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Investigation of fluorescence resonance energy transfer ultrafast dynamics in electrostatically repulsed and attracted exciton–plasmon systemsProject supported by the National Natural Science Foundation of China (Grant Nos. 10904049 and 61575079), the Science and Technology Development Program of Jilin Province, China (Grant No. 20180101230JC), the Fundamental Research Funds for the Central Universities (Grant No. JCKYQKJC45), China Postdoctoral Science Foundation (Grant No. 201003537), and the Scientific Research Foundation for the Returned Overseas Chinese Scholars, the Ministry of Education, China.
Chinese Physics B ( IF 1.5 ) Pub Date : 2021-02-09 , DOI: 10.1088/1674-1056/abb802 Hong-Yu Tu 1 , Ji-Chao Cheng 1 , Gen-Cai Pan 1 , Lu Han 1 , Bin Duan 1 , Hai-Yu Wang 2 , Qi-Dai Chen 2 , Shu-Ping Xu 3 , Zhen-Wen Dai 1 , Ling-Yun Pan 1
更新日期:2021-02-09
Chinese Physics B ( IF 1.5 ) Pub Date : 2021-02-09 , DOI: 10.1088/1674-1056/abb802 Hong-Yu Tu 1 , Ji-Chao Cheng 1 , Gen-Cai Pan 1 , Lu Han 1 , Bin Duan 1 , Hai-Yu Wang 2 , Qi-Dai Chen 2 , Shu-Ping Xu 3 , Zhen-Wen Dai 1 , Ling-Yun Pan 1
Affiliation
Following the gradual maturation of synthetic techniques for nanomaterials, exciton–plasmon composites have become a research hot-spot due to their controllable energy transfer through electromagnetic fields on the nanoscale. However, most reports ignore fluorescence resonance energy transfer (FRET) under electrostatic repulsion conditions. In this study, the FRET process is investigated in both electrostatic attraction and electrostatic repulsion systems. By changing the Au : quantum dot ratio, local-field induced FRET can be observed with a lifetime of ns and a fast component of hundreds of ps. These results indicate that the intrinsic transfer process can only elucidated by considering both steady and transient state information.
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