annealing temperature caused the CdTe nanocrystals to grow larger via dynamic coalescence.
2) Transmission electron microscopy and X-ray diffraction analysis showed that at higher annealing temperatures, the CdTe nanocrystals grew to around 26 nm in size with a spacing of 6-12 nm, forming a percolation network.
3) The best performing solar cells had a CdTe concentration of 30 mg/mL and were anne
This document contains information about Muhammad Aleem's M.Phil research including:
1. The research is on a stable solution-processed polymer semiconductor with record high-mobility for printed transistors.
2. Various characterization techniques are discussed for analyzing the active layer in organic solar cells including X-ray, neutron, and scanning probe microscopy methods.
3. Details are provided on materials used and results obtained in synthesizing and testing different organic solar cell devices with polymers like P3HT, PCDTBT, and F8BT.
Photoactive Additives for Crosslinking Thin Polymer Films: Inhibition of Dewe...Gregory Carroll
In this report, we describe a versatile photochemical method for cross-linking polymer films and demonstrate that
this method can be used to inhibit thin polymer films from dewetting. A bifunctional photoactive molecule featuring
two benzophenone chromophores capable of abstracting hydrogen atoms from various donors, including C-H groups,
is mixed into PS films. Upon exposure to UV light, the bis-benzophenone molecule cross-links the chains presumably
by hydrogen abstraction followed by radical recombination. Photoinduced cross-linking is characterized by infrared
spectroscopy and gel permeation chromatography. Optical and atomic force microscopy images show that
photocrosslinked polystyrene (PS) thin films resist dewetting when heated above the glass transition temperature or
exposed to solvent vapor. PS films are inhibited from dewetting on both solid and liquid substrates. The effectiveness
of the method to inhibit dewetting is studied as a function of the ratio of cross-linker to macromolecule, duration of
exposure to UV light, film thickness, the driving force for dewetting, and the thermodynamic nature of the substrate.
The document compares the mechanical and physical properties of low density polyethylene (LDPE) thin films and sheets reinforced with graphene nanoparticles. LDPE/graphene thin films were produced via solution casting, while sheets were made by compression molding. Testing showed that the thin films had enhanced tensile strength, lower melt flow index, and higher thermal stability compared to sheets. The tensile strength of thin films increased by up to 160% with 1% graphene, while sheets increased by 70%. Melt flow index decreased more for thin films, indicating higher viscosity. Thin films also showed greater improvement in glass transition temperature. These results demonstrate that processing technique affects the properties of LDPE/graphene nanocomposites.
Our team is developing a technique called biOrigami to reduce the mass, volume, and assembly time of materials for space missions. We are producing biologically-based substrate materials like polystyrene and poly-(3-hydroxybutyrate) plastics and cellulose, engineering folding mechanisms using these materials, and designing functional products. We are also creating a novel and efficient method of bacterial transformation using CRISPR/Cas9 to selectively insert genes. This project integrates manufacturing at both the micro and macro levels to create lightweight, compactly foldable materials for applications in space exploration.
IRJET- Literature Review on Energy Storage MaterialsIRJET Journal
The document summarizes research on phase change materials (PCMs) that can store and release large amounts of thermal energy during melting and freezing. It reviews several studies on developing PCMs for thermal energy storage applications in construction. Some key findings discussed include nanoencapsulating organic PCMs like n-octadecane to improve stability and thermal properties; adding micro-PCM and TiO2 nanoparticles to polyvinyl chloride films to control temperature ranges in buildings; incorporating fatty acid-based nano-PCM and graphite sheets into gypsum boards to significantly reduce energy demands; and using materials like polyethylene glycol and nanoparticles to create nanofibers with improved thermal conductivity for storing thermal energy in construction.
This project aims to functionalize carbon nanotube (CNT) films with antibodies to improve their biocompatibility for use as cell culture platforms and biomedical applications. CNT films will be prepared using layer-by-layer deposition with polyelectrolytes and functionalized with antibodies via covalent attachment or physical adsorption. The films will be characterized using Raman spectroscopy, fluorescence microscopy, and electrochemical analysis. Cell culture studies will investigate the ability of antibody-modified CNT films to support cell adhesion and proliferation. Overall, the project seeks to develop novel electrically conducting biomaterials for applications such as tissue regeneration.
A designed surface modification to disperse silica powder into polyurethaneTrang Le
This document describes a method for modifying silica powder nanoparticles through surface grafting of polyurethane (PU) oligomers or short chains to improve dispersion in PU matrices. Silica particles were first modified with 3-isocyanatepropyltriethoxysilane to introduce isocyanate groups on the surface. Further surface-initiated condensation reactions were carried out in steps using diols, triols and diisocyanates to graft PU oligomers of varying lengths. Characterization techniques confirmed grafting and showed the surface density of initial isocyanate groups could be controlled. Hybrid films with modified silica particles dispersed in PU matrices showed improved optical, thermal and mechanical properties compared to films with unmodified particles
Flexible and Hydrophobic Polymeric Coatings on Cellulose Paper via Initiated ...Logan Fenimore
-Deposited flexible and hydrophobic copolymeric coatings onto cellulose paper via initiated chemical vapor deposition (iCVD) of polydivinylbenzene and poly(1,1,3,3,5,5-hexamethyl-1,5-divinyltrisiloxane)
-Studied principles and governing theories of vacuum deposition processes and vapor-phase free-radical polymerization and polymer processing techniques
-Optimized reactor conditions for deposition trials such as monomer and initiator reagent flow rates, stage and filament temperatures and reactor pressures
-Used FTIR spectroscopy to characterize coatings and contact angle goniometry to measure hydrophobicity and test thermal stability of coatings up to 90°C and mechanical stress resistance of folded papers
-Presented attached poster named "Flexible and Hydrophobic Polymeric Coatings on Cellulose Paper via Initiated Chemical Vapor Deposition (iCVD)" at Snapshots of Chemistry REU Closing Symposium
This document describes research into developing a biodegradable polyurethane polymer suitable for melt electrospinning into tissue engineering scaffolds. The researchers synthesized various polyurethane formulations based on aliphatic diisocyanates, polycaprolactone, 1,4-butanediamine, and 1,4-butanediol. The final optimized polymer formulation consisted of a purified polyurethane based on 1,4-butane diisocyanate, polycaprolactone, and 1,4-butanediol in a 4/1/3 molar ratio with a weight-average molecular weight of around 40 kDa. This polymer could be readily melt electrospun into scaffolds exhibiting point
Publication-Fab and Char of All-PS Dev_2-27-15Amber Pentecost
This document describes a new method for fabricating all-polystyrene microfluidic devices with integrated electrodes and tubing. The method involves solvent-based etching of channels in a polystyrene base containing embedded electrodes and tubing. A polystyrene cover is then bonded using lamination, without requiring a cleanroom. The resulting all-polystyrene devices are characterized through microscopy and electrophoretic experiments. Microchip-based assays demonstrate detection limits of 130 nM for dopamine and 1.8 mM for nitric oxide using the integrated electrodes.
The document proposes research into synthesizing an interpenetrating polymer network of PDMS-PU-PEGMA to increase the permeability of glucose and oxygen through silicone-based coatings. The goal is to apply this coating to microbial fuel cells to improve their power output and open circuit voltage. The research will involve synthesizing PDMS-PU-PEGMA hydrogels with varying PEGMA content, characterizing their material properties, and measuring permeability. The coating is expected to allow glucose and oxygen transport through the layer to microbial fuel cells for improved performance.
1) The document describes research into using carbon nanotubes (CNTs) coated with proteins and polyelectrolytes as a platform for cell culture.
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Surface chemical immobilization of parylene c with thermosensitive block copolymer brushes based on n isopropylacrylamide and n-tert-butylacrylamide synthesis characterization and cell adhesion detachment
1. Surface chemical immobilization of parylene C with thermosensitive
block copolymer brushes based on N-isopropylacrylamide and N-tert-
butylacrylamide: Synthesis, characterization, and cell adhesion/
detachment
Changhong Zhang,1,2 P. Thomas Vernier,3 Yu-Hsuan Wu,4 Wangrong Yang3
1
Department of Chemistry, University of Southern California, Los Angeles, California 90089
2
Kansas Polymer Research Center, Pittsburg State University, Pittsburg, Kansas 66762
3
Department of Electrical Engineering, University of Southern California, Los Angeles, California 90089
4
Department of Chemical Engineering and Materials Science, University of Southern California, Los Angeles, California 90089
Received 9 January 2011; revised 8 July 2011; accepted 20 July 2011
Published online 9 November 2011 in Wiley Online Library (wileyonlinelibrary.com). DOI: 10.1002/jbm.b.31941
Abstract: Poly(N-isopropylacrylamide) (pNIPAM), poly(N-tert- and 35% of the cells were found detached respectively, and
butylacrylamide) (pNTBAM), and their copolymer brushes the unattached cells aggregated on the substrate. In compari-
were covalently immobilized onto parylene C (PC) surfaces son, cells cultured on the tissue culture petri dish (TCP)
via surface initiated atom transfer radical polymerization exhibited no quantity and morphology changes at the culture
(ATRP). Contact angle measurement between 13 and 40 C temperatures of 37, 24, and 6 C. This study showed that: (1)
showed that the hydrophobicity of the modified PC surfaces immobilization of PC with nonthermal sensitive pNTBAM
was thermally sensitive. Among these samples, PC grafted could provide PC surface thermal sensitive hydrophilicity; (2)
with pNIPAM (PC-NI), PC grafted with pNTBAM (PC-NT) and the chlorines on the polymer brushes of PC-NT could be
PC grafted with copolymer brushes containing pNTBAM and used to further initiate the ATRP pNIPAM and form block co-
pNIPAM (PC-NT-NI) exhibited the lower critical solution tem- polymer brushes; (3) the incorporation of pNTBAM into pNI-
perature (LCST) at 29, 22, and 24 C, respectively. Cytocom- PAM on PC-NT-NI could change the surface thermal
patibility study for the modified surfaces was performed by 5 hydrophilicity property, and be further applied to decrease
days human skin fibroblast culture at 37 C. Data showed that the LCST of the modified PC surface; (4) grafted pNIPAM
only a very small amount of cells adhered on the PC and PC- brushes on PC-NI by ATRP showed very low cell adhesion
NI surfaces, while a significantly higher amount of cell adhe- and proliferation in 5 days fibroblast culture at 37 C, and cell
sion and growth was observed on PC-NT and PC-NT-NI surfa- detached at 24 C; (5) the incorporation of pNTBAM into pNI-
ces. Furthermore, cell detachment at the temperatures of 24 PAM on PC-NT-NI decreased the thermal sensitivity of cell
and 6 C were studied after the substrates were cultured with adhesion/detachment, cell detached at 6 C, but the cell adhe-
cells at 37 C for 24 h. The results showed that the cells on sion and proliferation were significantly improved at a wide
PC-NI formed the aggregations and loosely attached on the temperature range. V 2011 Wiley Periodicals, Inc. J Biomed Mater
C
substrate after 30-min culture at 24 C, while no significant Res Part B: Appl Biomater 100B: 217–229, 2012.
cell detachment was observed for PC-NT and PC-NT-NI sam-
ples at this temperature. By continuing the cell culture for Key Words: cell adhesion, block copolymer, surface modifica-
additional 100 min at 6 C for PC-NT and PC-NT-NI, about 10 tion, polymerization, cell–material interactions
How to cite this article: Zhang C, Thomas Vernier P., Wu Y-H, Yang W. 2012. Surface chemical immobilization of parylene C with
thermosensitive block copolymer brushes based on N-isopropylacrylamide and N-tert-butylacrylamide. J Biomed Mater Res
Part B 2012:100B:217–229.
INTRODUCTION methylsiloxane) (PDMS), have exhibited their advantages in
Implantable medical devices exhibit wide applications, such biocompatibility, chemical versatility, biological functionality,
as health monitoring sensors, wireless medical signal devi- and mechanical strength.3,4 These polymers have been used
ces, and electrode arrays for nerve function restoration.1,2 for decades as the coating materials to make the implanted
The materials for implantable medical devices must be bio- medical devices suitable to human tissue environments.5–8
compatible, and survive long-term exposure to the compli- Among them, poly(2-chloro xylylene), also named as pary-
cated and harsh human body environment. Polymers, such lene-C (PC), has several outstanding properties such as bio-
as polyurethane, parylene, polymethyacrylate, and poly(di- compatibility, biostability, low water permeability, chemical
Correspondence to: C. Zhang; e-mail: changhong.zh@gmail.com
V 2011 WILEY PERIODICALS, INC.
C 217
2. inertness, solvent resistance, good mechanical strength, and was significantly reduced with higher pNIPAM amount on
low dielectric constant9; it has been approved by US Food some substrates, such as polystyrene and silicon wafer.30,34
and Drug Administration (FDA) as class VI biocompatible Recently, copolymer brushes containing pNIPAM were
material and widely used as coating material for the medi- grafted on the substrates to approach the rapid cell detach-
cal implants. PC can be conveniently coated onto the com- ment, including poly(N-isopropylacrylamide-co-ethylene gly-
plex substrate by a nonsolvent involved chemical-vapor-dep- col) on silicon wafer, and poly(N-isopropylacrylamide-co-eth-
osition (CVD) technique, forming a thin, strong, and pinhole- ylene glycol monoacrylate) on polystyrene.33,38 It has been
free membrane layer at room temperature, making it a good found that the incorporation of polyethylene glycol units
candidate as a coating material for many long-term implant- into the pNIPAM chains on substrate resulted in more rapid
able devices.10,11 However, the high hydrophobicity and low fibroblast detachment during the temperature transition,
polarity of PC prevent it from adhering to the cells and tis- but the polymers containing polyethylene glycol (PEG) have
sues, which makes it an ideal packaging material, but limit long been demonstrated with low protein and cell binding
its use on the implanted medical devices that need to be ability at 37 C in biological environment,39 thus PEG seg-
anchored to tissue.12 Very limited methods, such as surface ments in the coating may facilitate the cell detachment
sculpturing, plasma treatment, activated water vapor treat- around LCST, but limit substrates from forming tight and
ment, photo-oxidation and surface chemical modification, long-term cell adhesion above LCST. Moreover, as many
have been employed to overcome this shortfall.13–17 How- researches have focused on the short-term rapid cell detach-
ever, most of them were focused on the generation of ionic ment on pNIPAM-based substrate, no study has been per-
groups on PC, not on forming a molecular or polymeric ad- formed for the improvement of long term cell adhesion and
hesive coating that is important for some medical implants, growth for pNIPAM contained substrates.
such as electrodes of the biosensor in nerve system, to form Some researchers has found that the substrates grafted
long-term adhesion to the cells and surrounding tissues. with pNIPAM brushes could effectively adhere to the porcine
Bulk pNIPAM and substrates coated with pNIPAM thin retina tissue at 37 C and lost adhesion at room temperature of
films have been intensively studied in a range of biomedical 24 C without damage to the surrounding tissues, this phenom-
applications, due to its beneficial temperature-dependent enon is believed to be related to the cell, protein and biomate-
adhesive properties.18–21 Below the lower critical solution rial interaction.40 However, the LCST of the modified PC surface
temperature (LCST) of 32 C, pNIPAM exhibits extended con- has been expected to go further lower to maintain the device
formation and high solubility in water; above 32 C, pNIPAM adhesion below 22 C, so does the tissue detachment below
becomes aggregated and hydrophobic.22 Homo pNIPAM has 10 C (or lower); this property could be essential for some med-
been produced into different bulk copolymers for specific ical devices, such as subcutaneous electrodes and drug delivery
biomedical applications, and these copolymers also exhib- devices in conjunctiva area that may frequently be exposed to a
ited different LCSTs than that of homo pNIPAM. For exam- low temperature environment, and still need to be tissue adhe-
ple, homopolymer of pNIPAM copolymerized with hydropho- sive. Being an important coating material for medical devices in
bic poly(N-tert-butylacrylamide) (pNTBAM) exhibited recent years, so far there is no study for generation of pNIPAM
improved cell attachment and proliferation with LCST below copolymer brushes on the PC-based substrates for adjustment
32 C23; pNIPAM copolymerized with hydrophilic polyethyl- of LCSTs, as well as the study for the cell proliferation and ther-
ene glycol (PEG) showed more rapid cell detachment upon mal induced cell adhesion/detachment.
temperature decrease than pNIPAM, and the LCST is below This article extends the work to graft pNIPAM-based copol-
32 C.24,25 The methods to covalently anchor the homo pNI- ymer brushes on PC, and the LCSTs were further adjusted by
PAM on the substrates have also been developed recently to formation of the copolymer brushes. We proposed to graft PC
functionalize the surface with thermal sensitive properties, surfaces with pNIPAM, pNTBAM, and their block copolymer
these methods included electron beam initiation, plasma- brushes by surface-initiated ATRP reaction. The surface
deposition, UV irradiation and surface atom transfer radical chemical composition, topography, and thermal sensitive
polymerization (ATRP). These modification methods have contact angle were characterized. Fibroblasts proliferation and
been suggested to have their roles in medical applications, adhesion/detachment were observed for each substrate, and
such as anti-biofouling, temperature responsive biosensors, the condition was compared at incubation temperatures of 37,
controlled drug release, thermal responsive chromatography, 24, and 6 C to investigate the cell adhesion/detachment upon
and reversible cell adhesion/detachment.26–35 Among this temperature change. We expect that this study will further
applications, homo pNIPAM grafted substrates has been provide an effective method to immobilize the PC surface with
intensely applied for mammalian cell adhesion/detachment a thermal responsive tissue adhesive layer.
study.34,36,37 Below LCST, it has been found that the cells do
not adhere to the pNIPAM-coated substrate. However, the MATERIALS AND METHODS
reports for the cell adhesion above LCST were contradic- Materials
tory: some papers reported that large amount cells adhered N-isopropylacrylamide (NIPAM) and N-tert-butylacrylamide
and proliferated on the substrates, some papers reported (NTBAM) from Sigma-Aldrich were recrystallized twice from
that cell adhesion was low; and some researchers found hexane:toluene (6:1, v/v). Azobisisbutyronitrile (AIBN) was
that cell coverage was high on the substrate with sparse purchased from Sigma-Aldrich and recrystallized from meth-
pNIPAM amount (7.9 lg cmÀ2 or less), while cell adhesion anol before use. The 2-chloropropionyl chloride (CPC) from
218 ZHANG ET AL. SURFACE CHEMICAL IMMOBILIZATION OF PARYLENE C
3. ORIGINAL RESEARCH REPORT
FIGURE 1. Schematic diagram illustrating the process of Friedel-Crafts acylation reaction on PC surfaces. Aromatic rings of PC were substituted
with chloropropionyl groups, which were able to initiate surface ATRP reaction.
Sigma-Aldrich was distilled to remove impurities. Dichloro- Surface initiated atom transfer radical polymerization
methane and DMF were distilled with calcium hydrogen (ATRP) of NIPAM, NTBAM, and their block copolymer
(CaH2) to remove the impurities. Ethanol was distilled by brushes on PC films. To graft pNIPAM brushes on PC surfa-
calcium oxide (CaO) before use. Anhydrous aluminum tri- ces, PC-Cl films were added into 20 mL DMF/water (3:1 v/v)
chloride (AlCl3, Fluka), copper (I) chloride (CuCl, Sigma- cosolvent containing NIPAM (3 g, 23.6 mmol) and HMTETA
Aldrich), 1,1,4,7,10,10-hexamethyltriethylenetetramine (149 lL, 0.531 mmol). This mixture was mildly agitated
(HMTETA, Sigma-Aldrich), were used as received without under nitrogen flow for at least 15 min to remove the oxy-
further purification. gen, and CuCl (53 mg, 0.53 mmol) was then added. Following
PC films in round shape (10 lm in thickness and 22 that, the temperature was increased to 50–55 C and main-
mm in diameter) were prepared by deposition of di(chloro- tained for another 22 h to polymerize NIPAM on PC surfaces.
p-xylylene) onto micro cover slips (VWR) using PDS2010 These PC films grafted with pNIPAM brushes were desig-
Labcoater (Specialty Coating System Company, Indianapolis, nated as PC-NI.
IN). The films were peeled from slips, sonicated in dimethyl- To graft pNTBAM brushes on PC surfaces, a procedure
formamide (DMF) and acetone for 30 min, respectively, and similar to that of PC-NI was applied. NTBAM (3 g, 26.5
then vacuum dried at room temperature prior to surface mmol), HMTETA (132 lL, 0.472 mmol), PC-Cl films and
modification. CuCl (47 mg, 0.47 mmol) were mixed with 20 mL DMF, the
surface ATRP reaction was performed at 45–50 C for 22 h
under nitrogen protection. Final PC films grafted with
Synthesis of poly(N-isopropylacrylamide) and poly(N- pNTBAM were designated as PC-NT.
tert-butylacrylamide) To prepare the PC surfaces with block copolymer
Bulk pNIPAM and pNTBAM were synthesized separately by brushes containing pNIPAM and pNTBAM segments, PC-NT
free radicals polymerization. NIPAM or NTBAM was mixed films were used as initiator to polymerize NIPAM under
with AIBN at the molar ratio of 100:1 in ethanol to form a same ATRP reaction condition as described above for the
20 wt % solution; the solutions were then heated to 60– preparation of PC-NI, but the reaction time was set at 55–
70 C for 12–16 h reaction under nitrogen protection. The 60 C to maintain the initiation reactivity; the resulting PC
resulting solutions were concentrated, redissolved in small films grafted with copolymer brushes were designated as
amount of tetrahydrofuran (THF) and precipitated in ether PC-NT-NI. Similarly, PC-NI films were also used as initiator
or hexane. The collected polymers were vacuum dried at to polymerize NTBAM at 50–55 C; the resulting films were
40 C, and used as the standard control to measure the ap- designated as PC-NI-NT. These films were rinsed by acetone
proximate amount of pNIPAM or pNTBAM brushes grafted and dried in vacuum oven before characterization. The
on PC films by spectrometry method. ATRP polymerization reactions on PC surfaces are illus-
trated in Figure 2.
Surface modification of PC films
Immobilization of the chloropropionyl groups on PC sur-
face via Friedel-Crafts acylation reaction. PC films were Surface characterization methods
immersed into 75 mL dichloromethane solution containing X-ray photoelectron spectroscopy (XPS, Surface Science
2.5 g (18.8 mmol) AlCl3 and 1.79 ml (18.8 mmol) CPC with Instrument, M-probe Surface Spectrometer) was used to for
nitrogen protection. This reaction was performed at 0 C for detailed information about surface chemical composition. All
first 6 h and followed by another 10 h at room temperature measurements were taken on the center of the sample at
with mild agitation as illustrated in Figure 1. After that, the room temperature. Monochromatic X-rays were incident at
films were thoroughly washed with DMF for 2 h and acetone 35 to the sample surface, and the emitted electrons were
for another 2 h, and then vacuum dried at room temperature collected at a takeoff angle of 35 from the plane of the
for 4 h prior to surface polymerization. The aromatic rings sample surface. ESCA-2000 software was used to collect
in PC films were substituted with certain amount of chloro- and analyze the data. To get an overview of the species
propionyl groups containing labile chlorine atoms, and these present in the sample, survey scans were run from 0 to
modified PC films were designated as PC-Cl. 1000 binding eV.
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH B: APPLIED BIOMATERIALS | JAN 2012 VOL 100B, ISSUE 1 219
4. FIGURE 2. Schematic description of surface ATRP reaction of pNIPAM, pNTBAM and the procedure to graft their block copolymer brushes on
PC-Cl surfaces. PC-NT and PC-NI were used as macroinitiator to initiate NIPAM and NTBAM respectively. * PC-NI-NT could not be formed.
Attenuated total reflection Fourier transform infrared 1 h, followed by vacuum dry at room temperature for 2
spectroscopy (ATR-FTIR, Perkin Elmer, Model Spectrum 200 days to remove all the volatile small molecules from the
with germanium crystal at 45 angle) was used for surface surface. The sample films were sterilized by 75% (V/V)
composition characterization and polymer brushes quantifica- ethanol for 20 min, then by UV radiation for another 15
tion, the penetration depths for this technique are between min, finally rinsed with sterile PBS solution for three times
0.17 and 0.99 lm.10 The amount of polymer brushes grafted before cell culture. The sterilized films were put into 12-
on the substrate was measured by comparing the peak ratios well tissue culture plates (BD Science), human skin fibro-
to the PC films with the solvent-cast polymer layer. blast cells were seeded at concentration of 6 Â 104 cells/
Surface topographic properties of the modified PC films well on the polymer surfaces with 200 lL medium [Dulbec-
were studied by atomic force microscopy (AFM, Digital Instru- co’s modified Eagle medium (DMEM) supplemented with
ment, Dimension 3100, Santa Barbara, CA) at 24 C in the air; 10% fetal bovine serum (GIBCO), 1.8 mM L-glutamine
one side of the sample films was fixed on a flat metal plate by (GiBCO), 45 U mLÀ1 penicillin and 45 lg mLÀ1 streptomycin
a double-sided adhesive tape, and a smooth area of the other (GIBCO)]. For cell attachment and proliferation study, the
side were chosen for AFM characterization. The square area of films seeded with cells were incubated at 37 C for 5 days
1 lm  1 lm on the films was scanned in the tapping mode. and polystyrene tissue culture petri dishes (TCPs) were
Prior to the AFM test, sample surfaces were cleaned by ace- used as controls.
tone and water, and followed by vacuum dry at 24 C over- The study for cell detachment at low temperature of 24
night. The calculated arithmetic mean of the surface roughness and 6 C was performed after 1-day cell culture at 37 C. The
(Ra) was derived from the roughness profile from AFM image. samples were first moved to a 24 C environment for 30-
Static contact angle were measured by contact angle goni- min incubation, and then were moved to a 6 C environment
ometer (Tantec, IL) for the polymeric films. The sample holder for additional 100-min incubation, cell number and mor-
was modified into a flat metal plate embedded with cooling– phology were studied at different temperatures. The cell
heating coils, which were connected to a temperature-adjusta- number on the polymer films was quantitated by counting
ble water bath. A membrane thermocouple connected with a four different areas on the film observed in the microscope
digital reader (Omega Inc, CN76000) was glued to the sample field; for each sample, three films were used and the cell
holder to detect surface temperature. The temperature of sam- number were averaged. TCPs and pristine PC films were
ple surface was slowly adjusted from 13 to 42 C, at each tem- used as controls in this study. The cell morphology was
perature point the contact angle was recorded. observed by phase contrast microscopy.
Cell culture on the surface modified PC films RESULTS AND DISCUSSION
Round-shaped polymer films (diameter in 22 mm) were The approach to covalently anchor the polyacrylamides to
thoroughly rinsed by acetone for 1 h and water for another the PC surface involves the use of ATRP methods for
220 ZHANG ET AL. SURFACE CHEMICAL IMMOBILIZATION OF PARYLENE C
5. ORIGINAL RESEARCH REPORT
growing the homo- and co-polymer brushes. ATRP reactions groups onto the aromatic rings of PC, and the surface ele-
are typically initiated by the reaction of a copper complex mental ratio of C:O:Cl was 76.9%:11.0%:12.1%. Assuming
with a halide initiator. Although a large number of chlorine that only single chloropropionyl group is bound per aro-
atoms exist on pristine PC, they lack sufficient reactivity to matic ring of PC, the substitution ratio of aromatic rings on
initiate the ATRP reaction. By covalently binding chloropro- PC-Cl is about 30% according to the elemental ratio change
pionyl groups to the PC aryl groups via Friedel-Crafts reac- from PC to PC-Cl. The binding energies of chlorine on PC-Cl
tion (Figure 1), the labile chlorines exhibited higher reactiv- also appeared to decrease slightly to 267.8 eV (Cl 2s) and
ity and thus effectively initiated ATRP reaction, giving 197.7 eV (Cl 2p), indicating the introduction of labile chlo-
acrylamide-based polymer brushes on PC (Figure 2). In this rine atoms onto PC surfaces. After ATRP reactions of either
study, the control of Friedel-Crafts reaction condition is not NIPAM or NTBAM on PC-Cl, additional N 1s peaks could be
only important to obtain a high yield of labile chlorine clearly observed at about 396.0 eV for PC-NI and PC-NT,
atoms, but also to maintain the bulk mechanical property of suggesting the successful immobilization of the homo pNI-
PC. It has been found that low concentration of CPC-AlCl3 PAM or pNTBAM brushes onto PC via ATRP. The surface ele-
ligand, low reaction temperature (0 C to room temperature) mental ratio of C:O:N of PC-NI was measured at about
and moderate reaction time (14–16 h) efficiently promotes 75.6%:12.0%:12.4%, close to the theoretical atomic value of
the generation of labile chlorines, and the resulting PC-Cl C:O:N for pure pNIPAM at 6:1:1 derived from its molecular
films exhibited slightly yellow color, insignificant loss of the formula of (C6H9ON)n; and C:O:N:Cl of PC-NT was about
mechanical strength, and ability to surface initiate ATRP at 76.7%:10.7%:9.9%:2.7%, the ratio of C:O:N was close to the
room temperature; while the PC films that were treated theoretical atomic value of C:O:N for pure pNTBAM at 7:1:1
high concentration of CPC-AlCl3 ligand, high temperature or derived from its molecular formula of (C7H11ON)n, indicat-
extended time became dark brown and very brittle. ing a full coverage of the polymer brushes on these modi-
The reaction of PC-Cl with NIPAM and NTBAM mono- fied substrates.
mers under ATRP conditions led to the formation of pNI- A chlorine signal from PC-NI could not be observed in
PAM and pNTBAM brushes on the PC surface. The tempera- XPS spectra. The loss of the chlorine signal from the aro-
ture of ATRP reactions was maintained between 40 and matic rings of the substrates can be attributed to the forma-
45 C for PC-NT and 50 and 55 C for PC-NI to reach the tion of flexible, hydrophilic and thick pNIPAM coatings,
maximum grafting amount. It has been observed that lower which is beyond XPS sampling depth (regular 7.5 nm in an
temperature did not well initiate the ATRP, resulting in low organic matrix),43 preventing the chlorine atoms on the sub-
surface coverage, while the high temperature above 65 C strate from detection. The loss of the labile chlorine signals
causes the decomposition of copper–ligand complex during from the ending groups of the hydrophilic pNIPAM brushes
ATRP reaction.41 Based on the report for bulk polymeriza- can be attributed to the accelerated hydrolysis in the cosol-
tion of pNIPAM, cosolvent of DMF/water was used for ATRP vent of ATRP reaction as reported previously.44,45
of PC-NI to obtain high molecular weight of grafted pNIPAM Additional information for the immobilized polymer
brushes.42 The terminal chlorines at the polymer brushes of brushes on the substrate was obtained from XPS high reso-
PC-NI and PC-NT were further applied as macro-initiator to lution scan of C 1s. As shown in Figure 3(B), the strongest
initiate ATRP of the second monomer of NTBAM and NIPAM peak at 281.0 eV in PC spectra was attributed to methylene
respectively, to form copolymer brushes. Cosolvent of DMF/ and aryl carbons. The C 1s peak of PC-Cl was increased due
water was used for ATRP of PC-NT-NI and dry DMF as sol- to the incorporation of amide (C¼ ¼O) groups. Peak-fitting
vent for PC-NI-NT. As will be discussed below by XPS and was not performed for surface modified PC due to the exis-
FT-IR analysis, PC-NT-NI was formed but PC-NI-NT was not tence of various carbons bonds and interaction in the poly-
after second step of ATRP. mer brushes and between the substrates, but the shake-up
satellite signals (p–p* transition) for PC-NI, PC-NT and PC-
XPS and FT-IR characterization of polymer brushes NT-NI could be clearly observed, indicating the incorpora-
grafted on PC tion of the pNIPAM and pNTBAM and their copolymer
The resultant polyacrylamide thin films were characterized brushes onto PC surface.
by XPS and FT-IR methods. The XPS survey scan spectra of To further characterize the surface chemical composi-
PC, PC-Cl, PC-NI, PC-NT, and PC-NT-NI are shown in Figure tion, ATR-FTIR was also performed to analyze the infrared
3(A), XPS analysis were performed at several areas on absorption of the functional groups on the substrates.
modified PC surface, and showed similar data, indicating a Because of the higher penetration depth of the IR radiation
homogenous grafting of the polymer brushes on the surface. beam in ATR-FTIR technique (1–5 lm) than the sampling
The characteristic peaks of carbon and chlorine were depth of XPS (7.5 nm),46 the appearance of carbonyl
observed at 281.8 eV (C 1s), 268.4 eV (Cl 2s), and 197.8 eV bands for PC-Cl in FTIR (Figure 4) suggested that the Frie-
(Cl 2p) for PC, and the XPS surface elemental analysis del-Crafts reaction was not only confined to the near surface
showed the ratio of C:Cl at 89.4%:10.6%, close to the theo- region, the CPC-AlCl3 ligands also penetrated into a depth of
retical atomic ratio of pure PC for C:Cl at 8:1 derived from PC surface structure, reacting with the aromatic rings. It
its molecular formula of (C8H7Cl)n. After Friedel-Crafts reac- was found that the PC films became dark brown and brittle
tion, an additional peak of O 1s could be observed for PC-Cl after an extended Friedel-Crafts reaction time (24 h) or at
at 529.5 eV due to the incorporation of propionyl chloride a high temperature ( 45 C), this may be attributed to the
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH B: APPLIED BIOMATERIALS | JAN 2012 VOL 100B, ISSUE 1 221
6. FIGURE 4. Comparative ATR-FTIR spectra of PC, PC-Cl, PC-NI, P-NT,
and PC-NT-NI. Acyl groups on PC-Cl can be observed between 1693
and 1710 cmÀ1 (C¼O stretch), amide group on PC-NI and PC-NT can
¼
be found at 1646 and 1654 cmÀ1 (C¼O stretch), respectively, PC-NT-NI
¼
shows an amide bond absorption peak between 1646 and 1654 cmÀ1.
moisture in the air, which can be indicated by the broad ab-
sorbance peak between 1693 and 1710 cmÀ1, and the
appearance of an absorbance peak at about 2940 cmÀ1 in
FTIR spectra. Among them, only the chlorine atoms in chlor-
opropionyl groups exhibited high reactivity to initiate ATRP,
and the following ATRP can occur at room temperature or
higher. Interestingly, maintenance of the Freidel-Crafts reac-
tion of PC at 22–24 C could lead to the formation of a
strong absorption at 1694 cmÀ1 with broad band (spectra
not shown), but the resulting PC-Cl exhibited low reactivity
and could only initiate the ATRP at the temperature above
FIGURE 3. (A) XPS survey scan analysis of PC, PC-Cl, PC-NT, PC-NI,
50 C, this may be due to the higher amount propionic acid
PC-NT-NI, and PC-NI-NT. No chlorine peaks (Cl 2s and Cl 2p) were
observed for PC-NI, indicating PC-NI was unable to further initiate the on PC-Cl by alkylation reaction.
ATRP of NTBAM to form the block copolymer brushes. * PC-NI-NT In this study, cosolvent of DMF/water was used in ATRP
could not be formed and no chlorine signals were shown in its XPS of NIPAM to obtain the hydrophilic polymer brushes with
spectra. (B) High-resolution XPS spectra of the carbon C 1s signal for
each substrate. The shake-up satellite signal (p–p* transition) pointed
maximum length according to the study of bulk pNIPAM po-
by arrow heads can be clearly observed for PC-NI, PC-NT, and PC-NT- lymerization,47 and dry DMF was used as solvent for the
NI due to the grafted polymer brushes. ATRP of NTBAM to form the hydrophobic polymer brushes.
The peaks of amide bond (amide I band, secondary amide
decrement of the polymer chain alignment by the over-reac- ¼O
C¼ stretch) in the polymer brushes were observed in PC-
tion of polymer with polar CPC-AlCl3 ligands. Comparison of NI spectra at 1646 cmÀ1, while in PC-NT spectra at lower
the surface FTIR spectra gave more information about Frie- value of 1654 cmÀ1 due to the lower chains flexibility, po-
del-Crafts reaction and ATRP reaction. Formation of the acyl larity and existence of weaker intermolecular hydrogen
groups on PC-Cl is included in a broad band between 1693 bond interaction of the pNTBAM brushes.
and 1710 cmÀ1 (C¼ stretch), this broad C¼ absorption
¼O ¼O To roughly quantify the pNIPAM and pNTBAM on the
band can be attributed to the coexistence of alkylation and substrate, the strength of the absorption peaks from amide
acylation reaction by the active chlorine groups of CPC dur- bonds of polymer brushes on PC-NI or PC-NT was used, and
ing Friedel-Crafts reaction. Both chlorine atoms on CPC par- the absorption peak at 1607 cmÀ1 arising from aromatic
ticipated in the electrophilic substitution of the hydrogen rings of substrate was used as the reference. The character-
atoms on the aromatic rings of PC, resulting in the mono- istic peak strength ratio of pNIPAM/substrate (I1646/I1607)
substituted aromatic rings with propionyl chloride groups for PC-NI or pNTBAM/substrate (I1654/I1607) of PC-NT was
(i.e., ACH2CH2C(O)Cl) or with 2-chloropropionyl groups (i.e., compared to the solvent-cast polymer layer with known
AC(O)CH2CH2Cl), the chlorine atoms on these short ali- amount of the polyacrylamide. Calculated results showed $
phatic chains could further react with other aromatic rings 7.2 lg cmÀ2 pNTBAM on PC-NT and 9.7 lg cmÀ2 pNIPAM
to form a-acetonic group (i.e., AC(O)CH2CH2A) between on PC-NI; the approximate thickness of grafted pNTBAM
multiple aromatic rings; besides, the propionyl chloride and pNIPAM on the substrates were calculated at about 70
groups could further be hydrolyzed into propionic acid by and 88 nm by using the density of bulk pNIPAM (1.10 g
222 ZHANG ET AL. SURFACE CHEMICAL IMMOBILIZATION OF PARYLENE C
7. ORIGINAL RESEARCH REPORT
cmÀ3) and pNTBAM (1.04 g cmÀ3). The higher grafted in pNTBAM brushes that less regularly accumulated on the
amount of the pNIPAM brushes on PC-NI could be attrib- substrate. The medium roughness of PC-NT-NI between that
uted to the lower steric hinderance of the propyl groups in of PC-NT and PC-NI could be attributed to the moderate
NIPAM, which could assist the formation of the longer and conformational rigidity of the pNTBAM-co-pNIPAM brushes
more flexible chains than that of NTBAM with butyl groups. of on substrates.
A key characteristic of the ATRP reaction is the preser-
vation of the active labile halogen atoms throughout the po- Surface contact angle measurement in response to envi-
lymerization. These halogens are effective initiators for the ronmental temperature change
growth of a second polymer chain, from a different mono- The water droplet contact angle values measured for PC,
mer, forming a block copolymer structure (Figure 2).48 Only PC-Cl, PC-NI, PC-NT, and PC-NT-NI were plotted as a func-
one of the two polymer brushes discussed above retains tion of temperatures from 13 to 40 C in Figure 6. As
their Cl initiators. XPS data for PC-NT show the presence of expected, the contact angles of PC and PC-Cl remained con-
Cl, while it is absent in PC-NI. These chloride initiators at stant at roughly 90 and 80 , respectively, with no change
the termini of the pNTBAM brushes of PC-NT allowed the over the temperature range used here. The PC-Cl films give
use of ATRP with NIPAM to add pNIPAM chains to the PC- a lower surface contact angle than that of PC films due to
NT materials. Unfortunately, the lack of chloride initiators the hydrogen bonding (albeit weak) observed from the car-
on PC-NI made it impossible for us to prepare PC-NI-NT. bonyl oxygen.
The block copolymer brushes were also examined on PC-NI shows a temperature dependent hydrophilicity,
PC-NT-NI by XPS and FT-IR. Interestingly, although the tend- with the contact dropping from 71 to 52 with a tempera-
ency of hydrolysis of chlorine atoms on the grafted pNIPAM ture decrease from 35 to 22 C. The LCST for PC-NI is esti-
segments of PC-NT-NI, the chlorine signals were still clearly mated to be 29 C, which was lower than the LCST value
observed, even though PC-NI showed no chlorine signal. (32 C) of bulk pNIPAM. The lower LCST of PC-NI could be
XPS elemental analysis showed the ratio of C:O:N:Cl on PC- attributed to the enhanced hydrophobic interaction between
NT-NI at 76.2%:11.2%:10.9%:1.7%, a lower chlorine content the grafted pNIPAM brush and the hydrophobic PC sub-
than that on PC-NT (2.7%). The chlorine signals on PC-NT- strate. The thermal induced phase transition of the homo
NI could be attributed to the unreacted chlorines sur- pNIPAM results from the change of the inter- and intrachain
rounded by the hydrophobic pNTBAM brushes and were interactions. The pNIPAM chains of the brush are partially
not hydrolyzed. immobilized onto the hydrophobic PC surface, and this
Figure 4 shows that PC-NT-NI has an amide bond increases the hydrophobic interactions between the sub-
absorption at 1649 cmÀ1, it is located between the absorp- strate and propyl groups in pNIPAM, which in turn limits
tion peak of 1646 cmÀ1 in PC-NI and 1654 cmÀ1 in PC-NT, the motility and hydrodynamic radius of the polymer brush.
and shows greater intensity than either of them, indicating The net effect is an easy collapse of the polymer brush into
an overlap of amide bonds signal from pNTBAM and pNI- the hydrophobic, dense phase at a lower temperature than
PAM segments in PC-NT-NI. The approximate molar ratio of observed for bulk pNIPAM.49–51
the pNTBAM and pNIPAM at 58:42 could be obtained from Bulk pNTBAM is hydrophobic with low swelling ratio
the area ratio of fitted peak at 1646 and 1654 cmÀ1 in PC- (0.05 wt %) and shows no thermal shifts of its surface
NT-NI spectra; the amount of pNIPAM segment on PC-NT-NI properties. The grafted pNTBAM brushes on PC-NT surface,
could be further calculated at $5.9 lg cmÀ2, thus the total however, exhibit a rapid decrease in contact angle, from 77
thickness of the grafted copolymer brushes on PC-NT-NI is to 60 , when the temperature is decreased from 30 to 20 C.
at $123 nm. The LCST of PC-NT was found to be 24 C. Similar tempera-
ture-related phase transition was also found for other
Surface morphology characterization by AFM poly(N-substituted acrylamide) brush–water systems,52 and
The sample film surfaces were thoroughly washed by ace- the temperature dependence of these systems could be
tone and dried at vacuum at room temperature prior to attributed to the changes of the molecular interactions
AFM measurement. As shown in Figure 5, PC films prepared among polymer chains and water. The thermal independent
by CVD process were uniform and smooth, with average hydrophobicity of bulk pNTBAM is attributed to the high
roughness value Ra of 1.8 nm. An increase of surface rough- intramolecular interaction of the polymer chains, which
ness (Ra ¼ 2.3 nm) was found for PC-Cl films with the for- overcomes the extramolecular interaction between polymer
mation of an irregular granule structure. This increase can chains and water. However, by grafting of the pNTBAM
be explained by the breakdown of the polymer chains in a brushes onto the substrate, the quantity and the interaction
depth of the substrate surface by the CPC-AlCl3 ligand as of the immobilized pNTBAM chains were significantly
discussed in FTIR analysis. The Ra values of PC-NI, PC-NT, reduced, it resulted in the enhanced extramolecular interac-
and PC-NT-NI were about 2.8, 3.8, and 3.4 nm, respectively. tion between polymer chains and surrounding water, thus
Among PC-NI, PC-NT, and PC-NT-NI, PC-NI showed the low- the grafted pNTBAM exhibited water solubility at low tem-
est roughness, which can be attributed to the lowest steric perature. The change of the surface energy was further con-
hinderance of isopropyl groups and the highest chain flexi- firmed by comparing the surface contact angles among the
bility of pNIPAM, while PC-NT showed a highest roughness bulk pNTBAM (85 ), PC-NT (77 ), and PC (91 ) at 24 C.
due to the highest rigidity of the tert-butylacrylate groups The lowest contact angle value of PC-NT indicated the
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH B: APPLIED BIOMATERIALS | JAN 2012 VOL 100B, ISSUE 1 223
8. FIGURE 5. Three dimensional AFM images of: (A) PC, (B) PC-Cl, (C) PC-NI, (D) PC-NT, and (E) PC-NT-NI. After surface graft with polymer brushes
on PC, an increase of the surface roughness can be obviously observed. Ra: average roughness.
highest surface energy, as well as the stronger hydrogen ments, and the rapid decrease can be explained by the syn-
bonding interaction between the grafted pNTBAM brushes ergic hydrophilic effects of the PNTBAM and PNIPAM
and water. segments.
The PC-NT-NI that was grafted with copolymer brushes
of pNIPAM and pNTBAM also showed thermal sensitive Cytocompatibility and cell adhesion/detachment study
hydrophilicity. The contact angle of PC-NT-NI decreased In this study, we further studied the cell adhesion/detach-
from 74 to 54 with the temperature decrease from 34 to ment on parylene substrates coated with pNIPAM and pNIT-
15 C. The LCST of PC-NT-NI was found to be 22 C, which is BAM brushes (PC-NI, PC-NT and PC-NT-NI) in response to a
lower than that of either PC-NI or PC-NT. The lower LCST in change of environmental temperature. To evaluate the cyto-
such copolymers has attributed to the limited motility of compatibility of the surface modified films, human skin
pNIPAM chains at low temperature and enhanced hydropho- fibroblasts were seeded onto the membrane samples of PC,
bic interaction between pNIPAM and water, which is caused PC-Cl, PC-NI, PC-NT, and PC-NT-NI and incubated at 37 C
by the reduced amount of structured water in the pNIPAM for 5 days in a combination of cell culture medium and fetal
when it is copolymerized with other hydrophobic poly- bovine serum. Tissue culture petridishes (TCPs) were used
mers.22,53 As illustrated in Figure 6(B), the grafted copoly- as controls. During cell proliferation, fibroblasts were in
mer brushes on PC-NT-NI exhibited an extended ‘coil’ struc- normal flattened appearance but grew on all the samples at
ture below LCST and aggregated ‘‘globule’’ structure above varying densities, dependent on the substrates, indicating
LCST. The contact angle for PC-NT-NI also showed a slow the existence of the different cell-material interactions for
decrease from 32 to 25 C, and a rapid decrease from 25 to these substrates. The quantitative data in Figure 7 showed
15 C; the slow decrease can be attributed to the interfered that proliferation rate of fibroblasts on PC-NT, PC-NT-NI,
phase transition of PNIPAM by hydrophobic PNTBAM seg- and TCP control are significantly higher (10 times) than
224 ZHANG ET AL. SURFACE CHEMICAL IMMOBILIZATION OF PARYLENE C
9. ORIGINAL RESEARCH REPORT
FIGURE 6. (A) Water contact angle of PC, PC-Cl, PC-NI, PC-NT, and PC-NT-NI as a function of temperature. (B) Schematic illustration of polymer
brushes changes on PC-NT-NI below and above LCST in aqueous solution. The polymer brushes became extended below LCST and collapsed
above LCST.
that on PC and PC-NI; and cell proliferation rate on PC-Cl decreased hydrophobicity (contact angle: 81 ) and increased
was lower than that on PC-NT but still five times higher cell attachment amount (about 35% of that of TCP at
than that on PC or PC-NI; no statistical difference of cell day 5). By grafting polymer brushes onto substrates, PC-NI,
numbers was found on PC and PC-NI films during culture. PC-NT and PC-NT-NI showed a further reduction of hydro-
The cells on TCP reached confluence at about 7 days, and phobicity, which was reflected by the decrease of contact
on PC-NT and PC-NT-NI surface reached confluence after 9 angles to 71 , 77 , and 74 , respectively, at 37 C. Although a
and 10 days culture in the incubator. number of cells adhered to PC-NI in first 4 h after seeding, it
The difference in cell density on each substrate can be was also found that PC-NI did not support the sustained cell
attributed to the various factors of the cell-material inter- adhesion after day 1. A significantly lower cell number was
face, such as surface hydrophobicity, energy, topography, observed on PC-NI than that of PC-NT, PC-NT-NI, and TCP.
surface charge, and chemical composition.54–57 For these This result is consistent to the previous research reported by
substrates, surface hydrophobicity and surface chemical Okano et al., for polystyrene grafted with thick pNIPAM layer,
composition are expected to be the main factors. At 37 C, where those researchers observed very little cell adhesion for
PC film was very hydrophobic (contact angle of 91 ) with films above 7.9 lg cmÀ2.30 The PC-NI films studied here had
low surface polarity, leading to a low cell attachment and grafted pNIPAM amount at about 9.7 lg cmÀ2. In contrast,
proliferation rate (about 7% of that of TCP at day 5). The cell adhesion and proliferation thus showed a significant
PC-Cl surface containing polar carbonyl groups exhibited a increase on PC-NT and PC-NT-NI, reaching 50–70% of the
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH B: APPLIED BIOMATERIALS | JAN 2012 VOL 100B, ISSUE 1 225
10. (Figure 8). After 24-h culture, a low cell density was found
on PC-NI, similar to the 5-day cell culture. The cells
attached on PC-NT and PC-NT-NI showed slight heterogene-
ity due to the low amount of the cultured cells and uneven-
ness of the surface caused by multiple steps of chemical
modification with mechanical agitation. As the temperature
was decreased to 24 C, the attached cells completely
detached from the PC-NI substrate and floated above the
substrate after incubating for 40 min at (Figure 8D,D’),
while the cells on PC-Cl, PC-NT, PC-NT-NI, and TCP control
exhibited no significant change (photos were not shown). As
the incubation temperature was reduced to 6 C and main-
tained for another 100 min, the cell coverage on PC-NT was
reduced. The remained cell number on the surface was
FIGURE 7. Quantitative assays of cell proliferation on PC, PC-Cl, PC- counted and the results showed that roughly 10% 6 5% of
NI, PC-NT, PC-NT-NI films, and TCP control. Data represent the mean
of three samples (p 0.05). Cells were seeded at 6 Â 104 cells/well
the cells on PC-NT detached and floating cells could be
and cultured at 37 C in the incubator for 1, 3, and 5 days. Cell showed observed in the medium (Figure 8E,E’); similarly, $35% 6
significantly higher attachment and proliferation on PC-NT, PC-NT-NI, 5% of the cells on PC-NT-NI detached, with some of the
and TCP control in comparison to PC, PC-Cl, and PC-NI films. Very detached cells forming clumps above the substrate (Figure
small amount of cells proliferated on PC-NI and PC for 5-day culture;
while cell number on PC-Cl showed a higher cell quantity than PC 8F,F’). The cells on TCP control, PC and PC-Cl remained nor-
and PC-NI. mal spread shape without significant detachment (Figure
8A,A’,B,B’,C,C’) after 100 min at 6 C. It has been suggested
cell density observed for TCP at day 5. The pNIPAM layer in previously that the exposure of NAH groups of the poly-
PC-NT-NI was 5.9 lg cmÀ2, below the maximum level deter- meric brushes to the serum containing medium could cause
mined by Okano for promoting cell adhesion. Considering the a reduction in cell attachment.60 At a temperature below
fact that the hydrophobicity of the three polymer brush sys- LCST, the hydrophilicity of PC-NI, PC-NT, and PC-NT-NI were
tems are comparable, the cell-substrate interaction on these significantly increased, resulting in a higher percentage of
substrates is clearly also dependent on surface chemical com- their NAH groups being exposed to the media. The cells on
position.58 A recent study by Lynch et al., examined cell adhe- PC-NT and PC-NT-NI also showed slower detachment rates
sion on bulk samples of pNIPAM, pNTBAM and their copoly- and higher cell adhesion density than that on PC-NI, and
mers, and found very different properties for the different these could be attributed to the slower change of polymer
polymers.59 They found that the cell adhesion and prolifera- chains and relatively higher amount of the unexposed NAH
tion on pNIPAM and pNTBAM were indistinguishable in the groups that was caused by the high steric hindrance of
absence of serum, but showed marked differences when se- butyl groups on pNTBAM segments of PC-NT and PC-NT-NI.
rum was added to the growth medium (as was the case with Interestingly, the detached cells returned to grow on the
our experiments). The principal source of the difference in polymer brush coated substrates or TCP after 2-day incuba-
the behavior of the different materials is in the ability of tion at 37 C, and the cell adhesion/detachment study could
these polymers to bind fibronectin and albumin. Lynch et al. be repeated with similar results, these results are consistent
showed that high pNIPAM content leads to high binding af- with the research reported by Dr. Okano et al. in their cell
finity for albumin and low affinity for fibronectin, while high adhesion/detachment study for pNIPAM grafted polystyrene
pNTBAM content leads to low binding affinity for albumin surface, indicating the maintenance of the cell metabolism
and high affinity for fibronecton. It is known that the fibro- and viability after cell adhesion/detachment test.62,63
nectin supports the cell proliferation, while albumin reduces All these results from in-vitro cell study will be helpful
it.60 Lynch et al., proposed that the tert-butyl groups of in use of the modified PC as a coating material for the
pNTBAM sterically block access to the amide NAH groups, implantable medical devices for tissue adhesion. The coated
preventing the majority of the serum proteins from binding, device is cytocompatible above LCST and can be controlled
with the exception of fibronectin, which binds most effec- to attach or detach the cells and organ with small or no tis-
tively to hydrophobic surfaces.59,61 Both pNIPAM and sue damage by simply adjusting the environmental tempera-
pNTBAM based materials give initial cell adhesion, as ture. Incorporation of pNTBAM into pNIPAM on the PC
observed here, but pNTBAM gives markedly more efficient resulted in a lower LCST and significantly improved cell ad-
cell proliferation. The thin pNIPAM film of PC-NT-NI partially hesion and growth, it will be a benefit for the long-term fix-
blocks the underlying pNTBAM film, limiting serum exposure ation of the medical devices; furthermore, this tissue–mate-
to the underlying pNTBAM, thus showing a moderate cell rial adhesion can also be reduced or released at a reduced
attachment and proliferation, markedly better than PC-NI, but temperature around the tissue during surgery. By decrease
not as good as PC-NT-NI. of the LCST of the grafted polymer brushes, PC can be
Cell detachment study at the reduced temperatures (24 applied for more implants that are frequently exposed to a
and 6 C) was performed after 24-h cell culture on each sub- low temperature but with no unexpected detachment. By
strate at 37 C. PC, PC-Cl, and TCP were used as controls combining other methods, for example, of increasing or
226 ZHANG ET AL. SURFACE CHEMICAL IMMOBILIZATION OF PARYLENE C
11. ORIGINAL RESEARCH REPORT
FIGURE 8. Phase contrast microscopic images of the cell attachment on polymer films after 24 h incubation at 37 C and followed by 40-min incu-
bation at 24 C and 100-min incubation at 6 C, cell were initially seeded at 6 Â 104 cells/well. (A) and (A’) TCP control at 37 C and 6 C. (B) and (B’)
PC films at 37 and 6 C. (C) and (C’) PC-Cl films at 37 and 6 C. (D) and (D’) PC-NI films at 37 and 24 C. (E) and (E’) PC-NT films at 37 and 6 C. (F)
and (F’) PC-NT-NI films at 37 and 6 C. Cells amount on PC-NI was observed low at 37 C, and the cells were completely detached after 40-min cul-
ture at 24 C; cells on PC-NT and PC-NT-NI showed a high attachment at 37 C, and partially detached from PC-NT-NI and PC-NT after 100-min cul-
ture at 6 C, some cells were observed clumped and dangling on PC-NT-NI. No obvious cell detachment was observed for PC-Cl, PC-NT, and TCP
control after 100-min culture at 6 C. Arrows show the attached cells on PC, PC-Cl, and PC-NI, and the dangling cells clumps on PC-NT-NI.
decreasing the divalent cations, such as Ca2þ, Mg2þ and/or response to the environmental temperature is in perform-
their chelating agents in the media, cell adhesion to the sub- ance and will be reported later.
strate could be affected,64,65 these factors may provide addi-
tional ‘‘tuning’’ for the temperature sensitive binding to the SUMMARY
different substrates. Moreover, the incorporation of pNTBAM Our purpose is to chemically modify the PC surfaces with
exhibited an improvement of cell attachment and prolifera- temperature controlled cell adhesion/detachment, and
tion on pNIPAM contained layer, this will not only assist the improved cell adhesion and proliferation above LCST. These
tissue repair after implantation surgery, but also improve properties have been obtained by covalently grafting pNI-
the long-term implant–tissue adhesion. The related study PAM, pNTBAM, and their copolymer brushes onto PC via
for short-term and long-term tissue adhesion/detachment in chemical reaction. Hydrophobic pNTBAM brushes on PC-NT
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH B: APPLIED BIOMATERIALS | JAN 2012 VOL 100B, ISSUE 1 227
12. exhibit LCST at 22 C, and grafted pNIPAM on PC-NI exhib- 12. Chang TY, Yadav VG, De Leo S, Mohedas A, Rajalingam B, Chen
ited the LCST at 29 C. The copolymer brush containing CL, Selvarasah S, Dokmeci MR, Khademhosseini A. Cell and pro-
tein compatibility of parylene-C surfaces. Langmuir 2007;23:
pNTBAM and pNIPAM on PC-NT-NI, obtained by two-step 11718–11725.
ATRP, showed the LCST at 24 C. 13. Chang TY, Yadav VG, De Leo S, Mohedas A, Rajalingam B, Chen
In cell culture study, PC-NI showed very low cell adhe- CL, Selvarasah S, Dokmeci MR, Khademhosseini A. Cell and pro-
tein compatibility of parylene-C surfaces. Langmuir 2007;23:
sion and proliferation; while the copolymerized layer on PC-
11718–11725.
NT-NI exhibited a significantly improved cell adhesion and 14. Pruden KG, Sinclair K, Beaudoin S. Characterization of parylene-N
proliferation. All the substrates grafted with polymer and parylene-C photooxidation. J Polym Sci A Polym Chem 2003;
brushes showed thermal sensitive cell adhesion/detachment 41:1486–1496.
15. Lange K, Grimm S, Rapp M. Chemical modification of parylene C
but varied according to the substrates; PC-NI showed a
coatings for SAW biosensors. Sens Actuat B Chem 2007;125:
poor cell adhesion at 37 C but complete detachment at 441–446.
24 C; cells on PC-NT showed a high amount of attachment 16. Demirel MC, So E, Ritty TM, Naidu SH, Lakhtakia A. Fibroblast
and proliferation at 37 C, and cell detachment increased as cell attachment and growth on nanoengineered sculptured thin
films. J Biomed Mater Res B Appl Biomater 2007;81B:219–223.
temperature was reduced to 6 C; while PC-NT-NI exhibited
17. Cetinkaya M, Boduroglu S, Demirel MC. Growth of nanostruc-
a strong cells attachment at 37 C, as well as up to 35% cell tured thin films of poly (p-xytylene) derivatives by vapor deposi-
detachment at 6 C. As PC is in a rapid growth as an effec- tion. Polymer 2007;48:4130–4134.
tive coating material of many medical devices, this study 18. Cheng X, Wang Y, Hanein Y, Bohringer KF, Ratner BD. Novel cell
patterning using microheater-controlled thermoresponsive
explored a way to enhance the PC coated implants with ad- plasma films. J Biomed Mater Res A 2004;70:159–168.
justable LCST, improved cytocompatibility, as well as ther- 19. Ohya S, Nakayama Y, Matsuda T. Thermoresponsive artificial
mal controlled tissue adhesion. extracellular matrix for tissue engineering: Hyaluronic acid bio-
conjugated with poly(N-isopropylacrylamide) grafts. Biomacromo-
lecules 2001;2:856–863.
ACKNOWLEDGMENTS 20. Okajima S, Yamaguchi T, Sakai Y, Nakao S. Regulation of cell ad-
The authors appreciate the help of Mr. Christian Gutierrez, Bio- hesion using a signal-responsive membrane substrate. Biotechnol
engineering Department at University of Southern California, Bioeng 2005;91:237–243.
for providing parylene C films; Dr. Mark Thompson, Chemistry 21. Yamato M, Utsumi M, Kushida A, Konno C, Kikuchi A, Okano T.
Thermo-responsive culture dishes allow the intact harvest of mul-
Department at University of Southern California, for correcting tilayered keratinocyte sheets without dispase by reducing temper-
the grammar and providing the lab tools. ature. Tissue Eng 2001;7:473–480.
22. Feil H, Bae YH, Feijen J, Kim SW. Effect of comonomer hydrophi-
licity and ionization on the lower critical solution temperature of
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