1,3-丙酮二羧酸作为可逆时控 pH 值调节的简单刺激物

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemSystemsChem Pub Date : 2023-10-27 DOI:10.1002/syst.202300037
Vincent Verdoot, Dr. Adrien Quintard
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引用次数: 0

摘要

采用新型活化羧酸对于以更安全的方式长期可逆地转换化学体系至关重要。通过使用廉价的 1,3-丙酮二羧酸,可以降低水溶液的 pH 值,然后随着时间的推移,在二元酸脱羧作用下自动恢复到较高的值。这种脱羧反应可由不同的物质催化,如简单的胺或简单的金属(如铁盐和铜盐)。这一过程会产生 2 个分子的二氧化碳和丙酮作为单一废物,从而大大降低了此类活化酸的毒性。这种弱二元酸的潜力通过二元酸添加时可逆地破坏强凝胶而得到证实,并为其在复杂的化学燃料系统中的应用开辟了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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1,3-Acetonedicarboxylic Acid as a Simple Stimulus for Reversible Time-Controlled pH Modulation

Implementation of new activated carboxylic acids is crucial to switch reversibly chemical systems over time in a safer manner. By applying cheap 1,3-acetonedicarboxylic acid, the pH of aqueous solutions can be decreased before autonomously evolving over time back again to a higher value upon diacid decarboxylation. This decarboxylation can be catalysed by different species such as simple amines or simple metals such as iron and copper salts. This process generates 2 molecules of CO2 and acetone as single waste, considerably decreasing the toxicity associated with such activated acids. The potential of this weak diacid was confirmed by reversibly disrupting a strong gel upon diacid addition and opens the way to the application in complex chemically fuelled systems.

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