在缺氧化物的熔盐中促进白磷的电解合成。

Electrolytic Synthesis of White Phosphorus Is Promoted in Oxide-Deficient Molten Salts.

作者信息

Melville Jonathan F, Licini Andrew J, Surendranath Yogesh

机构信息

Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts02139, United States.

出版信息

ACS Cent Sci. 2023 Feb 21;9(3):373-380. doi: 10.1021/acscentsci.2c01336. eCollection 2023 Mar 22.

DOI:10.1021/acscentsci.2c01336

PMID:36968533

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10037495/

Abstract

Elemental white phosphorus (P) is a key feedstock for the entire phosphorus-derived chemicals industry, spanning everything from herbicides to food additives. The electrochemical reduction of phosphate salts could enable the sustainable production of P; however, such electrosynthesis requires the cleavage of strong, inert P-O bonds. By analogy to the promotion of bond activation in aqueous electrolytes with high proton activity (Brønsted-Lowry acidity), we show that low oxide anion activity (Lux-Flood acidity) enhances P-O bond activation in molten salt electrolytes. We develop electroanalytical tools to quantify the oxide dependence of phosphate reduction, and find that Lux acidic phosphoryl anhydride linkages enable selective, high-efficiency electrosynthesis of P at a yield of 95% Faradaic efficiency. These fundamental studies provide a foundation that may enable the development of low-carbon alternatives to legacy carbothermal synthesis of P.

摘要

元素白磷（P）是整个磷衍生化学品行业的关键原料，涵盖从除草剂到食品添加剂的所有产品。磷酸盐的电化学还原能够实现白磷的可持续生产；然而，这种电合成需要断裂强的、惰性的P-O键。类似于在具有高质子活性（布朗斯特-劳里酸度）的水性电解质中促进键活化，我们表明低氧化物阴离子活性（卢克斯-弗洛德酸度）可增强熔融盐电解质中的P-O键活化。我们开发了电分析工具来量化磷酸盐还原对氧化物的依赖性，并发现卢克斯酸性磷酰酐键能够以95%的法拉第效率实现白磷的选择性、高效电合成。这些基础研究为开发传统碳热法合成白磷的低碳替代方法奠定了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b86/10037495/291f2499cefb/oc2c01336_0001.jpg

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在缺氧化物的熔盐中促进白磷的电解合成。

Electrolytic Synthesis of White Phosphorus Is Promoted in Oxide-Deficient Molten Salts.

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