Exciton-dominant electroluminescence from a diode of monolayer MoS2 Yu Ye, Ziliang Ye, Majid Gharghi, Hanyu Zhu, Mervin Zhao, Yuan Wang, Xiaobo Yin, and Xiang Zhang Citation: Applied Physics Letters 104, [removed]); d - Electroluminescence - Document - PDFSEARCH.IO - Document Search Engine

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	Exciton-dominant electroluminescence from a diode of monolayer MoS2 Yu Ye, Ziliang Ye, Majid Gharghi, Hanyu Zhu, Mervin Zhao, Yuan Wang, Xiaobo Yin, and Xiang Zhang Citation: Applied Physics Letters 104, [removed]); d Add to Reading List Document Date: 2014-05-19 05:19:59 Open Document File Size: 1,12 MB Share Result on Facebook City Berkeley / / Company Lawrence Berkeley National Laboratory / ACS / C 2014 AIP Publishing LLC / T. / / Country United States / / Currency USD / CNY / / / Facility Scale bar / Etcheverry Hall / University of California / / IndustryTerm energy band / heterojunction electroluminescence device / hot carrier process / higher exciton energy / weaker satellite peak / carrier injection / direct energy bandgap / higher energy exciton peak / high-energy peak / high energy / high-energy / lower energy / confined carbon nanotube systems / inverse carrier lifetime sL / electrical carrier injection / high-energy exciton / large binding energy / energy / / MusicGroup MoS2 / Ideal / / Organization U.S. Air Force office of Scientific Research / University of California / U.S. Department of Energy / NSF Nanoscale Science and Engineering Center / / Person Yuan Wang / Xiang Zhang / M. Steiner / V / G. Wang / Nat / Majid Gharghi / / Position Author / VP / Cao / / ProvinceOrState California / / PublishedMedium Applied Physics Letters / / Technology semiconductor / radiation / spectroscopy / recombination / / URL http / SocialTag Emerging technologies Condensed matter physics Display technology Molecular electronics Quasiparticles OLED Exciton Carrier generation and recombination Semiconductor Physics