Stefan C. B. Mannsfeld
Dresden University of Technology
177 Papers
937 Citations
Stefan C. B. Mannsfeld is an academic researcher from Dresden University of Technology. The author has contributed to research in topics: Organic semiconductor & Thin film. The author has an hindex of 59, co-authored 153 publications. Previous affiliations of Stefan C. B. Mannsfeld include SLAC National Accelerator Laboratory & University of Washington.
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Papers
Highly sensitive flexible pressure sensors with microstructured rubber dielectric layers
Stefan C. B. Mannsfeld,Benjamin C. K. Tee,Randall M. Stoltenberg,Christopher V. H. H. Chen,Soumendra N. Barman,Beinn V.O. Muir,Anatoliy N. Sokolov,Colin Reese,Zhenan Bao +8 more
TL;DR: Flexible, capacitive pressure sensors with unprecedented sensitivity and very short response times that can be inexpensively fabricated over large areas by microstructuring of thin films of the biocompatible elastomer polydimethylsiloxane are demonstrated.
Ultra-high mobility transparent organic thin film transistors grown by an off-centre spin-coating method
Yongbo Yuan,Gaurav Giri,Alexander L. Ayzner,Alexander L. Ayzner,Arjan P. Zoombelt,Stefan C. B. Mannsfeld,Jihua Chen,Dennis Nordlund,Michael F. Toney,Jinsong Huang,Zhenan Bao +10 more
TL;DR: The growth of a highly aligned meta-stable structure of 2,7-dioctyl[1]benzothieno[3,2-b][1] Benzothiophene (C8-BTBT) is described from a blended solution of C8- BTBT and polystyrene by using a novel off-centre spin-coating method, indicating their potential for transparent, high-performance organic electronics.
Quantitative determination of organic semiconductor microstructure from the molecular to device scale.
TL;DR: The authors would like to thank M. Chabinyc, H. Ade, B. Noriega, K. Vandewal, and D. Duong for fruitful discussions in the preparation of this review and the Center for Advanced Molecular Photovoltaics for funding.
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Tuning charge transport in solution-sheared organic semiconductors using lattice strain
Gaurav Giri,Eric Verploegen,Eric Verploegen,Stefan C. B. Mannsfeld,Sule Atahan-Evrenk,Do Hwan Kim,Sang Yoon Lee,Hector A. Becerril,Alán Aspuru-Guzik,Michael F. Toney,Zhenan Bao +10 more
TL;DR: A solution-processing technique in which lattice strain is used to increase charge carrier mobilities by introducing greater electron orbital overlap between the component molecules should aid the development of high-performance, low-cost organic semiconducting devices.
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.