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van der Waals Heterostructures: Type-I Energy Level Alignment at the PTCDA—Monolayer MoS2 Interface Promotes Resonance Energy Transfer and Luminescence Enhancement (Adv. Sci. 12/2021)
Advanced Science ( IF 14.3 ) Pub Date : 2021-06-24 , DOI: 10.1002/advs.202170071 Soohyung Park , Niklas Mutz , Sergey A. Kovalenko , Thorsten Schultz , Dongguen Shin , Areej Aljarb , Lain‐Jong Li , Vincent Tung , Patrick Amsalem , Emil J. W. List‐Kratochvil , Julia Stähler , Xiaomin Xu , Sylke Blumstengel , Norbert Koch
Advanced Science ( IF 14.3 ) Pub Date : 2021-06-24 , DOI: 10.1002/advs.202170071 Soohyung Park , Niklas Mutz , Sergey A. Kovalenko , Thorsten Schultz , Dongguen Shin , Areej Aljarb , Lain‐Jong Li , Vincent Tung , Patrick Amsalem , Emil J. W. List‐Kratochvil , Julia Stähler , Xiaomin Xu , Sylke Blumstengel , Norbert Koch
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In article number 2100215, Soohyung Park, Sylke Blumstengel, Norbert Koch, and co-workers demonstrate a key mechanism for opto-electronic properties enhancement of an organic/inorganic van der Waals semiconductor heterostructure in the 2D limit. A straddling type-I energy level alignment enables sub-picosecond resonance energy transfer from organic molecules to a 2D inorganic semiconductor monolayer, with enhanced luminescence yield from the inorganic component.
中文翻译:
van der Waals 异质结构:PTCDA 上的 I 型能级对齐 - 单层 MoS2 界面促进共振能量转移和发光增强(Adv. Sci. 12/2021)
在文章编号 2100215 中,Soohyung Park、Sylke Blumstengel、Norbert Koch 和同事展示了在二维极限下增强有机/无机范德瓦尔斯半导体异质结构的光电性能的关键机制。跨越式 I 型能级排列使亚皮秒共振能量从有机分子转移到二维无机半导体单层,提高了无机组分的发光产率。
更新日期:2021-06-24
中文翻译:
van der Waals 异质结构:PTCDA 上的 I 型能级对齐 - 单层 MoS2 界面促进共振能量转移和发光增强(Adv. Sci. 12/2021)
在文章编号 2100215 中,Soohyung Park、Sylke Blumstengel、Norbert Koch 和同事展示了在二维极限下增强有机/无机范德瓦尔斯半导体异质结构的光电性能的关键机制。跨越式 I 型能级排列使亚皮秒共振能量从有机分子转移到二维无机半导体单层,提高了无机组分的发光产率。
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