LSPR

作品数:112被引量:169H指数:6
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相关机构:吉林大学南开大学中国科学院天津大学更多>>
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Photothermal properties of Cu@polycarbonate composites with strong localized surface plasmon resonances
《Nano Research》2024年第9期8513-8520,共8页Fengyi Wang Jiangling He Junshan Hu Zhihui Chen Yumeng Shi Qing-Hua Xu 
supported by the Ministry of Education,Singapore(Nos.R-143-000-A41-114 and MOE2018-T2-1-119);the National Natural Science Foundation of China(No.61874074);the Educational Commission of Guangdong Province(No.2016KZDXM008);the Shenzhen Peacock Plan(No.KQTD2016053112042971);the Fundamental Research Funds for the Central Universities(No.2022SCU12003);Science and Technology Project of Shenzhen(No.GJHZ20180928160407303);the Natural Science Foundation of Sichuan Province(No.2023NSFSC0334).
Copper is relatively low cost and highly abundant compared with the well-studied noble metals such as gold and silver.However,the poor plasmonic and high susceptibility towards oxidation limit the study of its optical...
关键词:Cu nanoparticles localized surface plasmon resonances(LSPR) PHOTOTHERMAL interfacial evaporation 
Large-scale controllable fabrication of aluminum nanobowls for surface plasmon-enhanced fluorescence被引量:1
《Nano Research》2023年第7期10131-10138,共8页Yawen Wang Heng Gao Yuanlan Liu Dong Li Bo Zhao Wenkai Liang Yinghui Sun Lin Jiang 
This work was supported by the National Natural Science Foundation of China(Nos.22072104 and 21822202);Suzhou Key Laboratory of Surface and Interface Intelligent Matter(No.SZS2022011);This is also a project funded by Suzhou Key Laboratory of Functional Nano&Soft Materials,Collaborative Innovation Center of Suzhou Nano Science&Technology,the 111 Project,Joint International Research Laboratory of Carbon-Based Functional Materials and Devices.
Al nanoparticles(NPs)exhibit excellent localized surface plasmon resonance(LSPR)properties and have been considered a promising alternative to plasmonic Au or Ag NPs.However,it remains difficult to fabricate Al NPs wi...
关键词:Al nanoparticles controllable size localized surface plasmon resonance(LSPR) large-area fabrication fluorescence enhancement 
Study of thermoelectric enhanced SERS and photocatalysis with ZnO-metal nanorod arrays被引量:1
《Nano Research》2023年第4期5427-5435,共9页Baoqiang Du Jibing Tan Chang Ji Mingrui Shao Xiaofei Zhao Jing Yu Chao Zhang Chuansong Chen Hui Pan Baoyuan Man Zhen Li 
the financial support from the National Natural Science Foundation of China(Nos.11974222,12004226,12174229,and 11904214);the Natural Science Foundation of Shandong Province(No.ZR2020QA075);the Qingchuang Science and Technology Plan of Shandong Province(No.2021KJ006);the China Postdoctoral Science Foundation(No.2019M662423).
Herein,a thermoelectric induced surface-enhanced Raman scattering(SERS)substrate consisting of ZnO nanorod arrays and metal nanoparticles is proposed.The intensities of SERS signals are further enhanced by an order of...
关键词:ZNO electric-induced surface-enhanced Raman scattering(E-SERS) temperature gradient PHOTOCATALYSIS local surface plasmon resonance(LSPR) 
Noble-metal free plasmonic nanomaterials for enhanced photocatalytic applications—A review被引量:4
《Nano Research》2022年第12期10268-10291,共24页Jinghua Li Yiming Zhang Yalong Huang Bing Luo Li Jing Dengwei Jing 
the financial support from the National Natural Science Foundation of China(No.52025061);Royal Society-Newton Advanced Fellowship grant(No.NAF/R1/191163);supported by the China Fundamental Research Funds for the Central Universities.
Plasmonic nanomaterial catalysis is currently at the frontier of photocatalysis,overcoming the limitations of wide bandgap semiconductors for light absorption.Its localized surface plasmon resonance(LSPR)properties al...
关键词:localized surface plasmon resonance(LSPR) noble-metal free plasmonic nanomaterials PHOTOCATALYSIS 
Tunable colors and conductivity by electroless growth of Cu/Cu2O particles on sol-gel modified cellulose
《Nano Research》2020年第10期2658-2664,共7页Justus Landsiedel Waleri Root Christian Schramm Alexander Menzel Steffen Witzleben Thomas Bechtold Tung Pham 
The authors gratefully acknowledge the financial support from the Austrian Federal Ministry for Climate Action,Environment,Energy,Mobility,Innovation and Technology(BMK)for the Endowed Professorship Advanced Manufacturing(No.846932);the BMK,BMWFW,Land Vorarlberg,Land Tirol and Land Wien with the framework of COMET competence Centers for Excellence Technologies for the K-Projest TCCV(No.860474);J L.thanks Dr Avinash P Manian and Dr.Noemi Aguil6-Aguayo for discussions,and Dorian Rhomberg for laboratory support.
Development of colored surfaces by formation of nano-structured aggregates is a widely used strategy in nature to color lightweight structures (e.g. butterflies) without the use of dye pigments. The deposition of nano...
关键词:electroless copper deposition sol-gel support thin film structural coloration tunable sheet resistance LSPR 
Enhancement of MoTe2 near-infrared absorption with gold hollow nanorods for photodetection被引量:5
《Nano Research》2020年第6期1636-1643,共8页Jiawen You Ye Yu Kai Cai Dongming Zhou Haiming Zhu Renyan Wang Qingfu Zhang Hongwei Liu Yuting Cai Dong Lu Jang-Kyo Kim Lin Gan Tianyou Zhai Zhengtang Luo 
This project was supported by the Research Grant Council of Hong Kong SAR(No.1620441);NSFC-RGC Joint Research Scheme(No.N_HKUST607/17);the Innovation and Technology Commission(No.ITC-CNERC14SC01);the Zhongshan Municipal Bureau of Science&Technology(No.ZSST19EG03);National Natural Science Foundation of China(NSFC)(Nos.11825203,51872100,21825103,21501060 and 51727809);National Basic Research Program of China(Nos.2015CB932600 and 2019kfyRCPY059);Foundation of Shenzhen Science and Technology Innovation Committee(No.JCYJ20180504170444967).
Infrared(IR)light photodetection based on two dimensional(2D)materials of proper bandgap has attracted increasing attention.However,the weak IR absorption in 2D materials,due to their ultrathin attribute and indirect ...
关键词:NIR photodetection LSPR MoTe2 gold hollow nanorods 
Uniform and reproducible plasmon-enhanced fluorescence substrate based on PMMA-coated, large-area Au@Ag nanorod arrays被引量:4
《Nano Research》2018年第2期953-965,共13页Jun Sun  Ziyang Li  Yinghui Sun  Liubiao Zhong  Jing Huang  Junchang Zhang  Zhiqiang Liang  Jianmei Chen  Lin Jiang 
Here we describe a plasmon-enhanced fluorescence substrate based on poly(methyl methacrylate) (PMMA)-coated, large-area Au@Ag nanorod arrays. The use of a PMMA medium enables precise control of the competition bet...
关键词:Au@Ag nanorod arrays metal-enhancedfluorescence (MEF) poly(methyl methacrylate)(PMMA) layer micro patterning localized surface plasmonresonance (LSPR) 
Background-free three-dimensional selective imaging of anisotropic plasmonic nanoparticles
《Nano Research》2017年第4期1423-1433,共11页Xiaodong Cheng Xuan Cao Bin Xiong Yan He Edward S. Yeung 
Acknowledgements This work was supported by the National Natural Sdence Foundation of China (Nos. 91027037, 21127009, 21425519 and 21221003), Hunan University 985 fund, Tsinghua University Startup fund, the Natural Science Foundation of Zhejiang Province (No. LY16B050006) and Wenzhou Medical University Setup fund (No. QTJ15022).
There is an increasing demand for advanced optical imaging techniques that can detect and resolve nanosize objects at a spatial resolution below the optical diffraction limit, especially in three-dimensional (3D) ce...
关键词:anisotropic nanopartide localized surface plasmon resonance (LSPR) scattering imaging polarization microscopy orientation-dependent localization microscopy three-dimensional (3D) imaging 
Fabrication of cost-effective, highly reproducible large area arrays of nanotriangular pillars for surface enhanced Raman scattering substrates被引量:2
《Nano Research》2016年第10期3075-3083,共9页Kudilatt Hasna Aldrin Antony Joaquim Puigdollers Kumaran Rajeev Kumar Madambi Kunjukuttan Jayaraj 
Development of cost-effective, highly reproducible non-conventional fabrication techniques for anisotropic metal nanostructures is essential to realizing potential applications of plasmonic devices, photonic devices, ...
关键词:metal nanostructures localized surface plasmon resonance (LSPR) surface enhanced Ramanscattering (SERS) substrate enhancement factor 
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