2018 - Society for Information Display Fellow
Optoelectronics, Organic semiconductor, Nanotechnology, Pentacene and Field-effect transistor are his primary areas of study. His work carried out in the field of Optoelectronics brings together such families of science as Low voltage, Optics and Graphene. In the subject of general Graphene, his work in Graphene nanoribbons is often linked to Physicist, Negative thermal expansion and Molecular nanotechnology, thereby combining diverse domains of study.
He combines subjects such as Semiconductor and Thin-film transistor with his study of Organic semiconductor. His Nanotechnology study combines topics from a wide range of disciplines, such as Acceptor, Photovoltaic system and Integrated circuit. The concepts of his Pentacene study are interwoven with issues in Parylene and Gate dielectric.
Ioannis Kymissis mainly focuses on Optoelectronics, Nanotechnology, Organic semiconductor, Transistor and Field-effect transistor. His Optoelectronics study combines topics in areas such as Thin film, Pentacene, Thin-film transistor and Optics. His specific area of interest is Nanotechnology, where Ioannis Kymissis studies Graphene.
His biological study spans a wide range of topics, including Organic field-effect transistor, Heterojunction and Organic electronics. His Transistor study frequently draws connections between adjacent fields such as Low voltage. His research on Field-effect transistor often connects related areas such as Threshold voltage.
Ioannis Kymissis mostly deals with Optoelectronics, Nanotechnology, Optical imaging, Artificial intelligence and Computer vision. His Optoelectronics study integrates concerns from other disciplines, such as Gallium nitride and Substrate. His study on Substrate also encompasses disciplines like
His work carried out in the field of Thin-film transistor brings together such families of science as Molecular engineering, Doping and Organic semiconductor. His work on Bioelectronics as part of general Nanotechnology study is frequently linked to Human health, therefore connecting diverse disciplines of science. His biological study spans a wide range of topics, including Data-driven, Signal, Normal force and Tactile sensor.
His primary areas of investigation include Optoelectronics, Nanotechnology, Etching, Photoluminescence and Cathodoluminescence. His Optoelectronics research focuses on Heterojunction in particular. His research in Nanotechnology intersects with topics in Transistor and Doping.
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Performance of monolayer graphene nanomechanical resonators with electrical readout
Changyao Chen;Sami Rosenblatt;Kirill I. Bolotin;William Kalb.
Nature Nanotechnology (2009)
High-performance bottom electrode organic thin-film transistors
I. Kymissis;C.D. Dimitrakopoulos;S. Purushothaman.
IEEE Transactions on Electron Devices (2001)
Orientation of luminescent excitons in layered nanomaterials
Jon A. Schuller;Jon A. Schuller;Jon A. Schuller;Sinan Karaveli;Theanne Schiros;Keliang He.
Nature Nanotechnology (2013)
Movers and Shakers: Kinetic Energy Harvesting for the Internet of Things
Maria Gorlatova;John Sarik;Guy Grebla;Mina Cong.
IEEE Journal on Selected Areas in Communications (2015)
Organic Field Effect Transistors: Theory, Fabrication and Characterization
Low-Voltage, High-Mobility Pentacene Transistors with Solution-Processed High Dielectric Constant Insulators
C. D. Dimitrakopoulos;I. Kymissis;S. Purushothaman;D. A. Neumayer.
Advanced Materials (1999)
A 2.5D Integrated Voltage Regulator Using Coupled-Magnetic-Core Inductors on Silicon Interposer
N. Sturcken;E. J. O'Sullivan;N. Wang;P. Herget.
international solid state circuits conference (2013)
Lab kits using the Arduino prototyping platform
John Sarik;Ioannis Kymissis.
frontiers in education conference (2010)
Method for improving performance of organic semiconductors in bottom electrode structure
Christos Dimitrios Dimitrakopoulos;Ioannis Kymissis;Sampath Purushothaman.
Photonic Crystal Spectrometer
Nadia Pervez;Warren Cheng;Zhang Jia;Marshall Cox.
Bulletin of the American Physical Society (2010)
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