制备三维多孔过渡金属氮化物作为灵敏且稳定的拉曼基底的通用熔盐法。

General molten-salt route to three-dimensional porous transition metal nitrides as sensitive and stable Raman substrates.

作者信息

Guan Haomin, Li Wentao, Han Jing, Yi Wencai, Bai Hua, Kong Qinghong, Xi Guangcheng

机构信息

Institute of Industrial and Consumer Product Safety, Chinese Academy of Inspection and Quarantine, Beijing, P. R. China.

School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang, P. R. China.

出版信息

Nat Commun. 2021 Mar 2;12(1):1376. doi: 10.1038/s41467-021-21693-4.

DOI:10.1038/s41467-021-21693-4

PMID:33654080

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7925654/

Abstract

Transition metal nitrides have been widely studied due to their high electrical conductivity and excellent chemical stability. However, their preparation traditionally requires harsh conditions because of the ultrahigh activation energy barrier they need to cross in nucleation. Herein, we report three-dimensional porous VN, MoN, WN, and TiN with high surface area and porosity that are prepared by a general and mild molten-salt route. Trace water is found to be a key factor for the formation of these porous transition metal nitrides. The porous transition metal nitrides show hydrophobic surface and can adsorb a series of organic compounds with high capacity. Among them, the porous VN shows strong surface plasmon resonance, high conductivity, and a remarkable photothermal conversion efficiency. As a new type of corrosion- and radiation-resistant surface-enhanced Raman scattering substrate, the porous VN exhibits an ultrasensitive detection limit of 10 M for polychlorophenol.

摘要

过渡金属氮化物因其高电导率和出色的化学稳定性而受到广泛研究。然而，由于它们在成核过程中需要跨越超高的活化能垒，其传统制备方法需要苛刻的条件。在此，我们报道了通过通用且温和的熔盐路线制备的具有高表面积和孔隙率的三维多孔VN、MoN、WN和TiN。发现微量水是这些多孔过渡金属氮化物形成的关键因素。多孔过渡金属氮化物具有疏水表面，能够高容量吸附一系列有机化合物。其中，多孔VN表现出强烈的表面等离子体共振、高电导率和显著的光热转换效率。作为一种新型的耐腐蚀和抗辐射表面增强拉曼散射基底，多孔VN对多氯苯酚的检测限低至10⁻¹⁰ M。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fe97/7925654/84877fb61aa3/41467_2021_21693_Fig1_HTML.jpg

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制备三维多孔过渡金属氮化物作为灵敏且稳定的拉曼基底的通用熔盐法。

General molten-salt route to three-dimensional porous transition metal nitrides as sensitive and stable Raman substrates.

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