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作品数:1468被引量:2993H指数:17
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Defocused imaging-based quantification of plasmon-induced distortion of single emitter emission
《Light(Science & Applications)》2023年第10期2236-2247,共12页Gwiyeong Moon Taehwang Son Hajun Yoo Changhun Lee Hyunwoong Lee Seongmin Im Donghyun Kim 
supported by the National Research Foundation of Korea under Grant NRF-2022R1A4A2000748 and Y-BASE R&E Institute,a Brain Korea 21 four program,Yonsei University.
Optical properties of single emitters can be significantly improved through the interaction with plasmonic structures,leading to enhanced sensing and imaging capabilities.In turn,single emitters can act as sensitive p...
关键词:DISTORTION MATCHING interaction 
On-chip ultrasensitive and rapid hydrogen sensing based on plasmon-induced hot electron-molecule interaction被引量:3
《Light(Science & Applications)》2023年第4期625-635,共11页Long Wen Zhiwei Sun Qilin Zheng Xianghong Nan Zaizhu Lou Zhong Liu David R.S.Cumming Baojun Li Qin Chen 
supports from the National Key Research and Development Program of China(No.2019YFB2203402);National Natural Science Foundation of China(Nos.92050108 and 62220106001);Guangdong Science and Technology Program International Cooperation Program(No.2021A0505030038);Guangdong Basic and Applied Basic Research Foundation(Nos.2020B1515020037 and 2022B1515020069);Pearl River Talent Plan Program of Guangdong(No.2019QN01X120);Fundamental Research Funds for the Central Universities(No.21621108).
Hydrogen energy is a zero-carbon replacement for fossil fuels.However,hydrogen is highly flammable and explosive hence timely sensitive leak detection is crucial.Existing optical sensing techniques rely on complex ins...
关键词:HYDROGEN INTERACTION hence 
Two-dimensional Dirac plasmon-polaritons in graphene,3D topological insulator and hybrid systems被引量:2
《Light(Science & Applications)》2022年第11期2602-2616,共15页Chihun In Un Jeong Kim Hyunyong Choi 
C.I.and H.C.were supported by the National Research Foundation of Korea(NRF)through the government of Korea(Grant No.NRF-2021R1A2C3005905,NRF-2020M3F3A2A03082472);Creative materials Discovery program(grant no.2017M3D1A1040834);Scalable Quantum Computer Technology Platform Center(grant no.2019R1A5A1027055);the core center program(2021R1A6C101B418);the Ministry of Education,and the Institute for Basic Science(IBS),Korea,under Project C ode IBS-R014-G1-2018-A1;Part of this study(C.I.and H.C.)has been performed using failities at IBS Center for Correlated Electron Systems,Seoul National University.C.I.was supported by NRF through the government of Korea(Grant No.NRF-2021R1A6A3A14044225);This work was supported by Samsung Advanced Institute of technology in 2014-2018.
Collective oscillations of massless particles in two-dimensional(2D)Dirac materials offer an innovative route toward implementing atomically thin devices based on low-energy quasiparticle interactions.Strong confineme...
关键词:structure DIRAC TOPOLOGICAL 
Plasmon-induced trap filling at grain boundaries in perovskite solar cells被引量:2
《Light(Science & Applications)》2021年第11期2233-2244,共12页Kai Yao Siqi Li Zhiliang Liu Yiran Ying Petr Dvořák Linfeng Fei Tomᚊikola Haitao Huang Peter Nordlander Alex K-Y.Jen Dangyuan Lei 
This work was supported by the National Natural Science Foundation of China(Grants 51863013 and 61874052);K.Y.thanks the financial support of Excellent Young Foundation of Jiangxi Province(Grant 20192BCB23009);the Hong Kong Scholars programme(XJ2016048);P.D.and T.S.thank the financial support of the Grant agency of the Czech Republic(number 20-01673S);This work was also supported by the Hong Kong Polytechnic University(G-YZ98);the Research Grants Council of Hong Kong(GRF Grant number PolyU152140/19E and CRF Grant number C5037-18G).
The deep-level traps induced by charged defects at the grain boundaries(GBs)of polycrystalline organic-inorganic halide perovskite(OIHP)films serve as major recombination centres,which limit the device performance.Her...
关键词:PEROVSKITE GRAIN ABSORBER 
Plasmon-induced dual-wavelength operation in a Yb^(3+) laser
《Light(Science & Applications)》2019年第1期1042-1050,共9页Laura Sanchez-Garcia Mariola O.Ramirez Rosa Maria Sole Joan J.Carvajal Francesc Diaz Luisa E.Bausa 
support from the Spanish Government under project MAT2016-76106-R;Comunidad de Madrid under grant S2013/MIT-2740;funding from the Spanish Government under projects MAT2016-75716-C2-1-R(AEI/FEDER,UE);TEC2014-55948-R;Generalitat de Catalunya under project 2017SGR755;grant FPU13/02476 from the Spanish Ministry of Education;financial support from the Spanish Government,through The“Maria de Maeztu”Programme for Units of Excellence in R&D(MDM-2014-0377)”.
Expanding the functionalities of plasmon-assisted lasers is essential for emergent applications in nanoscience and nanotechnology.Here,we report on a novel ability of plasmonic structures to induce dual-wavelength las...
关键词:LASER LASING DUAL 
Silver nanoislands on cellulose fibers for chromatographic separation and ultrasensitive detection of small molecules
《Light(Science & Applications)》2016年第1期796-802,共7页Hyukjin Jung Moonseong Park Minhee Kang Ki-Hun Jeong 
supported by the National Research Foundation of Korea(NRF)grant funded by the Korea government(MEST)(2014022751,2014039957,2011-0031866);supported by a grant of the Korea Health Technology R&D Project through the Korea Health Industry Development Institute(KHIDI),funded by the Ministry of Health&Welfare,Republic of Korea(grant number:HI13C2181).
High-throughput small-molecule assays play essential roles in biomedical diagnosis,drug discovery,environmental analysis,and physiological function research.Nanoplasmonics holds a great potential for the label-free de...
关键词:nanoplasmonics paper chromatography plasmon-enhanced spectroscopy silver nanoislands small-molecule assay 
Plasmon-assisted optical trapping and anti-trapping被引量:1
《Light(Science & Applications)》2016年第1期52-57,共6页Aliaksandra Ivinskaya Mihail I Petrov Andrey A Bogdanov Ivan Shishkin Pavel Ginzburg Alexander S Shalin 
supported in part by the Government of the Russian Federation(No 074-U01);the Russian Fund for Basic Research within the Project No 15-02-01344,16-52-00112,16-32-60167,17-02-01058 and 17-02-01032;supported by the Russian Science Foundation(No 14-12-01227);the support of the President of Russian Federation in the frame of Scholarship SP-4248.2016.1;support of Ministry of Education and Science of the Russian Federation(GOSZADANIE);BAZIS Fund;the RFBR(16-37-60064)and the President of Russian Federation(grantМК-6462.2016.2)for the valuable support;support from TAU rector grant and German-Israeli foundation(No 2339).
The ability to manipulate small objects with focused laser beams has opened a venue for investigating dynamical phenomena relevant to both fundamental and applied science.Nanophotonic and plasmonic structures enable s...
关键词:Gaussian beam Green’s function optical forces optical tweezers surface plasmon 
Plasmon-driven reaction controlled by the number of graphene layers and localized surface plasmon distribution during optical excitation被引量:3
《Light(Science & Applications)》2015年第1期137-143,共7页Zhi-gao Dai Xiang-heng Xiao Wei Wu Yu-peng Zhang Lei Liao Shi-shang Guo Jian-jian Ying Chong-xin Shan Meng-tao Sun Chang-zhong Jiang 
This work was partially supported by the NSFC(51171132,U1260102,51371131,11375134,11374353,and 91436102),NCET(12-0418);Hubei Provincial Natural Science Foundation(2011CDB270,2012FFA042);Jiangsu Provincial Natural Science Foundation(BK20141217);Wuhan Planning Project of Science and Technology(2014010101010019);the Wuhan University Experiment Technology Project Funding,the Fundamental Research Funds for the Central Universities(2042015kf1012,2042015gf0016)
Graphene-plasmonic hybrid platforms have attracted an enormous amount of interest in surface-enhanced Raman scattering(SERS);however,the mechanism of employing graphene is still ambiguous,so clarification about the co...
关键词:GRAPHENE graphene-mediated SERS plasmon-driven reaction SERS 
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