Thin-layer electrochemical reaction cell for in-situ detection by nonlinear spectrum

An in-situ technology of chemical reaction and spectroscopy, applied in the field of thin-layer electrochemical reaction cells, can solve the problems affecting the second-order nonlinear signal strength and the limitations of the use of electrolytic cells, and achieve good sealing, reduced thickness, and easy installation Effect

Active Publication Date: 2019-07-16
INST OF CHEM CHINESE ACAD OF SCI
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Problems solved by technology

[0007] In view of the above analysis, the present application aims to provide a thin-layer electrochemical reaction cell for in-situ detection of nonlinear spectroscopy, which solves the problem that the in...

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  • Thin-layer electrochemical reaction cell for in-situ detection by nonlinear spectrum

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Embodiment 1

[0030] This embodiment provides a thin-layer electrochemical reaction cell for in-situ detection of nonlinear spectroscopy, see figure 1 , including a working electrode 5 (for example, a platinum plate electrode), a counter electrode 7 (for example, a platinum wire or a platinum column electrode), a reference electrode 9 (for example, Ag / AgCl or Ag / Ag + Electrode), electrolytic cell 3, conductive base 6 and conductive column 8, wherein, reference electrode 9, counter electrode 7 and conductive column 8 are arranged on the front end of electrolytic cell 3, and working electrode 5 is arranged on conductive base 6 and is positioned at electrolytic cell 3; one end of the conductive column 8 is in contact with the conductive base 6, and the other end extends out of the electrolytic cell 3 as the lead wire of the working electrode 5.

[0031] In practical application, the above electrolytic cell 3 can be respectively connected with a potentiostat, a second harmonic spectroscopy devi...

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Abstract

The application discloses a thin-layer electrochemical reaction cell for in-situ detection by a nonlinear spectrum during electrode interface kinetics in an electrochemical system, belongs to the technical field of spectroelectrochemical reaction, and solves the problem in the prior art that the incident light in the electrolytic cell is absorbed by the electrolyte to affect the second-order nonlinear signal strength and the problem of limitations of the electrolytic cell used only by the special shaped working electrode. The thin-layer electrochemical reaction cell provided by the applicationcomprises a working electrode, a counter electrode, a reference electrode, an electrolytic cell, a conductive base and a conductive column, wherein the reference electrode, the counter electrode andthe conductive column are arranged at the front end of the electrolytic cell, the working electrode is arranged on the conductive base and located in the electrolytic cell; one end of the conductive column is in contact with the conductive base, and the other end protrudes out of the electrolytic cell as a lead wire of the working electrode. The thin-layer electrochemical reaction cell provided bythe application can be used for the research of electrode interface dynamics in in-situ detection in an electrochemical system by nonlinear spectrometry.

Description

technical field [0001] The present application relates to a spectroelectrochemical reaction cell, in particular to a thin-layer electrochemical reaction cell used for nonlinear spectroscopic in-situ detection of the kinetic process of an electrode interface in an electrochemical system. Background technique [0002] Electrochemistry is a chemical process involving the transfer or transfer of electrical charges. The rate and mechanism of interfacial charge transfer are largely determined by the potential-dependent interface structure and properties. The understanding of the electronic structure, molecular adsorption, and orientation of the electrode surface is very important for understanding and controlling the electrochemical reaction process. Therefore, , requiring in situ detection of the kinetic processes occurring at the electrochemical interface. [0003] In the prior art, traditional detection methods, such as absorption spectroscopy, infrared spectroscopy, Raman and...

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Application Information

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IPC IPC(8): G01N27/28
CPCG01N27/28
Inventor 张贞白锐朋董斌薛曼郭源
Owner INST OF CHEM CHINESE ACAD OF SCI
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