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Alejandro L. Briseno
Researcher at University of Massachusetts Amherst
Publications - 148
Citations - 8985
Alejandro L. Briseno is an academic researcher from University of Massachusetts Amherst. The author has contributed to research in topics: Organic semiconductor & Rubrene. The author has an hindex of 43, co-authored 146 publications receiving 8265 citations. Previous affiliations of Alejandro L. Briseno include University of California, Santa Barbara & Alcatel-Lucent.
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Journal ArticleDOI
Patterning organic single-crystal transistor arrays.
Alejandro L. Briseno,Alejandro L. Briseno,Stefan C. B. Mannsfeld,Mang M. Ling,Shuhong Liu,Ricky J. Tseng,Colin Reese,Mark E. Roberts,Yang Yang,Fred Wudl,Zhenan Bao +10 more
TL;DR: The results suggest that the fabrication approach constitutes a promising step that might ultimately allow to utilize high-performance organic single-crystal field-effect transistors for large-area electronics applications.
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Perylenediimide nanowires and their use in fabricating field-effect transistors and complementary inverters.
Alejandro L. Briseno,Stefan C. B. Mannsfeld,Colin Reese,Jessica M. Hancock,Yujie Xiong,Samson A. Jenekhe,Zhenan Bao,Younan Xia +7 more
TL;DR: Perylenetetracarboxyldiimide nanowires self-assembled from commercially available materials are demonstrated as the n-channel semiconductor in organic field-effect transistors (OFETs) and as a building block in high-performance complementary inverters.
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Oligo- and polythiophene/ZnO hybrid nanowire solar cells
Alejandro L. Briseno,Thomas W. Holcombe,Akram Boukai,Erik C. Garnett,Steve W. Shelton,Jean J. M. Fréchet,Peidong Yang +6 more
TL;DR: The basic operation of an organic/inorganic hybrid single nanowire solar cell is demonstrated and detailed analysis will enable detailed analysis to be carried out in areas that have been difficult to study in bulk heterojunction devices.
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Introducing organic nanowire transistors
TL;DR: In this article, the authors discuss the self-assembly of one-dimensional, single-crystalline organic nanowires, show the structures of commonly employed organic semiconductors, and review some of the advances in this field.
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Controlled Deposition of Crystalline Organic Semiconductors for Field-Effect-Transistor Applications
TL;DR: In this article, the authors highlight deposition techniques that offer precise control over the location or in-plane orientation of organic semiconductors, focusing on various vapor-and solution-processing techniques for patterning organic single crystals in desired locations.