Sensitive Detection of Separated Charges in Nanohybrids by Laser Excitation Mass Spectrometry with Tetrabutylammonium Cationic Probe

Cheng Yu-Hong; Ng Kwan-Ming

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Sensitive Detection of Separated Charges in Nanohybrids by Laser Excitation Mass Spectrometry with Tetrabutylammonium Cationic Probe

机译：用四丁基阳离子探针激光激发质谱法敏感检测纳米油状分离电荷

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Charge separation lays the foundation for photocatalysis and photovoltaics, in which the catalytic/voltaic efficiency is primarily related to the amount of separated charges generated. Yet, direct experimental approaches for the quantification of separated charges are very limited, especially for nanostructures in small quantities. Here, by laser excitation mass spectrometry with tetrabutylammonium as a sensitive probe, the separated charges in gold-metal sulfide core-shell nanostructures are determined and correlated with the bandgap of the semiconductor shell. Moreover, the separated charges formed can already be detected unambiguously in only an attomole-level of nanoparticles (i.e., 1 x 10(8) NPs).

机译：电荷分离为光催化和光伏的基础奠定了光催化和光伏的基础，其中催化/电压效率主要与所产生的分离电荷的量相关。然而，用于定量分离电荷的直接实验方法非常有限，特别是对于少量纳米结构。这里，通过用四丁基铵作为敏感探针的激光激发质谱，确定金金属硫化物核 - 壳纳米结构中的分离电荷与半导体壳的带隙相关。此外，所形成的分离的电荷已经仅在纳米颗粒（即1×10（8）个NPS）中毫不含糊地检测。

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《Analytical chemistry》 |2020年第15期|共6页
作者
Cheng Yu-Hong; Ng Kwan-Ming;
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Univ Hong Kong Dept Chem Hong Kong Peoples R China;

Univ Hong Kong Dept Chem Hong Kong Peoples R China;

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正文语种 eng
中图分类分析化学;
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1. Sensitive Detection of Separated Charges in Nanohybrids by Laser Excitation Mass Spectrometry with Tetrabutylammonium Cationic Probe [J] . Cheng Yu-Hong, Ng Kwan-Ming Analytical chemistry . 2020,第15期

机译：用四丁基阳离子探针激光激发质谱法敏感检测纳米油状分离电荷
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Sensitive Detection of Separated Charges in Nanohybrids by Laser Excitation Mass Spectrometry with Tetrabutylammonium Cationic Probe

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