Quadrupole Gap Plasmons: Hybridizing Strong Quadrupole Gap Plasmons Using Optimized Nanoantennas with Bilayer MoS2 for Excellent Photo‐Electrochemical Hydrogen Evolution (Adv. Energy Mater. 29/2018),Advanced Energy Materials

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Quadrupole Gap Plasmons: Hybridizing Strong Quadrupole Gap Plasmons Using Optimized Nanoantennas with Bilayer MoS2 for Excellent Photo‐Electrochemical Hydrogen Evolution (Adv. Energy Mater. 29/2018)
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2018-10-15 , DOI: 10.1002/aenm.201870127
Pavithra Sriram,Dong-Sheng Su,Arun Prakash Periasamy,Arumugam Manikandan,Sheng-Wen Wang,Huan-Tsung Chang,Yu-Lun Chueh,Ta-Jen Yen

In article number 1801184, Ta‐Jen Yen and co‐workers report that hot electron‐doped 2D materials can contribute to promoting photo‐electrochemical hydrogen evolution by hybridizing the unusual quadrupole gap plasmons of optimized nano‐antennas with the excitons of bilayer MoS₂. Excellent hydrogen evolution reaction activity is realized due to the good light‐trapping behavior of the QGP structure, large number of accepting sites of bilayer MoS₂ and fast electron injection process.

中文翻译：

四极间隙等离激元：使用优化的纳米天线和双层MoS2与强四极间隙等离激元杂交，产生出色的光电电化学氢释放（Adv。Energy Mater。29/2018）

Ta-Jen Yen及其同事在编号为1801184的文章中报告说，热掺杂电子的2D材料可以通过将优化的纳米天线的异常四极隙等离子体激元与双层MoS ₂的激子相混合来促进光电化学氢的演化。QGP结构具有良好的光捕获性能，双层MoS _2的大量接受位点以及快速的电子注入过程，因此实现了出色的析氢反应活性。

更新日期：2018-10-15

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