J
John C. Thomas
Researcher at University of California, Los Angeles
Publications - 22
Citations - 690
John C. Thomas is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Monolayer & Self-assembled monolayer. The author has an hindex of 14, co-authored 22 publications receiving 624 citations. Previous affiliations of John C. Thomas include Pennsylvania State University & California Institute of Technology.
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Journal ArticleDOI
From the bottom up: dimensional control and characterization in molecular monolayers
Shelley A. Claridge,Wei-Ssu Liao,John C. Thomas,Yuxi Zhao,Huan H. Cao,Sarawut Cheunkar,Andrew C. Serino,Anne M. Andrews,Paul S. Weiss +8 more
TL;DR: This review discusses monolayer structures ranging from surfaces (two-dimensional) down to single molecules (zero-dimensional), with a focus on applications of each type of structure, and on techniques that enable characterization of monolayers physical properties down to the single-molecule scale.
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Interface Control in Organic Electronics Using Mixed Monolayers of Carboranethiol Isomers
Jaemyung Kim,You Seung Rim,Yongsheng Liu,Andrew C. Serino,John C. Thomas,Huajun Chen,Yang Yang,Paul S. Weiss +7 more
TL;DR: Mixed monolayers of carboranethiol isomers provide an ideal platform for the study and fabrication of solution-processed organic field-effect transistors and improved device performance is demonstrated by interface engineering.
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The prognostic significance in HIV infection of immune activation represented by cell surface antigen and plasma activation marker changes.
Susan Plaeger,Hong Z. Bass,Parunag Nishanian,John C. Thomas,Najib Aziz,Roger Detels,Joy King,William G. Cumberland,Margaret E. Kemeny,John L. Fahey +9 more
TL;DR: After adjustment for CD4 cell levels, sIL-2R, neopterin, beta2M, and CD25+ CD19 cells remained significant, indicating that additional information about AIDS risk was provided by these markers.
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Photoresponsive Molecules in Well‐Defined Nanoscale Environments
TL;DR: The structure and functional moieties of the SAM can be tuned to control not only the intermolecular interactions but also molecule‐substrate interactions, resulting in extraction or control of desired molecular functions.
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Exchange reactions between alkanethiolates and alkaneselenols on Au{111}.
J. Nathan Hohman,John C. Thomas,Yuxi Zhao,Harsharn S. Auluck,Moonhee Kim,Wouter Vijselaar,Sander Kommeren,Andreas Terfort,Paul S. Weiss +8 more
TL;DR: When alkanethiolate self-assembled monolayers on Au{111} are exchanged with alkaneselenols from solution, replacement of thiolates by selenols is rapid and complete, and is well described by perimeter-dependent island growth kinetics.