用于光电化学应用的聚合氮化碳：开环诱导降解

Polymeric Carbon Nitrides for Photoelectrochemical Applications: Ring Opening-Induced Degradation.

作者信息

Maxim Florentina Iuliana, Tanasa Eugenia, Mitrea Bogdan, Diac Cornelia, Skála Tomáš, Tanase Liviu Cristian, Ianăși Cătălin, Ciocanea Adrian, Antohe Stefan, Vasile Eugeniu, Fagadar-Cosma Eugenia, Stamatin Serban N

机构信息

3Nano-SAE Research Centre, University of Bucharest, Atomistilor 405, 077125 Magurele, Romania.

Department of Oxide Materials and Nanomaterials, Faculty of Applied Chemistry and Material Science, University POLITEHNICA of Bucharest, 060042 Bucharest, Romania.

出版信息

Nanomaterials (Basel). 2023 Mar 31;13(7):1248. doi: 10.3390/nano13071248.

DOI:10.3390/nano13071248

PMID:37049341

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10097008/

Abstract

Active and stable materials that utilize solar radiation for promoting different reactions are critical for emerging technologies. Two of the most common polymeric carbon nitrides were prepared by the thermal polycondensation of melamine. The scope of this work is to investigate possible structural degradation before and after photoelectrochemical testing. The materials were characterized using synchrotron radiation and lab-based techniques, and subsequently degraded photoelectrochemically, followed by post-mortem analysis. Post-mortem investigations reveal: (1) carbon atoms bonded to three nitrogen atoms change into carbon atoms bonded to two nitrogen atoms and (2) the presence of methylene terminals in post-mortem materials. The study concludes that polymeric carbon nitrides are susceptible to photoelectrochemical degradation via ring opening.

摘要

利用太阳辐射促进不同反应的活性和稳定材料对于新兴技术至关重要。两种最常见的聚合碳氮化物是通过三聚氰胺的热缩聚制备的。这项工作的范围是研究光电化学测试前后可能的结构降解。使用同步辐射和基于实验室的技术对材料进行表征，随后进行光电化学降解，然后进行事后分析。事后调查显示：（1）与三个氮原子键合的碳原子转变为与两个氮原子键合的碳原子，以及（2）事后材料中存在亚甲基末端。该研究得出结论，聚合碳氮化物易通过开环发生光电化学降解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5eb2/10097008/927eb6522ab5/nanomaterials-13-01248-g001.jpg

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用于光电化学应用的聚合氮化碳：开环诱导降解

Polymeric Carbon Nitrides for Photoelectrochemical Applications: Ring Opening-Induced Degradation.

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