Thin-film transistor, Optoelectronics, Organic semiconductor, Transistor and Chemical engineering are his primary areas of study. His research in Thin-film transistor intersects with topics in Thiophene, Polymer and Threshold voltage. His work on Semiconductor as part of general Optoelectronics research is often related to Organic field-effect transistor, thus linking different fields of science.
His Organic semiconductor research incorporates elements of Substrate and Electron mobility. His Transistor study incorporates themes from Photodiode and Contact resistance. As a member of one scientific family, he mostly works in the field of Condensed matter physics, focusing on Nanocrystalline material and, on occasion, Magnetization and Nuclear magnetic resonance.
Robert Street mostly deals with Condensed matter physics, Magnetization, Coercivity, Magnet and Optoelectronics. His study in the field of Ferromagnetism is also linked to topics like Field. He has included themes like Viscosity, Phase and Nuclear magnetic resonance in his Magnetization study.
His Coercivity research focuses on subjects like Nanocrystalline material, which are linked to Metallurgy and Crystallization. His Optoelectronics research integrates issues from Threshold voltage, Transistor, Amorphous silicon and Thin-film transistor. His study explores the link between Thin-film transistor and topics such as Gate dielectric that cross with problems in Dielectric.
Robert Street spends much of his time researching Optoelectronics, Transistor, Amorphous silicon, Thin-film transistor and Photodiode. Optoelectronics is closely attributed to Substrate in his work. His study looks at the intersection of Transistor and topics like Thin film with Nanoindentation, Elastic modulus, Modulus, Composite material and Microstructure.
The study incorporates disciplines such as Flexible electronics, Nanoparticle, Gate dielectric and Ozone in addition to Thin-film transistor. As a part of the same scientific family, Robert Street mostly works in the field of Gate dielectric, focusing on Gate oxide and, on occasion, Organic semiconductor. His biological study spans a wide range of topics, including Image sensor, Polymer solar cell and Quantum efficiency.
Robert Street mainly investigates Optoelectronics, Amorphous silicon, Transistor, Photodiode and Thin film. In general Optoelectronics, his work in Dark current and Organic semiconductor is often linked to Organic field-effect transistor linking many areas of study. His Amorphous silicon study combines topics from a wide range of disciplines, such as Nanowire, Silicon and Infrared spectroscopy.
His Nanowire research is multidisciplinary, relying on both Wafer, Doping, Semiconductor and Nanocrystalline silicon. His Transistor study combines topics in areas such as Stress, Semiconductor device and Time constant. His research integrates issues of Modulus, Annealing, Nanoindentation and Elastic modulus in his study of Thin film.
W. Götz;N. M. Johnson;J. Walker;D. P. Bour
A. Salleo;M. L. Chabinyc;M. S. Yang;R. A. Street
J. Ding;P.G. Mccormick;Robert Street
Tse Nga Ng;William S. Wong;Michael L. Chabinyc;Sanjiv Sambandan
R. A. Street;A. Salleo
A. Salleo;R. A. Street
Kateri E. Paul;William S. Wong;Steven E. Ready;Robert A. Street
R. A. Street;S. E. Ready;K. Van Schuylenbergh;J. Ho
M Muroi;R Street;P G Mccormick;J Amighian
Paul Mccormick;W.F. Miao;P.A.I. Smith;J. Ding
M. Stutzmann;R. A. Street;C. C. Tsai;J. B. Boyce
S. A. Rowlands;A. K. Hall;P. G. McCormick;R. Street
J. Ding;Paul Mccormick;Robert Street
J. Ding;W.F. Miao;P.G. McCormick;R. Street
Michael L. Chabinyc;Robert A. Street;John E. Northrup
Michael L. Chabinyc;Jeng-Ping Lu;Robert A. Street;Yiliang Wu
J. Ding;T. Tsuzuki;Paul Mccormick;Robert Street
J. Ding;T. Tsuzuki;Paul Mccormick;Robert Street
Michael L. Chabinyc;William S. Wong;Alberto Salleo;Kateri E. Paul
R. A. Street;P. Qi;R. Lujan;W. S. Wong
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