Mechanism of hydrogen adsorption on gold nanoparticles and charge transfer probed by anisotropic surface plasmon resonance

Watkins William L.; Borensztein Yves

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Mechanism of hydrogen adsorption on gold nanoparticles and charge transfer probed by anisotropic surface plasmon resonance

机译：通过各向异性表面等离子体共振探测金纳米颗粒和电荷转移的氢吸附机理

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The adsorption of hydrogen on Au nanoparticles (NPs) of size of the order of 10 nm has been investigated by use of localised surface plasmon resonances (LSPR) in the NPs. The samples, formed by Au NPs obtained by oblique angle deposition on glass substrates, display a strong optical dichroism due to two different plasmon resonances dependent on the polarisation of light. This ensured the use of Transmittance Anisotropy Spectroscopy, a sensitive derivative optical technique, which permitted one to measure shifts of the LSPR as small as 0.02 nm upon H adsorption, which are not accessible by conventional plasmonic methods. The measured signal is proportional to the area of the NPs, which shows that H atoms diffuse on their facets. A negative charge transfer from Au to H is clearly demonstrated.

机译：通过在NPS中使用局部表面等离子体共振（LSPR），研究了10nm尺寸的Au纳米粒子（NPS）对Au纳米颗粒（NPS）的吸附。由玻璃基板上的倾斜角沉积获得的Au NP形成的样品，由于两种不同的等离子体共振而显示出强光学二色性，这取决于光的偏振。这确保了使用透射率各向异性光谱，敏感衍生光学技术，该技术允许一个允许在H吸附时测量LSP的LSPR的变化，这是不可通过常规等离子体方法可访问的0.02nm。测量信号与NPS的面积成比例，这表明H原子在其刻面上漫射。清楚地证明了来自AU到H的负电荷转移。

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《Physical chemistry chemical physics: PCCP》 |2017年第40期|共9页
作者
Watkins William L.; Borensztein Yves;
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Sorbonne Univ UPMC Univ Paris 06 CNRS UMR 7588 Inst NanoSci Paris F-75005 Paris France;

Sorbonne Univ UPMC Univ Paris 06 CNRS UMR 7588 Inst NanoSci Paris F-75005 Paris France;

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正文语种 eng
中图分类物理学;化学;
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1. Mechanism of hydrogen adsorption on gold nanoparticles and charge transfer probed by anisotropic surface plasmon resonance [J] . Watkins William L., Borensztein Yves Physical chemistry chemical physics: PCCP . 2017,第40期

机译：通过各向异性表面等离子体共振探测金纳米颗粒和电荷转移的氢吸附机理
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3. Anisotropic light absorption by localized surface plasmon resonance in a thin film of gold nanoparticles studied by visible multiple-angle incidence resolution spectrometry [J] . Akiyoshi Kasuya, Yuki Itoh, Tetsuo Okada Physical chemistry chemical physics: PCCP . 2011,第20期

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4. Finite-Difference Time-Domain Simulation of Localized Surface Plasmon Resonance Adsorption by Gold Nanoparticles [C] . Wen-Chi Lin, Wen-Chen Lin, Cheng-Lun Tsai WACBE World Congress on Bioengineering . 2015

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5. Gold Nanoparticle-Based Surface Plasmon Mediated Surface-Enhanced Raman Scattering and Energy Transfer Platforms for Sensing Applications [D] . Li, Ming 2012

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6. Anisotropic shift of surface plasmon resonance of gold nanoparticles doped in nematic liquid crystal [O] . Amit Choudhary, Guoqiang Li -1

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7. Mechanism of hydrogen adsorption on gold nanoparticles and charge transfer probed by anisotropic surface plasmon resonance [O] . Watkins, William,, Borensztein, Yves 2017

机译：氢吸附在金纳米颗粒上的机理和各向异性表面等离子体激元共振探测的电荷转移
8. Surface Plasmon Resonance Spectroscopy of Gold Nanoparticle-Coated Substrates: Use as an Indicator of Exposure to Chemical Warfare Simulants [R] . Pedersen, D. B. , Duncan, E. J. 2005

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Mechanism of hydrogen adsorption on gold nanoparticles and charge transfer probed by anisotropic surface plasmon resonance

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