The document lists 21 conference presentations and 16 publications by David Callejo Munoz related to periodic poled lithium niobate crystals and their applications. The publications and presentations cover topics such as the cooling effect and compositional nature of periodically poled lithium niobate crystals, lithium niobate thin films, and the use of periodically poled lithium niobate in lasers and optical parametric oscillators.
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.
Nanotechnology: Shaping the world atom by atomIJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
International Journal of Modern Engineering Research (IJMER) covers all the fields of engineering and science: Electrical Engineering, Mechanical Engineering, Civil Engineering, Chemical Engineering, Computer Engineering, Agricultural Engineering, Aerospace Engineering, Thermodynamics, Structural Engineering, Control Engineering, Robotics, Mechatronics, Fluid Mechanics, Nanotechnology, Simulators, Web-based Learning, Remote Laboratories, Engineering Design Methods, Education Research, Students' Satisfaction and Motivation, Global Projects, and Assessment…. And many more.
This document lists publications by G. Radicchi and others on research involving thin films, Langmuir-Blodgett films, and polarized light scattering. It includes 7 papers published between 1995-1996 on topics like bacterial cells, rhodopsin films, immunoglobulins, and more. It also lists 7 conference presentations between 1994-1995 on similar topics. Finally, it mentions a 1995 patent on an optical module for measuring polarized light for microorganism diagnosis.
Nanotechnology involves manipulating and controlling materials at the nanoscale, which is approximately 1 to 100 nanometers. It has applications in many areas such as electronics, energy, medicine, and water filtration. Some key benefits of nanotechnology include developing stronger and lighter materials, more effective cancer treatments, and improved solar cells and membranes for water filtration that remove particles down to a few nanometers in size. The future of nanotechnology involves further development of self-assembly techniques to build complex structures at the nanoscale.
Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHMRosdi Ramli
This document discusses several applications of nanotechnology in medicine, diagnostics, drug delivery, tissue engineering, chemistry, filtration, energy, and energy consumption reduction. It describes how nanotechnology is being used to develop contrast agents for cell imaging, cancer therapeutics, lab-on-a-chip diagnostic tests, targeted drug delivery using dendrimers and nanoporous materials, tissue scaffolds and growth factors in tissue engineering, catalytic converters using nanoparticles, filtration membranes, energy storage, conversion and efficiency improvements. The overall message is that nanotechnology has great potential for progress across many industries and applications.
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.
The document discusses potential risks from nanoparticles and the need for precaution regarding nanotechnology. It notes that while nanotechnology shows promise, nanoparticles are very small and their health and environmental effects are not fully understood. There are knowledge gaps around nanoparticle toxicity, detection, and how to regulate such minute substances under current laws. The document calls for developing nanotechnology responsibly, understanding implications, and preparing solutions, given that the field is advancing rapidly but approaches to issues are just beginning. It stresses the importance of implementing measures globally to address challenges like pollution, lack of privacy, and potential misuse of nano-enabled weapons.
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.
Nanotechnology: Shaping the world atom by atomIJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
International Journal of Modern Engineering Research (IJMER) covers all the fields of engineering and science: Electrical Engineering, Mechanical Engineering, Civil Engineering, Chemical Engineering, Computer Engineering, Agricultural Engineering, Aerospace Engineering, Thermodynamics, Structural Engineering, Control Engineering, Robotics, Mechatronics, Fluid Mechanics, Nanotechnology, Simulators, Web-based Learning, Remote Laboratories, Engineering Design Methods, Education Research, Students' Satisfaction and Motivation, Global Projects, and Assessment…. And many more.
This document lists publications by G. Radicchi and others on research involving thin films, Langmuir-Blodgett films, and polarized light scattering. It includes 7 papers published between 1995-1996 on topics like bacterial cells, rhodopsin films, immunoglobulins, and more. It also lists 7 conference presentations between 1994-1995 on similar topics. Finally, it mentions a 1995 patent on an optical module for measuring polarized light for microorganism diagnosis.
Nanotechnology involves manipulating and controlling materials at the nanoscale, which is approximately 1 to 100 nanometers. It has applications in many areas such as electronics, energy, medicine, and water filtration. Some key benefits of nanotechnology include developing stronger and lighter materials, more effective cancer treatments, and improved solar cells and membranes for water filtration that remove particles down to a few nanometers in size. The future of nanotechnology involves further development of self-assembly techniques to build complex structures at the nanoscale.
Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHMRosdi Ramli
This document discusses several applications of nanotechnology in medicine, diagnostics, drug delivery, tissue engineering, chemistry, filtration, energy, and energy consumption reduction. It describes how nanotechnology is being used to develop contrast agents for cell imaging, cancer therapeutics, lab-on-a-chip diagnostic tests, targeted drug delivery using dendrimers and nanoporous materials, tissue scaffolds and growth factors in tissue engineering, catalytic converters using nanoparticles, filtration membranes, energy storage, conversion and efficiency improvements. The overall message is that nanotechnology has great potential for progress across many industries and applications.
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.
The document discusses potential risks from nanoparticles and the need for precaution regarding nanotechnology. It notes that while nanotechnology shows promise, nanoparticles are very small and their health and environmental effects are not fully understood. There are knowledge gaps around nanoparticle toxicity, detection, and how to regulate such minute substances under current laws. The document calls for developing nanotechnology responsibly, understanding implications, and preparing solutions, given that the field is advancing rapidly but approaches to issues are just beginning. It stresses the importance of implementing measures globally to address challenges like pollution, lack of privacy, and potential misuse of nano-enabled weapons.
This curriculum vitae summarizes Pierfrancesco Zilio's professional experience and education. He has worked as a post-doctoral fellow and junior researcher conducting theoretical and numerical modeling of nanostructures. His research has focused on topics like plasmonics, nano-optics, and their applications. He holds a PhD in physics from Padova University, where he researched surface plasmon polariton propagation for nano-optics applications.
Scientific Publications of Cristian Randieri, PhD - Last Update November/Dece...Cristian Randieri PhD
I am not only used to wearing many hats, I sincerely enjoy it. I thrive in an environment where no two-work days are the same. In addition to being flexible and responsive, I am also a fanatic for details particularly when it comes to Research & Development activities.
My Academic background is full of Academic research activities all confirmed with most than 50 scientific publications all published on the best known scientific magazines as for example Elsevier's one.
Please look on my ResearchGate page:
http://www.researchgate.net/profile/Cristian_Randierior
and on my Academia.edu page:
https://unict.academia.edu/CristianRandieri
In addiction over more than 15 years, I published more than 100 technical engineer paper over the most known professional Italian Magazines. Please look on my LinkedIn professional profile and into my posts, you will find a lot of them.
I give you as reference all my LinkedIn recommendation that are a focused snapshot of my personality.
Last but certainly not least, I want you to know that I am a sport passionate since I was a kid.For me SPORT is a philosophy of life. It allowed me to forge my character by teaching rules such as sense of duty, competition, respect, sacrifice. I practiced kayak at a competitive level from the year 1985 to 1999 with both regional and national results. In the 1995, I was the winner of the Italian title of National Champion University. From 2009 to present I practical amateur cycling obtaining significant results at regional and national level. In the years from 2011 to 2013, I received the title of National Champion of Petroleum in various disciplines including Mountain Bike, Chrono Team and Relay Baton Running-cycle. Living in a seaside town since 2002, I delight scuba diver earning several patents until you reach the qualification of Help-Instructor.
Bill Davis has received awards including the Federal Laboratory Consortium award for Excellence in Technology in 2009. He holds a US Patent for MINDS awarded in 2010. Davis has authored numerous publications as first author on topics related to plasma physics experiments and data analysis techniques. He has also been listed as a contributing author on several publications related to experiments at PPPL and other fusion facilities.
This document summarizes a method for producing silver nanowires through a soft, self-seeding polyol process. Combined characterization techniques show that nanosized TiO2 particles have been incorporated into the channels of mesoporous silica films (MSTFs) while retaining the hexagonal mesostructure. XPS analysis further confirms the presence of both an anatase-like TiO2 phase and isolated [TiO4] units in the framework or on pore surfaces of the TiO2/MSTFs composites.
Chris Dube_Publications_Conference Proceedings_PatentsChris Dub
This document lists 43 publications and conference presentations by Christopher E. Dubé. The publications span from 1990 to 2015 and cover topics related to solar cell fabrication and characterization using techniques like ion implantation, aluminum oxide passivation, selective emitters, and contact resistance modeling. Many of the publications involve collaboration with researchers from institutions including MIT, Fraunhofer ISE, and University of Konstanz.
The document discusses carbon nanotubes, including their discovery in 1991 by Sumio Iijima, their unique tubular structure made of rolled graphene sheets, and their extraordinary mechanical and electrical properties which make them useful for many applications. Carbon nanotubes exist as either single-walled or multi-walled structures and have a variety of properties depending on their exact structure, including being metallic or semiconducting conductors. Their small size but high strength and flexibility make them promising for applications in electronics, optics, and other nanotechnology fields.
This document is a resume for Kate J. Norris, Ph.D. It summarizes her contact information, objective, education, professional experience, skills, and publications. Norris has a Ph.D. in Electrical Engineering from UC Santa Cruz with a focus on materials growth and characterization of thermoelectric and resistive switching devices. She has over 5 years of experience in semiconductor research at HPE Labs, including transmission electron microscopy analysis of novel material systems. Norris has authored several journal publications and patents in the areas of thermoelectric devices and resistive memory.
This document contains a list of 19 selected publications by Stephan T. Melnychuk. The publications span from 1986 to 2016 and are related to particle accelerators, ion sources, hydrogen beam characteristics, and surface interactions of hydrogen atoms. Melnychuk's research focused on developing particle accelerators and ion sources for applications such as contraband detection systems and lithography light sources.
GULSEN CELİKER PUBLICATIONS and CONFERENCESGulsen Celiker
This document lists 30 publications and conference presentations by Gulsen Celiker spanning from 1984 to 2017. The publications cover a wide range of topics including nanotechnology, nanocoatings, photocatalytic materials, drying of porous solids, and environmental applications of nanomaterials. Many of the publications are invited talks or presentations given at international conferences on topics related to Gulsen Celiker's research into nanomaterials and their applications.
Dr. Daniel Campbell is a principal research scientist with over 30 years of experience in organic chemistry, materials science, and sensor design. He received his PhD in organic chemistry from Georgia Tech in 1982. Currently, he is the chief science officer at Lumense, Inc, where he leads research in developing integrated optic sensors for chemical and biological detection. Previously, he held positions at Georgia Tech where he conducted research in areas such as organic synthesis, polymers, and sensor fabrication. He holds several patents related to chemical sensor design and has authored over 50 publications and conference presentations in the field of chemical sensors.
The document summarizes a study on synthesizing and characterizing ZnO nano fibers for hydrogen detection. The objectives were to create PEO micro-to-nano fibers by electrospinning, deposit Zn and ZnO by sputtering on the fibers, create nanoshells via heat treatment, and test the samples as hydrogen gas sensors. Preliminary results showed successful formation of fibers and nanoshells, with a minimum sensitivity of 9.2% for the samples. The goal was to develop a ZnO nanostructure with a large surface area to serve as a sensitive hydrogen gas sensor.
This document discusses nanopillars, which are pillar-shaped nanostructures approximately 10 nanometers in diameter. It describes various properties and fabrication methods of nanopillars, including their increased surface area, mechanical stability, optical characteristics, and biocompatibility. Case studies are presented on the synthesis of nanopillars using top-down lithography approaches as well as bottom-up growth techniques. Applications of nanopillars in areas such as antibacterial coatings, optics, energy, and biosensing are explored through additional case studies. The document concludes by stating that nanopillars provide many advantages for applications in biomedical, energy, and agricultural fields due to their vertically aligned nature and ability to be easily fabricated.
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.
This curriculum vitae summarizes Michele Monteferrante's education and work experience. He received a Laurea in Physics from Sapienza University of Rome in 2003, with a thesis on ultraviolet Gross-Neveu polymer expansion models. In 2006 he earned a Ph.D. in Physics from Roma Tre University with a thesis on density functional theory modeling of chromium on graphene. His past positions include postdoctoral fellowships at Sapienza University from 2007-2012 and at the Institute of Molecular Recognition Chemistry from 2013-2015.
This document lists the seminars, talks, conferences, and publications of the author. It describes 11 seminars and talks given by the author from 2011-2014 on topics related to photochemistry and biomedical applications. It also lists 17 conferences attended by the author from 2008-2013 where the author presented several posters and one oral presentation. Finally, it provides 19 publications by the author from 2008-2014 related to photochemistry, corrosion inhibition, and biomedical applications.
video 1-3 (http://www.youtube.com/watch?v=sITy14zCvI8).....Scale of Nanotechnology
video 2-3 (http://www.facebook.com/video/video.php?v=2196584121947&oid=198340380213942).......Journey Into Nanotechnology
video 3-3 (http://www.facebook.com/video/video.php?v=2196594562208&oid=198340380213942).....Molecular Imaging Therapy
Matthew D. Green has published extensively in the areas of suspension characterization, rheology, and drilling engineering. He received his PhD from the University of Melbourne, with a dissertation titled "Characterisation of Suspensions in Settling and Compression." Some of his notable publications include papers on wellbore breathing, cuttings transport in extended reach drilling, and pressure filtration techniques for characterizing consolidating suspensions. He also holds a patent on real time wellbore pit volume monitoring.
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 29 publications authored or co-authored by S. Azad related to surface chemistry and materials science research. The publications span the years 2000-2014 and cover topics including the reaction pathways of hydrocarbons on metal surfaces, the adsorption and reaction of gases on metal oxide surfaces, nanoscale effects on ion conductivity in oxide thin films, and the oxidation properties of lubricating greases and graphite.
This curriculum vitae summarizes Pierfrancesco Zilio's professional experience and education. He has worked as a post-doctoral fellow and junior researcher conducting theoretical and numerical modeling of nanostructures. His research has focused on topics like plasmonics, nano-optics, and their applications. He holds a PhD in physics from Padova University, where he researched surface plasmon polariton propagation for nano-optics applications.
Scientific Publications of Cristian Randieri, PhD - Last Update November/Dece...Cristian Randieri PhD
I am not only used to wearing many hats, I sincerely enjoy it. I thrive in an environment where no two-work days are the same. In addition to being flexible and responsive, I am also a fanatic for details particularly when it comes to Research & Development activities.
My Academic background is full of Academic research activities all confirmed with most than 50 scientific publications all published on the best known scientific magazines as for example Elsevier's one.
Please look on my ResearchGate page:
http://www.researchgate.net/profile/Cristian_Randierior
and on my Academia.edu page:
https://unict.academia.edu/CristianRandieri
In addiction over more than 15 years, I published more than 100 technical engineer paper over the most known professional Italian Magazines. Please look on my LinkedIn professional profile and into my posts, you will find a lot of them.
I give you as reference all my LinkedIn recommendation that are a focused snapshot of my personality.
Last but certainly not least, I want you to know that I am a sport passionate since I was a kid.For me SPORT is a philosophy of life. It allowed me to forge my character by teaching rules such as sense of duty, competition, respect, sacrifice. I practiced kayak at a competitive level from the year 1985 to 1999 with both regional and national results. In the 1995, I was the winner of the Italian title of National Champion University. From 2009 to present I practical amateur cycling obtaining significant results at regional and national level. In the years from 2011 to 2013, I received the title of National Champion of Petroleum in various disciplines including Mountain Bike, Chrono Team and Relay Baton Running-cycle. Living in a seaside town since 2002, I delight scuba diver earning several patents until you reach the qualification of Help-Instructor.
Bill Davis has received awards including the Federal Laboratory Consortium award for Excellence in Technology in 2009. He holds a US Patent for MINDS awarded in 2010. Davis has authored numerous publications as first author on topics related to plasma physics experiments and data analysis techniques. He has also been listed as a contributing author on several publications related to experiments at PPPL and other fusion facilities.
This document summarizes a method for producing silver nanowires through a soft, self-seeding polyol process. Combined characterization techniques show that nanosized TiO2 particles have been incorporated into the channels of mesoporous silica films (MSTFs) while retaining the hexagonal mesostructure. XPS analysis further confirms the presence of both an anatase-like TiO2 phase and isolated [TiO4] units in the framework or on pore surfaces of the TiO2/MSTFs composites.
Chris Dube_Publications_Conference Proceedings_PatentsChris Dub
This document lists 43 publications and conference presentations by Christopher E. Dubé. The publications span from 1990 to 2015 and cover topics related to solar cell fabrication and characterization using techniques like ion implantation, aluminum oxide passivation, selective emitters, and contact resistance modeling. Many of the publications involve collaboration with researchers from institutions including MIT, Fraunhofer ISE, and University of Konstanz.
The document discusses carbon nanotubes, including their discovery in 1991 by Sumio Iijima, their unique tubular structure made of rolled graphene sheets, and their extraordinary mechanical and electrical properties which make them useful for many applications. Carbon nanotubes exist as either single-walled or multi-walled structures and have a variety of properties depending on their exact structure, including being metallic or semiconducting conductors. Their small size but high strength and flexibility make them promising for applications in electronics, optics, and other nanotechnology fields.
This document is a resume for Kate J. Norris, Ph.D. It summarizes her contact information, objective, education, professional experience, skills, and publications. Norris has a Ph.D. in Electrical Engineering from UC Santa Cruz with a focus on materials growth and characterization of thermoelectric and resistive switching devices. She has over 5 years of experience in semiconductor research at HPE Labs, including transmission electron microscopy analysis of novel material systems. Norris has authored several journal publications and patents in the areas of thermoelectric devices and resistive memory.
This document contains a list of 19 selected publications by Stephan T. Melnychuk. The publications span from 1986 to 2016 and are related to particle accelerators, ion sources, hydrogen beam characteristics, and surface interactions of hydrogen atoms. Melnychuk's research focused on developing particle accelerators and ion sources for applications such as contraband detection systems and lithography light sources.
GULSEN CELİKER PUBLICATIONS and CONFERENCESGulsen Celiker
This document lists 30 publications and conference presentations by Gulsen Celiker spanning from 1984 to 2017. The publications cover a wide range of topics including nanotechnology, nanocoatings, photocatalytic materials, drying of porous solids, and environmental applications of nanomaterials. Many of the publications are invited talks or presentations given at international conferences on topics related to Gulsen Celiker's research into nanomaterials and their applications.
Dr. Daniel Campbell is a principal research scientist with over 30 years of experience in organic chemistry, materials science, and sensor design. He received his PhD in organic chemistry from Georgia Tech in 1982. Currently, he is the chief science officer at Lumense, Inc, where he leads research in developing integrated optic sensors for chemical and biological detection. Previously, he held positions at Georgia Tech where he conducted research in areas such as organic synthesis, polymers, and sensor fabrication. He holds several patents related to chemical sensor design and has authored over 50 publications and conference presentations in the field of chemical sensors.
The document summarizes a study on synthesizing and characterizing ZnO nano fibers for hydrogen detection. The objectives were to create PEO micro-to-nano fibers by electrospinning, deposit Zn and ZnO by sputtering on the fibers, create nanoshells via heat treatment, and test the samples as hydrogen gas sensors. Preliminary results showed successful formation of fibers and nanoshells, with a minimum sensitivity of 9.2% for the samples. The goal was to develop a ZnO nanostructure with a large surface area to serve as a sensitive hydrogen gas sensor.
This document discusses nanopillars, which are pillar-shaped nanostructures approximately 10 nanometers in diameter. It describes various properties and fabrication methods of nanopillars, including their increased surface area, mechanical stability, optical characteristics, and biocompatibility. Case studies are presented on the synthesis of nanopillars using top-down lithography approaches as well as bottom-up growth techniques. Applications of nanopillars in areas such as antibacterial coatings, optics, energy, and biosensing are explored through additional case studies. The document concludes by stating that nanopillars provide many advantages for applications in biomedical, energy, and agricultural fields due to their vertically aligned nature and ability to be easily fabricated.
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.
This curriculum vitae summarizes Michele Monteferrante's education and work experience. He received a Laurea in Physics from Sapienza University of Rome in 2003, with a thesis on ultraviolet Gross-Neveu polymer expansion models. In 2006 he earned a Ph.D. in Physics from Roma Tre University with a thesis on density functional theory modeling of chromium on graphene. His past positions include postdoctoral fellowships at Sapienza University from 2007-2012 and at the Institute of Molecular Recognition Chemistry from 2013-2015.
This document lists the seminars, talks, conferences, and publications of the author. It describes 11 seminars and talks given by the author from 2011-2014 on topics related to photochemistry and biomedical applications. It also lists 17 conferences attended by the author from 2008-2013 where the author presented several posters and one oral presentation. Finally, it provides 19 publications by the author from 2008-2014 related to photochemistry, corrosion inhibition, and biomedical applications.
video 1-3 (http://www.youtube.com/watch?v=sITy14zCvI8).....Scale of Nanotechnology
video 2-3 (http://www.facebook.com/video/video.php?v=2196584121947&oid=198340380213942).......Journey Into Nanotechnology
video 3-3 (http://www.facebook.com/video/video.php?v=2196594562208&oid=198340380213942).....Molecular Imaging Therapy
Matthew D. Green has published extensively in the areas of suspension characterization, rheology, and drilling engineering. He received his PhD from the University of Melbourne, with a dissertation titled "Characterisation of Suspensions in Settling and Compression." Some of his notable publications include papers on wellbore breathing, cuttings transport in extended reach drilling, and pressure filtration techniques for characterizing consolidating suspensions. He also holds a patent on real time wellbore pit volume monitoring.
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 29 publications authored or co-authored by S. Azad related to surface chemistry and materials science research. The publications span the years 2000-2014 and cover topics including the reaction pathways of hydrocarbons on metal surfaces, the adsorption and reaction of gases on metal oxide surfaces, nanoscale effects on ion conductivity in oxide thin films, and the oxidation properties of lubricating greases and graphite.
1. David Callejo Munoz Milano, 09/02/2015
1 of 4
PUBLICATIONS
P1. “On the cooling effect in the formation of PPLN grown by Czochralski technique”
V. Bermudez, D. Callejo, E. Dieguez, J. Crystal Growth, 207 (1999) 303-307.
P2. “On the effect of Li diffusion in Er-doped bulk periodic poled lithium niobate
crystals”, V. Bermudez, D. Callejo, F. Caccavale, E. Diéguez. J. Crystal. Growth,
205 (1999), 328-332.
P3. “On the compositional nature of bulk doped periodic poled lithium niobate
crystals”, V. Bermudez, D. Callejo, F. Caccavale, F. Segato, F. Agulló-Rueda, E.
Dieguez. Solid State Comm., 114 (2000) 555-559.
P4. “Compositional study of LiNbO3 thin films grown by LPE”, D. Callejo, M.D.
Serrano, V. Bermudez, S. Manotas, F. Agullo-Rueda, E. Dieguez. J. Crystal
Growth, 226, 4 (2001) 488-492.
P5. “Continuous-wave simultaneous multi-self-frequency conversion in Nd3+
-doped
aperiodically-poled lithium niobate” J. Capmany, D. Callejo, V. Bermúdez, J.
García Solé, E. Diéguez. Appl. Phys. Lett, 76 10, (2000) 1225-1227.
P6. “Self-frequency doubling in Yb3+
doped periodically-poled LiNbO3:MgO bulk
crystal” J. Capmany, E. Montoya, V. Bermúdez, D. Callejo, E. Diéguez and L.E.
Bausá. Appl. Phys. Lett,76, 11, (2000), 1374-1376.
P7. “Spectroscopy of near-stoichiometric LiNbO3:MgO:Cr crystals under high
pressure”, A. Kaminska, A. Suchocki, L. Arizmendi, D. Callejo, F. Jaque and M.
Grinberg. Phys. Rev. B., 62, 16 (2000), 10802-10811.
P8. “Influence of Hf ions in the formation of periodically poled lithium niobate
structures”, D. Callejo, V. Bermúdez, and E. Diéguez. J. of Phys. Cond. Matt., 13,
(2001) 1337-1342.
P9. “Continous-wave self-pumped optical parametric oscillator based on Yb3+
-doped
bulk periodically-poled LiNbO3 (MgO)” J. Capmany, D. Callejo, V. Bermúdez, E.
Diéguez, D. Artigas, L. Torner. Appl. Phys. Lett. 79, (2001) , 293-295.
P10. “Microchip OPOs operate in the infrared” J. Capmany, V. Bermudez, D.
Callejo, E. Dieguez. Laser Focus. June 2001.
P11. “Laser frequency converter for continuous-wave tunable Ti:Sapphire lasers
based on aperiodically poled LiNbO3:Nd3+
” J. Capmany, J.A. Pereda, V. Bermúdez,
D. Callejo, E. Diéguez. Appl. Phys. Lett. 79, (2001), 1751-1753.
P12. “Engineering of Lithium Niobate domain structure through the off-centered
Czochralski growth technique” V. Bermúdez, D. Callejo, J. Capmany, E. Diéguez.
J. Crys. Growth. 237-239, (2002) 677-681.
P13. "Lithium niobate films grown on periodic poled lithium niobate substrates
prepared by liquid phase epitaxy". D. Callejo, V. Bermúdez, M.D. Serrano and E.
Diéguez. J. Crystal Growth. 237-239, (2002) 596-601.
P14. "Effect of temperature annealing on periodically poled rare-earth doped lithium
niobate crystal" V. Bermudez, D. Callejo, E. Dieguez, J. Optoelectron. Adv. Mat.
5 (1) (2003) 55-59 .
P15. "Domain wall width of lithium niobate poled during growth" R. Brooks, P.D.
Townsend, D.E. Hole, D. Callejo, V. Bermudez, E. Dieguez, J. Physics D-App.
Physics 36, (2003) 969-974.
P16. "On the origin of internal field in Lithium Niobate crystals directly observed by
digital holography". M. Paturzo, P. Ferraro, S. Grilli, D. Alfieri, P. De Natale, M. de
Angelis, A. Finizio, S. De Nicola, G. Pierattini, F. Caccavale, D. Callejo, and A.
Morbiato, Opt. Express 13, (2005) 5416-5423.
2. David Callejo Munoz Milano, 09/02/2015
2 of 4
PROCEEDINGS
C1.“Incorporation of vanadium in LPE films of LiNbO3”. D. Callejo, M.D. Serrano, V.
Bermudez, S. Manotas, F. Agullo-Rueda, E. Dieguez. SPIE meeting, July 1999,
Denver.
C2.“On the nature of PPLN formation”, V. Bermudez, D. Callejo, E. Dieguez. SPIE
meetin, July 1999, Denver.
C3. “Estudio composicional de estructuras periódicas en LiNbO3 dopado con Er por
medio de la técnica WDX”, D. Callejo, V. Bermudez, M.D. Serrano, E. Dieguez,
XIX Reunión Bienal de la Sociedad Española de Microscopía Electrónica, April
1999
C4.“Efecto del enfriamiento en las estructuras periódicas de LiNbO3 preparadas
mediante la técnica Czochralski”, D. Callejo, V. Bermudez, M.D. Serrano, E.
Dieguez. VI Reunión Nacional de Materiales. June 1999.
C5.“Self frequency doubling Yb3+
, MgO doped periodically poled LiNbO3”, E.
Montoya, J. Capmany, D. Callejo, V. Bermúdez, E. Diéguez, L.E. Bausá. ASSL’
2000, Davos, Switzerland.
C6.“Influence of Hafnium in the formation of Er and Hf doped bulk periodic poled
Lithium niobate crystals by the Off-centered Czochralski technique”, D. Callejo, V.
Bermúdez, J. Capmany and E. Diéguez. CLEOEUROPE 2000. September 2000.
Nice.
C7.“Simultaneous generation of continuos-wave green and blue laser radiation by
multiple self-frequency conversion in aperiodically poled bulk LiNbO3:Nd3+
and
LiNbO3:MgO:Yb3+
” J.Capmany,V. Bermúdez, D. Callejo, J. García-Solé, E.
Montoya, L.E. Bausá, and E. Diéguez. CLEOEUROPE 2000. September 2000. Nice
C8.“Lithium Niobate waveguides on Periodic Poled Lithium Niobate substrates
prepared by LPE” D. Callejo, V. Bermúdez, M.D. Serrano, E. Diéguez. ICCGXIII
Japan, June 2001.
C9.“Engineering of Lithium Niobate domain structture through the off-centered
Czochralski growth technique” V. Bermúdez, D. Callejo, J. Capmany, E. Diéguez.
ICCG XIII Japan, June 2001.
C10. “Generation of continuous-wave laser radiation at 605 nm by self-sum-
frequency mixing in Nd3+
doped periodically poled LiNbO3” J. Capmany, M.L.
Rico, J.A. Pereda, D. Callejo, V. Bermúdez, E. Diéguez. CLEO Munich, July 2001.
C11. “Stoichiometric periodic poled lithium niobate crystals with low period” V.
Bermúdez, D. Callejo, E. Diéguez. CLEO Munich, July 2001.
C12. “Rare-earth doped Periodically poled lithium Niobate crystals” V. Bermúdez, D.
Callejo E. Diéguez. COST LN, Budapest, May 2001.
C13. “Auto-oscilador paramétrico de Yb3+
en niobato de litio con estructura periódica
de dominios ferroeléctricos”, J. Capmany, D. Callejo, V. Bermúdez, E. Diéguez, D.
Artigás, L. Torner, OPTOEL, Barcelona (Spain), July 2001.
C14. “Engineered Periodic Poled Lihtium Niobate structures doped with rare earth for
multi self-frequency conversión” V. Bermúdez, D. Callejo, J. Capmany, E.
Diéguez. International workshop on periodically microstructured nonlinear optical
materials. El Escorial (Madrid, Spain) June 2001.
C15. "MicroRaman investigation of optical quality lithium niobate wafers" F.
Caccavale, D. Callejo, A. Morbiato, M. Properzi, P. Galinetto, M. Marinone and G.
Samoggia. Photonics Europe, Strasbourg, (France) April 2004.
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C16. "Identification of LiNbO3 compositions with optimized functional properties for
advanced electro-optical devices" F. Caccavale, D. Callejo, C. Dragoni, A.
Morbiato, M. Musolino, F. Cavuoti, M. Dellagiovanna, F. Lucchi, V. Pruneri, P.
Galinetto, D. Grando, C. Sada. Photonics West, San Jose (California, USA) January
2004.
C17. "Dynamical investigation of internal field in LiNbO3 crystals" M. Paturzo, D.
Alfieri, S. Grilli, P. Ferraro, P. De Natale, M. de Angelis, S. De Nicola, A. Finizio,
G. Pierattini, F. Caccavale, D. Callejo, A. Morbiato. CLEO, Baltimore (MD, USA)
2005.
C18. "The industrial fabrication of 3” optical grade LiTaO3 crystals" F. Caccavale, D.
Callejo, C. Dragoni, A. Morbiato, M. Musolino and M. Properzi. CLEO Europe,
Munich (Germany) June 2005.
C19. "Nano-domains definition in congruent lithium niobate by surface periodic
electric-field poling" A. C. Busacca, A. C. Cino, M. Ravaro, G. Assanto, F.
Caccavale, D. Callejo, and S. Riva-Sanseverino. ECIO XII, Grenoble (France)
April 2005.
C20. "Surface Periodic Poling in Lithium Niobate and Lithium Tantalate" A.
Busacca, M. Cherchi, S. Riva Sanseverino, A. C. Cino, A. Parisi, G. Assanto, M.
Cichocki,, F. Caccavale, D. Callejo, A. Morbiato. WFOPC Palermo (Italy) June
2005.
C21. "Microdomains control in quasi-stoichiometric LiNbO3 wafers for PPLN
applications" F. Caccavale, D. Callejo, C. Dragoni, A. Morbiato, M. Musolino, M.
Properzi. Optical Materials in Defence Systems Technology, London (UK) October
2005.