This document lists Pit Fee Jao's patent filings, peer-reviewed articles, and other publications. It includes 14 patent filings from 2012-2022 related to electrospinning techniques and nanoporous membranes. It also lists 23 peer-reviewed journal articles and conference papers from 2013-2016 related to carbon nanofibers, electrospun nanofibers, and their applications in tissue engineering and neural interfaces. Additionally, it mentions 15 non-peer reviewed articles and presentations from 2007-2013.
Sylvia Mergui has extensive experience in materials science and engineering. She has published over 10 refereed publications, taught various engineering courses, and received funding for multiple research projects. Her professional activities include chairing conference sessions, serving on faculty committees, and co-organizing conferences.
1. The document discusses nanotechnology and its applications in India. It describes some examples of nanotechnology research in India, including carbon nanotube filters for water purification, a typhoid detection kit, and a potential heart pacemaker device that generates power from blood flow.
2. It outlines some government programs to support nanotechnology development, including a Nanotechnology Business Incubator and the Centre for Nano Science and Engineering. It also describes some individual research projects funded under the national Mission on Nano Science and Technology.
3. The national Mission on Nano Science and Technology aims to build capacity in nanotechnology research and develop products in areas like water purification, materials development, and drug delivery.
This document provides a summary of Dr. Van-Son Dang's education and experience. He received a PhD in Material Science from the University of Birmingham in 2011, with a thesis on nano-technology of pinning centres in high temperature superconducting YBa2Cu3O7 films. He has over 7 years of experience conducting research on functional materials as an early stage researcher at the University of Birmingham, where he optimized fabrication and characterization techniques. He is skilled in deposition, microscopy, and measurement techniques and has published over 25 papers in peer-reviewed journals.
Evolution of nanotechnology in electronics (seminar report) -codewithgauriGaurav Pandey
Nanotechnology is engineering and manufacturing at the molecular scale, thereby taking more advantage of the unique properties that exist at that scale.
A Nanometre is a unit of length in the metric system, equal to one billionth of a metre(10-9).Can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.
www.blog.codewithgauri.tech
This document is a technical seminar report submitted by Arun.R.Nair in partial fulfillment of the requirements for a Master of Technology degree in Computer Science and Technology from GITAM University in Hyderabad, India during the 2013-2014 academic year. The report covers nanotechnology and includes chapters on the history, concepts, approaches, tools, applications of nanotechnology in various fields like biotechnology, medicine, electronics, and implications of nanotechnology. It also includes acknowledgments, an abstract, table of contents, references and has been certified by seminar instructors from the university's department of computer science.
Nanotechnology involves manipulating matter at the atomic and molecular scales. It allows for precisely manipulating atoms and molecules to fabricate macroscale products. Governments have invested billions in nanotechnology research due to its diverse applications including industrial and military uses. While concepts of nanotechnology were first discussed in 1959, the field gained more attention in the early 2000s, leading to both progress and controversies. Applications of nanotechnology include stronger and lighter materials, more effective energy and medical technologies, and enhanced electronics. However, challenges remain regarding mass production, health effects, and environmental impacts.
The document discusses nanoelectronics and its contributions to electronics. It describes how nanoelectronics allows improving electronic components through approaches like reducing transistor sizes, increasing memory density, and improving display screens. Specific nanotechnologies discussed include nanofabrication, molecular electronics, and nanowires. The document also provides examples of emerging nanoelectronic devices like single electron transistors and nanoelectromechanical systems. Overall, the document outlines how nanotechnology at the atomic scale can revolutionize electronics.
Sylvia Mergui has extensive experience in materials science and engineering. She has published over 10 refereed publications, taught various engineering courses, and received funding for multiple research projects. Her professional activities include chairing conference sessions, serving on faculty committees, and co-organizing conferences.
1. The document discusses nanotechnology and its applications in India. It describes some examples of nanotechnology research in India, including carbon nanotube filters for water purification, a typhoid detection kit, and a potential heart pacemaker device that generates power from blood flow.
2. It outlines some government programs to support nanotechnology development, including a Nanotechnology Business Incubator and the Centre for Nano Science and Engineering. It also describes some individual research projects funded under the national Mission on Nano Science and Technology.
3. The national Mission on Nano Science and Technology aims to build capacity in nanotechnology research and develop products in areas like water purification, materials development, and drug delivery.
This document provides a summary of Dr. Van-Son Dang's education and experience. He received a PhD in Material Science from the University of Birmingham in 2011, with a thesis on nano-technology of pinning centres in high temperature superconducting YBa2Cu3O7 films. He has over 7 years of experience conducting research on functional materials as an early stage researcher at the University of Birmingham, where he optimized fabrication and characterization techniques. He is skilled in deposition, microscopy, and measurement techniques and has published over 25 papers in peer-reviewed journals.
Evolution of nanotechnology in electronics (seminar report) -codewithgauriGaurav Pandey
Nanotechnology is engineering and manufacturing at the molecular scale, thereby taking more advantage of the unique properties that exist at that scale.
A Nanometre is a unit of length in the metric system, equal to one billionth of a metre(10-9).Can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.
www.blog.codewithgauri.tech
This document is a technical seminar report submitted by Arun.R.Nair in partial fulfillment of the requirements for a Master of Technology degree in Computer Science and Technology from GITAM University in Hyderabad, India during the 2013-2014 academic year. The report covers nanotechnology and includes chapters on the history, concepts, approaches, tools, applications of nanotechnology in various fields like biotechnology, medicine, electronics, and implications of nanotechnology. It also includes acknowledgments, an abstract, table of contents, references and has been certified by seminar instructors from the university's department of computer science.
Nanotechnology involves manipulating matter at the atomic and molecular scales. It allows for precisely manipulating atoms and molecules to fabricate macroscale products. Governments have invested billions in nanotechnology research due to its diverse applications including industrial and military uses. While concepts of nanotechnology were first discussed in 1959, the field gained more attention in the early 2000s, leading to both progress and controversies. Applications of nanotechnology include stronger and lighter materials, more effective energy and medical technologies, and enhanced electronics. However, challenges remain regarding mass production, health effects, and environmental impacts.
The document discusses nanoelectronics and its contributions to electronics. It describes how nanoelectronics allows improving electronic components through approaches like reducing transistor sizes, increasing memory density, and improving display screens. Specific nanotechnologies discussed include nanofabrication, molecular electronics, and nanowires. The document also provides examples of emerging nanoelectronic devices like single electron transistors and nanoelectromechanical systems. Overall, the document outlines how nanotechnology at the atomic scale can revolutionize electronics.
This document provides a summary of Bonnie E. Weir's professional experience and qualifications. She is currently a Principal Engineer at Avago Technologies, with over 30 years of experience in semiconductor device reliability. Some of her key areas of expertise include circuit simulations for power estimation and reliability assurance, electrostatic discharge protection design, and analyzing the reliability of various semiconductor products. She has published extensively in the field and holds several patents related to reliability testing and analysis.
This document provides a summary of Amitava Moitra's personal and professional background. It includes his contact information, educational history, research areas, career achievements, publications, teaching experience, and awards. Some key details are:
- Amitava Moitra is a senior research scientist currently working at IMDEA Materiales in Spain.
- His research focuses on integrated computational materials engineering using atomistic and coarse-grain molecular modeling.
- He has over 50 publications in peer-reviewed journals, 4 book chapters, and has received awards including the Fundamental Research Award from TMS in 2011.
- He has taught various materials science and physics courses at universities in India and the US, and has advised several
Gol Ali Naziripour has over 30 years of experience in teaching and research in electronics, physics, and materials science. He has taught a variety of subjects at the university level and has extensive experience in areas such as circuit analysis, amplifiers, optics, and medical physics. His research focuses on materials properties, thin film devices, and instrumentation/measurement equipment, especially regarding ferrites, superconductors, and tunable components. He holds a Ph.D. from the University of Dundee and has worked in both academic and industrial settings.
Engineering researchers have created ultrathin, stretchable electronic material that is gas permeable, allowing
the material to "breathe." The material was designed specifically for use in biomedical or wearable technologies,
since the gas permeability allows sweat and volatile organic compounds to evaporate away from the skin,
making it more comfortable for users -- especially for long-term wear.
This document lists the publications of an individual in international referred journals, international conference proceedings, and books from 2011-2016. It includes 28 journal publications, 27 conference proceedings, and 1 book, covering topics related to tunnel field effect transistors (TFETs) and other nanoscale semiconductor devices. The publications examine device modeling, optimization, scaling, and circuit applications.
This document provides an introduction to nanotechnology, including its origins, applications, advantages, and future. It discusses how nanotechnology involves manipulating matter at the atomic scale to create new materials and products. Some key points:
- Richard Feynman first conceived of molecular manufacturing in 1959, laying the foundations for nanotechnology.
- Nanotechnology enables a wide range of applications across sectors like electronics, medicine, energy, and more. It has potential to generate trillions in economic activity.
- Advantages include medical advances like curing diseases, industrial uses like pollution cleanup, and economic benefits like new industries and jobs. Concerns include risks to jobs and environment.
- Governments are investing heavily in nanotechnology
This document lists the author's awards, scholarships, publications, patents and conference presentations. It shows that the author has received several best presentation awards between 2009-2012 from various conferences for work related to near-field scanning optical microscopy and nano-materials characterization. The author has also received scholarships from Inha University from 2008-2010. The document lists 14 peer-reviewed journal publications and 14 patents by the author. It also lists 24 international conference proceedings with presentations by the author on topics related to nano-optics and nanotechnology.
Dr. Jiunn-Ru Huang is an electrical engineer seeking a position enabling research to develop low carbon energy-efficient systems using new engineering and renewable energy. He has over 20 years of experience in renewable energy research, particularly solar, wind, and gas-fluid systems. Dr. Huang has held positions as a project manager, research director, process engineer, and adjunct professor. He has numerous publications and patents in the renewable energy field.
This document lists the speaker's awards, scholarships, publications, patents, and conference presentations. It shows that the speaker has received several best presentation awards between 2009-2012 from conferences in Korea and internationally. They have also received scholarships from Inha University from 2008-2010. The speaker has 14 pending patents and over 20 peer-reviewed journal publications. They have presented their work at numerous international conferences between 2011-2012.
The University of New Mexico School of Engineering is conducting research on microgrids and smart grid technologies as part of an international consortium led by the New Energy and Industrial Technology Development Organization of Japan. The consortium is using the planned community of Mesa del Sol as a test site to study how distributed renewable energy sources can be integrated into buildings and the electric grid. Researchers will connect buildings to a microgrid that can generate and store its own energy and operate independently of the main grid. This research will help optimize the use of intermittent renewable resources and test new approaches for managing energy demand and supply at the building and grid level.
The document discusses Alberta's strategy to become a global leader in nanotechnology. It outlines 3 key goals: 1) Collaborate with industry to commercialize nanotech solutions in energy, health, agriculture; 2) Attract and retain top talent; 3) Build infrastructure like research centers. The strategy aims to generate $20 billion in new economic activity by 2020 through nanotech-enabled products and applications.
Dr. Babak Amir Parviz is an expert in nanotechnology and self-assembly manufacturing. He has received several awards for his research developing self-assembly techniques to build nano-scale devices. Self-assembly is an alternative to conventional manufacturing where parts assemble themselves, similar to how nature builds things. Dr. Amir Parviz believes self-assembly could revolutionize manufacturing by allowing the construction of much smaller parts and complex systems. He is currently researching applications of self-assembly at the intersection of biology and engineering like tissue regeneration and disease diagnostics.
This document discusses the history and impact of nanotechnology. It begins by discussing Richard Feynman's 1959 lecture where he proposed building things at the atomic scale from the bottom up. Nanotechnology allows manipulating individual atoms and molecules to create novel materials and devices much smaller than previously possible. Examples of nanotechnology applications include more powerful computers, new medical technologies like targeted drug delivery, and more efficient energy and environmental technologies like solar cells. The document also discusses tools used in nanotechnology like electron microscopes and examples of nanomaterials like carbon nanotubes.
The Micro + Nanotechnology Lab (MNTL) at the University of Illinois conducts interdisciplinary research at the intersection of engineering and biology. MNTL provides state-of-the-art cleanrooms and a biosafety level-2 complex, enabling 300 students and faculty to conduct photonics, microelectronics, biotechnology, and nanotechnology research. This document highlights some recent research from MNTL including the development of a new technique to create synthetic tumor environments using hydrogels, a transistor-injected quantum cascade laser, and a self-rolled-up nanomembrane for neuron cell culturing.
This document is a resume for Dr. Elena A. Guliants seeking a research or program management position involving renewable and alternative energy technologies. She has over 23 years of experience in fields such as photovoltaics, energy storage, hydrogen generation, and nanoenergetics. Her educational background includes a Ph.D. in Electrical Engineering and an M.B.A. She is fluent in English and Russian.
This curriculum vitae outlines the educational and professional background of Hien Thu Pham. It includes her education history with degrees in chemistry from Hanoi National University and Chonnam National University. Her research interests involve semiconductor nanocrystals and their application in electrical and energy devices. She has published several journal articles and conference presentations in these areas under the supervision of Professor Hyun-Dam Jeong.
Sang Hoon Shin is a Ph.D. student at Purdue University studying reliability physics of transistors at the scaling limit under Professor Muhammad A. Alam. He received his B.S. from Hanyang University in South Korea and M.S. from the University of Tokyo. His research focuses on self-heating effects, high power device packaging, and two dimensional material transistor reliability. He has published over 20 papers in journals and conferences and received several awards for his work.
This document provides a summary of Se-Young Yun's background and qualifications. It outlines her education, awards, professional experience, research interests, and publications. She received her B.S. and Ph.D. in Electrical Engineering from KAIST and has held several prestigious postdoctoral research positions. Her research focuses on topics like community detection, low-rank matrix approximation, and ranking aggregation. She has over 20 peer-reviewed publications in top conferences and journals.
This document provides a summary of Bonnie E. Weir's professional experience and qualifications. She is currently a Principal Engineer at Avago Technologies, with over 30 years of experience in semiconductor device reliability. Some of her key areas of expertise include circuit simulations for power estimation and reliability assurance, electrostatic discharge protection design, and analyzing the reliability of various semiconductor products. She has published extensively in the field and holds several patents related to reliability testing and analysis.
This document provides a summary of Amitava Moitra's personal and professional background. It includes his contact information, educational history, research areas, career achievements, publications, teaching experience, and awards. Some key details are:
- Amitava Moitra is a senior research scientist currently working at IMDEA Materiales in Spain.
- His research focuses on integrated computational materials engineering using atomistic and coarse-grain molecular modeling.
- He has over 50 publications in peer-reviewed journals, 4 book chapters, and has received awards including the Fundamental Research Award from TMS in 2011.
- He has taught various materials science and physics courses at universities in India and the US, and has advised several
Gol Ali Naziripour has over 30 years of experience in teaching and research in electronics, physics, and materials science. He has taught a variety of subjects at the university level and has extensive experience in areas such as circuit analysis, amplifiers, optics, and medical physics. His research focuses on materials properties, thin film devices, and instrumentation/measurement equipment, especially regarding ferrites, superconductors, and tunable components. He holds a Ph.D. from the University of Dundee and has worked in both academic and industrial settings.
Engineering researchers have created ultrathin, stretchable electronic material that is gas permeable, allowing
the material to "breathe." The material was designed specifically for use in biomedical or wearable technologies,
since the gas permeability allows sweat and volatile organic compounds to evaporate away from the skin,
making it more comfortable for users -- especially for long-term wear.
This document lists the publications of an individual in international referred journals, international conference proceedings, and books from 2011-2016. It includes 28 journal publications, 27 conference proceedings, and 1 book, covering topics related to tunnel field effect transistors (TFETs) and other nanoscale semiconductor devices. The publications examine device modeling, optimization, scaling, and circuit applications.
This document provides an introduction to nanotechnology, including its origins, applications, advantages, and future. It discusses how nanotechnology involves manipulating matter at the atomic scale to create new materials and products. Some key points:
- Richard Feynman first conceived of molecular manufacturing in 1959, laying the foundations for nanotechnology.
- Nanotechnology enables a wide range of applications across sectors like electronics, medicine, energy, and more. It has potential to generate trillions in economic activity.
- Advantages include medical advances like curing diseases, industrial uses like pollution cleanup, and economic benefits like new industries and jobs. Concerns include risks to jobs and environment.
- Governments are investing heavily in nanotechnology
This document lists the author's awards, scholarships, publications, patents and conference presentations. It shows that the author has received several best presentation awards between 2009-2012 from various conferences for work related to near-field scanning optical microscopy and nano-materials characterization. The author has also received scholarships from Inha University from 2008-2010. The document lists 14 peer-reviewed journal publications and 14 patents by the author. It also lists 24 international conference proceedings with presentations by the author on topics related to nano-optics and nanotechnology.
Dr. Jiunn-Ru Huang is an electrical engineer seeking a position enabling research to develop low carbon energy-efficient systems using new engineering and renewable energy. He has over 20 years of experience in renewable energy research, particularly solar, wind, and gas-fluid systems. Dr. Huang has held positions as a project manager, research director, process engineer, and adjunct professor. He has numerous publications and patents in the renewable energy field.
This document lists the speaker's awards, scholarships, publications, patents, and conference presentations. It shows that the speaker has received several best presentation awards between 2009-2012 from conferences in Korea and internationally. They have also received scholarships from Inha University from 2008-2010. The speaker has 14 pending patents and over 20 peer-reviewed journal publications. They have presented their work at numerous international conferences between 2011-2012.
The University of New Mexico School of Engineering is conducting research on microgrids and smart grid technologies as part of an international consortium led by the New Energy and Industrial Technology Development Organization of Japan. The consortium is using the planned community of Mesa del Sol as a test site to study how distributed renewable energy sources can be integrated into buildings and the electric grid. Researchers will connect buildings to a microgrid that can generate and store its own energy and operate independently of the main grid. This research will help optimize the use of intermittent renewable resources and test new approaches for managing energy demand and supply at the building and grid level.
The document discusses Alberta's strategy to become a global leader in nanotechnology. It outlines 3 key goals: 1) Collaborate with industry to commercialize nanotech solutions in energy, health, agriculture; 2) Attract and retain top talent; 3) Build infrastructure like research centers. The strategy aims to generate $20 billion in new economic activity by 2020 through nanotech-enabled products and applications.
Dr. Babak Amir Parviz is an expert in nanotechnology and self-assembly manufacturing. He has received several awards for his research developing self-assembly techniques to build nano-scale devices. Self-assembly is an alternative to conventional manufacturing where parts assemble themselves, similar to how nature builds things. Dr. Amir Parviz believes self-assembly could revolutionize manufacturing by allowing the construction of much smaller parts and complex systems. He is currently researching applications of self-assembly at the intersection of biology and engineering like tissue regeneration and disease diagnostics.
This document discusses the history and impact of nanotechnology. It begins by discussing Richard Feynman's 1959 lecture where he proposed building things at the atomic scale from the bottom up. Nanotechnology allows manipulating individual atoms and molecules to create novel materials and devices much smaller than previously possible. Examples of nanotechnology applications include more powerful computers, new medical technologies like targeted drug delivery, and more efficient energy and environmental technologies like solar cells. The document also discusses tools used in nanotechnology like electron microscopes and examples of nanomaterials like carbon nanotubes.
The Micro + Nanotechnology Lab (MNTL) at the University of Illinois conducts interdisciplinary research at the intersection of engineering and biology. MNTL provides state-of-the-art cleanrooms and a biosafety level-2 complex, enabling 300 students and faculty to conduct photonics, microelectronics, biotechnology, and nanotechnology research. This document highlights some recent research from MNTL including the development of a new technique to create synthetic tumor environments using hydrogels, a transistor-injected quantum cascade laser, and a self-rolled-up nanomembrane for neuron cell culturing.
This document is a resume for Dr. Elena A. Guliants seeking a research or program management position involving renewable and alternative energy technologies. She has over 23 years of experience in fields such as photovoltaics, energy storage, hydrogen generation, and nanoenergetics. Her educational background includes a Ph.D. in Electrical Engineering and an M.B.A. She is fluent in English and Russian.
This curriculum vitae outlines the educational and professional background of Hien Thu Pham. It includes her education history with degrees in chemistry from Hanoi National University and Chonnam National University. Her research interests involve semiconductor nanocrystals and their application in electrical and energy devices. She has published several journal articles and conference presentations in these areas under the supervision of Professor Hyun-Dam Jeong.
Sang Hoon Shin is a Ph.D. student at Purdue University studying reliability physics of transistors at the scaling limit under Professor Muhammad A. Alam. He received his B.S. from Hanyang University in South Korea and M.S. from the University of Tokyo. His research focuses on self-heating effects, high power device packaging, and two dimensional material transistor reliability. He has published over 20 papers in journals and conferences and received several awards for his work.
This document provides a summary of Se-Young Yun's background and qualifications. It outlines her education, awards, professional experience, research interests, and publications. She received her B.S. and Ph.D. in Electrical Engineering from KAIST and has held several prestigious postdoctoral research positions. Her research focuses on topics like community detection, low-rank matrix approximation, and ranking aggregation. She has over 20 peer-reviewed publications in top conferences and journals.
T.D. Boone has over 15 years of experience in magnetic recording and semiconductor devices. He has published 10 papers and presentations on topics related to thermally-assisted magnetic recording, plasmonic antennas, and magnetoresistance devices. He also holds 15 patents related to read/write heads, lasers for magnetic recording, and extraordinary magnetoresistance sensors. Additionally, he has received several fellowships for his graduate work including from IBM, Yale University, and Purdue University.
Andrew Fairbanks seeks a PhD in nuclear engineering at Purdue University. He has an MS in health science from Purdue University and a BS in nuclear engineering. His experience includes interning at the Naval Research Laboratory investigating microwave plasma interactions and building pulse forming networks in Germany. Currently he is a research assistant studying the effects of nanosecond pulsed electric fields on cells and presenting his findings at conferences.
This curriculum vitae summarizes the educational and professional experience of Christopher Shearwood. He received a PhD in Solid State Physics from the University of Leeds in 1988. Since 1998, he has been an Associate Professor at Nanyang Technological University where he teaches and conducts research related to materials science and engineering. He has over 40 publications and 2 patents related to his work developing microelectromechanical systems and studying materials properties.
This document lists the author's awards, scholarships, publications, patents and conference presentations. It shows that the author has received several best presentation awards from major physics conferences for work related to near-field scanning optical microscopy and nano-materials characterization. The author has also received scholarships from Inha University and has numerous peer-reviewed journal publications and pending patents related to scanning probe microscopy techniques.
Silas Hung Tin Fong Professional Experiencessilashung
Silas Hung has over 15 years of experience in materials characterization, thin film deposition, and optoelectronic device testing. He has managed laboratories and supervised engineers. Some of his research includes developing nano-magnetic particles for solid state memory with Prof. Mow, and combining magnetics, optics, and electronics with Prof. Poon. He has over 20 publications in international journals and conferences.
This document provides a biography and curriculum vitae for Dr. Mohamed Benghanem. It includes the following key details:
- Dr. Benghanem is a professor who obtained his BE, MSc, and PhD in electrical engineering from universities in Algeria and Spain.
- He has held positions of professor, associate professor, and assistant professor at universities in Algeria and Saudi Arabia since 1987.
- His research interests include solar instrumentation, renewable energy systems, and modeling solar radiation data.
- He has published over 30 papers in refereed journals on topics related to solar energy modeling and prediction, photovoltaic systems, and renewable energies.
The document discusses nanofibers and their production via electrospinning. It defines nanofibers as fibers with diameters less than 1000 nm and notes their small size compared to human hair. The document then explains the electrospinning process, where a high voltage draws thin fibers from a liquid source. Key aspects reviewed include the Taylor cone formation, bending instability that reduces fiber diameters, and parameters that impact electrospinning. Finally, it outlines early nanofiber production at UPLB involving various polymers like PCL, PVC and PLGA.
This document discusses evaluating transmission losses for direct path modeling in shallow water environments. It provides an overview of the topic, reviews relevant literature on underwater wireless sensor networks (UWSNs) that have examined factors like absorption, scattering, and multipath effects. It outlines the methodology to be used involving modeling sound speed based on temperature, salinity, depth, and pH values. Simulation parameters for shallow and deep water depths and temperatures are presented. Expected outcomes include graphs of transmission loss versus frequency at various depths, temperatures, and salinities in shallow water. References are provided that have examined topics like UWSN architectures, routing protocols, localization, and channel modeling.
Christopher Lalau-Keraly is a PhD candidate in electrical engineering at UC Berkeley studying nanophotonics. He has developed optimization software for nanophotonic devices using simulation tools and has studied phototransistors to enhance photoreceiver sensitivity. He has designed, fabricated, and characterized photoreceivers in the Berkeley cleanroom. He has published journal articles and conference papers on topics including shape optimization and photodetector design.
Results from fabrication and study of flexible piezoelectric harvesting device with ZnO nanostructured film are reported. Enhanced piezoelectric response is achieved in term of voltage to thickness ratio due to the nanobranched structure of the ZnO. The results are related to project “Study of the piezoelectric response of layered microgenerators on flexible substrates” - DH 07/13, funded by Bulgarian National Science Fund. Any collaborations are welcome! If you are interested, please write us at m_aleksandrova@tu-sofia.bg.
This document is a resume for Hung-Zen Kuo. It outlines his education including a Ph.D in optics and photonics from National Central University in Taiwan. It details his work experience from 2010-2013 as a Project Manager at Compound Solar Technology Co., Ltd and from 2004-2010 as an Engineer at the Institute of Nuclear Energy Research. It also lists his technical skills, publications, patents, and areas of expertise which are primarily in optical system design, solar power systems, and concentration photovoltaics.
This document discusses the transfer of micro and nano-photonic silicon nanomembrane waveguide devices onto flexible substrates. It demonstrates transferring optical devices without extra un-patterned silicon onto low-cost, flexible plastic substrates using single-crystal silicon nanomembranes. Specifically, it shows stacking two layers of silicon nanomembranes, with a photonic crystal waveguide in the first layer and multi-mode interference couplers in the second layer, respectively, onto a flexible substrate. This technique promises high density integration of multilayer hybrid structures on flexible substrates.
This document provides a biography and background information for Dr. Muhammad Zulfiker Alam. It summarizes that he is currently a postdoctoral fellow at Caltech working on quantum information processing. It details his educational background, including receiving his Ph.D. from the University of Toronto in electrical engineering, as well as his research interests and publications.
No refrences cv, teaching and research statements assoc. prof. dr. demir...Demiral Akbar
Demiral Akbar's curriculum vita summarizes his educational and professional experience. He holds a Ph.D. in physics from Middle East Technical University and has held various research and teaching positions, including at Hacettepe University and the University of Wisconsin. His research focuses on plasma physics, optics, laser technology, and solar energy. He has over 15 publications in peer-reviewed journals.
1. The document lists 58 publications by Alexander Y. Usenko after 2000, including journal articles, conference papers, patents, and patent applications.
2. The publications cover a range of topics related to silicon-on-insulator technology, including layer transfer processes, defect healing, hydrogen implantation, and bonding techniques.
3. Many of the publications focus on developing and improving processes for fabricating thin silicon films on insulating substrates for applications such as MEMS and power devices.
This document lists publications and presentations by K. Min and others. It includes 24 publications in journals from 1989-2005 on topics related to materials science and semiconductor fabrication. It also lists 32 presentations given by K. Min and collaborators at domestic and international conferences from 1988-2000 on similar topics such as ion implantation, thin film growth, and surface analysis techniques. The publications and presentations cover over a decade of research focused on materials characterization and processing methods.
Similar to PitFee_Jao_2016_publication_patents (20)
1. Pit Fee Jao
pitfeejao@gmail.com | 716-909-7471 | www.linkedin.com/in/pitfeejao.
PATENT FILINGS:
1. Yong-Kyu Yoon and PitFee Jao, "Tube Nozzle Electrospinning," Filed for US Provisional Patent
Application (61/653,615), May 31, 2012
2. Yong-Kyu Yoon, Gloria J. Kim, and PitFee Jao, "Fabrication of Nanoporous Membrane," Filed for
US Patent (PCT/US2012/37323), May 2012
3. Yong-Kyu Yoon and PitFee Jao, "Tube Nozzle Electrospinning," Filed for Invention Disclosure to
UF technology office, May, 2012 (UF# 14270)
4. Yong-Kyu Yoon, Gloria Kim, and Pit Fee Jao, “Fabrication of nanoporous membrane and its non-
lithographic patterning using electrospinning and stamp-thru-mold (ESTM),” Filed for Invention
Disclosure to UF technology office, Jan. 21, 2011 (UF# 13676)
PEER –REVIEW ARTICLES
1. Sheng-Po Fang, PitFee Jao, Junghae Yoon, Kun Cho, Kyoung-Tae Kim, and Yong-Kyu Yoon,
“Fabrication of Self-Packaged Seamless Nanoporous SU-8 Microchannels”, Journal of
Microelectromechanical Systems, Vol. 24, Iss. 2, 16 Feb, 2016
2. Sheng-Po Fang, PitFee Jao, Eric Franca, Thomas B. DeMarse, Bruce C. Wheeler, and Yong-Kyu
Yoon, “A carbon nanofiber (CNF) based 3-D microelectrode array for in-vitro neural proliferation
and signal recording”, IEEE 29th International Conference on Micro Electro Mechanical Systems
(MEMS), 24-28 Jan. 2016, Shanghai, CN.
3. Eric W. Franca, PitFee Jao, Sheng-Po Fang, Bruce C. Wheeler, and Yong-Kyu Yoon,Scale of
“Carbon Nanomaterials Affects Neural Outgrowth and Adhesion”, IEEE Trans Nanobioscience, 11-
8, Jan 25, 2016
4. PitFee Jao, Eric W. Franca, Sheng-Po Fang, Bruce C. Wheeler, and Yong-Kyu Yoon, “Immersion
Lithographic Patterning of Electrospun Nanofibers for Carbon Nanofibrous Microelectrode Arrays”,
Journal of Microelectromechanical Systems, Vol. 24, Iss. 3, 11 Sep, 2014.
5. Sheng-Po Fang, PitFee Jao, Eric Franca, Bruce C. Wheeler, and Yong-Kyu Yoon, “High-Aspect-
Ratio Carbon Nanofibrous Microelectrode Arrays”, 2014 Annual Joint Symposium of the Florida
Chapter of the American Vacuum Society, Mar 3-4, 2014.
6. PitFee Jao, Sheng-Po Fang, Junghae Yoon, Kun Cho, E. David, Gloria Kim, Bruce C. Wheeler,
and Yong-Kyu Yoon, “Fabrication of carbon nanofibrous microelectrode array (CNF-MEA) using
nanofiber immersion photolithography”, IEEE 27th International Conference on Micro Electro
Mechanical Systems (MEMS), 26-30 Jan. 2014, San Francisco, CA.
7. Sheng-Po Fang, Hulan Shang, PitFee Jao, Kyoung-Tae Kim, Gloria J. Kim, Junghae Yoon, Kun
Cho, Adam Katz, and Yong-Kyu Yoon, “Mechano-active tissue scaffold system based on a
magnetic nanoparticle embedded nanofibrous membrane”, IEEE 27th International Conference on
Micro Electro Mechanical Systems (MEMS), 26-30 Jan. 2014, San Francisco, CA.
8. Eric Franca, Valentina Rapazzetti, Pitfee Jao, Yong-Kyu 'YK' Yoon, Bruce Wheeler, Preferential
Neural Growth and Surface Treatment-Based Toxicity on Carbonized Nanofibers, “6th International
IEEE EMBS Conference on Neural Engineering, Nov. 6-8, 2013, San Diego, CA.
9. Pit Fee Jao, Kyoung Tae Kim, Gloria Jung-A Kim and Yong-Kyu Yoon, Fabrication of an all SU-8
electrospun nanofiber based supercapacitor, “Journal of Micromechanics and Microengineering,
Vol. 23, No. 11, pages 8, 25 Oct 2013.
10. Pit-Fee Jao, Eric Franca, Gloria Kim, Bruce Wheeler, and Yong-Kyu Yoon, “Photopatterned SU-8
derived carbon nanofibers for neural engineering applications”, 2013 Biomedical engineering
society annual meeting (BMES 2013), Sep. 25-28, 2013, Seattle, WA (Oral presentation, top 30%).
11. Pit-Fee Jao, Sheng-Po Fang, Watraat Hasanat, and Yong-Kyu Yoon, “Layer by layer assembly of
uniaxially aligned biodegradable nanofibers for submillimeter thick scaffold towards guided tissue
engineering”, 2013 Biomedical engineering society annual meeting (BMES 2013), Sep. 25-28,
2013, Seattle, WA.
12. PitFee Jao, Xiaoyu Cheng, Gloria J. Kim, and Yong-Kyu Yoon, "Fabrication of a Supercapacitor
Using an Electrospun Nanofiber Based Separator and Carbon Nanofiber Electrodes," Proceedings
of 12th International Workshop on Micro and Nanotechnology for Power Generation and Energy
Conversion Applications (PowerMEMS 2012), Dec. 2-5, 2012, Atlanta, GA (Oral presentation, top
30%)
13. Pit Fee Jao, Sheng Po Fang, David Elles Senior, Kyong Tae Kim and Yong-Kyu Yoon, “
Nanomanufacturing of large area Carbon nanofibers using tube nozzle electrospinning (TNE),
2. Pit Fee Jao
pitfeejao@gmail.com | 716-909-7471 | www.linkedin.com/in/pitfeejao.
lithography and carbonization processes, “Proceedings of Electronic Components and Technology
Conference 2012, San Diego, CA, May 29 – June 1, 2012, pp. 2075-2081
14. Xiaoyu Cheng, Jun Shi, Pitfee Jao, David Senior, and Yong-Kyu Yoon, “Reconfigurable Split Ring
Resonator Array Loaded Waveguide for in-situ Tuning,” IEEE Antenna and Propagation
Symposium, July 3-8, 2011, Spokane, Washington, pp. 2947-2950
15. David Elles Senior, Xiaoyu Cheng, Pit Fee Jao, Cheolbok Kim , Jung Kwun Kim, and Yong-Kyu
Yoon, "Wireless passive sensing application using a cavity loaded evanescent wave half mode
substrate integrated waveguide resonator, "16th IEEE Transducers Conference 2011, Beijing,
CHINA.
16. Jung Kwun Kim, Pit Fee Jao, Cheolbok Kim, and Yong Kyu Yoon, "Dispense and self planarization
process on a modified surface for multiple height 3-d microfabrication, "16th IEEE Transducers
Conference 2011, Beijing, CHINA.
17. Pit Fee Jao, Melroy. Machado, Xiaoyu Cheng, David Elles Senior, Gloria J. Kim, Dalian Ding, Wei
Sun and Yong-Kyu Yoon, “Fabrication of Nanoporous membrane and its non-lithographic
patterning using Electrospinning and Stamp-thru-Mold (ESTM), ” International Conference of IEEE
Micro Electro Mechanical Systems, Jan. 23-27, 2011, Cancun, Mexico, pp. 257-260 (acceptance
rate: 35%)
18. Pit Fee Jao, Wei Sun, Yong-Kyu Yoon, and Gloria J. Kim, "Spatially controlled electrospun solid
gradient nanofibers for guided spiral ganglion neuron culture," 2010 EMBS BMES Annual Meeting,
Austin, TX, USA.
19. Xiaoyu Cheng, Pit Fee Jao, David Elles Senior and Yong-Kyu Yoon, "Corrugated Substrate
Integrated Waveguide with Dual Band non-Bragg Resonance,” IEEE (MTT-S) IMS Symposium
2011, Baltimore, Maryland, USA.
20. David Elles Senior, Xiaoyu Cheng, Pit Fee Jao, Cheolbok Kim, and Yong-Kyu Yoon, "Compact 3D
Integrable SU8 Embedded Microwave Bandpass Filters using Complementary Split Ring
Resonator Loaded Half Mode Substrate Integrated Waveguide, "61st ECTC conference 2011, Lake
Buena Vista, Florida, USA.
21. Jung Kwun Kim, Pit Fee Jao, Cheolbok Kim, and Yong-Kyu Yoon, "Reconfigurable Split Ring
Resonator Array Loaded Waveguide for in-situ Tuning, "2011 IEEE AP-S/URSI Symposium,
Spokane, Washington, USA.
22. Xiaoyu Cheng, David Elles Senior, Pit Fee Jao, James J. Whalen and Yong-Kyu Yoon, "Non-Bragg
Resonance in Substrate Integrated Waveguide," 2010 IEEE APS/URSI International Symposium,
Toronto, ON, CANADA.
23. Yuanbo Guo, Pit Fee Jao, G. Wang, Y. Du, S. Bhattacharya, and Douglas Charles Hopkins, Ph.D.,
“Investigation of SiC Power Module Requirements for Smart Grid Applications,” 42nd International
Symposium on Microelectronics (IMAPS) 2009, San Diego, CA, USA.
24. Yuanbo Guo, Pit Fee Jao, and Douglas Charles Hopkins, Ph.D., “Assessment of Critical Issues
for High Temperature, High Voltage Power Modules,” 2009 FREEDM Annual Conference, Raleigh,
NC.
NON- PEER –REVIEWED
1. Sheng-Po Fang, Pit Fee Jao, and Yong-Kyu Yoon, “Large Area Deposition of Nanofibers using
Multiple Tube Nozzle Electrospinning and Spatial Thickness Variation Analysis, “2013 Nano
Florida, Gainesville, FL.
2. Pit Fee Jao, Shengpo Fang, Xiaoyu Cheng, Kyoung-Tae Kim, Gloria J. Kim, and Yong-Kyu Yoon,
“An All-electrospun Nanofiber based Supercapacitor, ”2013 Southeastern Conference(SEC)
Symposium, Atlanta, GA, USA.
3. Pit Fee Jao, Gloria J. Kim, Wei Sun and Yong-Kyu Yoon, “Three Dimensional Nanofiber Tissue
Scaffold using Directional Electrospinning and Stamp Thru Molding, “2011 NSF Research Day,
Gainesville, FL, USA.
4. Jung Kwun Kim, Pit Fee Jao, Sung Yong Cha, and Yong-Kyu Yoon, “Micro/Nano fabrication and
Multidisciplinary Research,” 2007 1st INS Workshop, Buffalo, NY, USA.
5. Pit Fee Jao and Shruthi Bhandaru “Advancements in Supercomputers”, Electrica ’04, National
Level Student Symposium, Visakhapatnam, INDIA.