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A New SERS Method Based on Shell-isolated Nanoparticles for Rapidly Quantitative Determination of Hydrogen Peroxide
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作者 WEN Bao-Ying SHEN Tai-Long +1 位作者 WU Yuan-Fei LI Jian-Feng 《Chinese Journal of Structural Chemistry》 SCIE CAS CSCD 2021年第12期1604-1610,1552,共8页
Hydrogen peroxide(H_(2)O_(2))is an important chemical substance produced in the metabolic process of organisms.Excess or less production could lead to serious effects on the body.Therefore,the development of advanced ... Hydrogen peroxide(H_(2)O_(2))is an important chemical substance produced in the metabolic process of organisms.Excess or less production could lead to serious effects on the body.Therefore,the development of advanced technology to accurately detect the content of H_(2)O_(2) is of great significance.Herein,we developed a new ratiometric SERS nanoprobe based on shell-isolated nanoparticles(SHINs)for rapidly quantitative detection of H_(2)O_(2)-Because of the small Raman cross-section of H_(2)O_(2),the ratiometric nanoprobe is an effective method for indirect detection of H_(2)O_(2),which is designed based on the reaction of p-mercaptophenylboric acid(MPB)with H_(2)O_(2) to form p-mercaptophenol(MP).Meanwhile,the nanoprobe was used to achieve quantitative detection of H_(2)O_(2) and applied in quantitative detection of actual sample-glucose,whose linear correlation coefficient could reach 0.9947 and 0.9812,respectively.This method expands the application of SERS technology,especially provides a reference for the detection of molecules with small Raman cross-section. 展开更多
关键词 hydrogen peroxide surface enhanced Raman spectroscopy shell-isolated nanoparticles RATIOMETRIC GLUCOSE
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Recent advances in Raman spectroelectrochemistry on single-crystal surfaces
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作者 Quan-Feng He Jia Yu +1 位作者 Jin-Chao Dong Jian-Feng Li 《Science China Chemistry》 SCIE EI CAS CSCD 2023年第12期3360-3371,共12页
Benefiting from a principally contaminant-free and well-defined surface,single-crystal electrodes offer new insights into interfacial processes and are important in electrochemistry.The early impetus for using single-... Benefiting from a principally contaminant-free and well-defined surface,single-crystal electrodes offer new insights into interfacial processes and are important in electrochemistry.The early impetus for using single-crystal electrodes in electrocatalysis was to investigate the surface structure at the atomic level for the reactions that are sensitive to the surface.These studies were usually performed in an ultra-high vacuum with atomic force microscopy(AFM),scanning tunneling microscope(STM),and X-ray methods to avoid the contamination.However,such characterizations are limited in their ability to identify chemical species definitively,a limitation that has similarly plagued the study of single-crystals.Recent advances in shellisolated nanoparticle-enhanced Raman spectroscopy(SHINERS)have enabled the detection of reaction intermediates on singlecrystal electrodes,in which shell-isolated nanoparticles on the single-crystal electrode can enhance the Raman signal from the surface,without changing the surface structure and electrochemical response.Thus,this work aims to review recent advances in Raman spectroelectrochemical studies on single-crystal electrode surfaces.The discussion focuses on how SHINERS technology has enabled the effective detection of intermediate species and,when combined with the electrochemical method,has yielded novel insights into the dynamic evolution of surface structure and electrocatalytic reaction mechanisms.Finally,the challenges and future of single-crystal electrodes are introduced. 展开更多
关键词 single-crystal electrode shell-isolated nanoparticle-enhanced Raman spectroscopy interfacial structures adsorption
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