Smith Lachlan O, Thatcher Kathryn M, Henderson-Walshe Oscar J, Crittenden Deborah L
School of Physical and Chemical Sciences, University of Canterbury, Christchurch, New Zealand.
Chemistry. 2024 Aug 27;30(48):e202400573. doi: 10.1002/chem.202400573. Epub 2024 Aug 12.
Organic dyes hold promise as inexpensive electrochemically-active building blocks for new renewable energy technologies such as redox-flow batteries and dye-sensitised solar cells, especially if they display high oxidation and/or low reduction potentials in cheap, non-flammable solvents such as water or protic ionic liquids. Systematic computational and experimental characterisation of a representative selection of acidic and basic dyes in buffered aqueous solutions and propylammonium formate confirm that quinoid-type mechanisms impart electrochemical reversibility for the majority of systems investigated, including quinones, fused tricyclic heteroaromatics, indigo carmine and some aromatic nitrogenous species. Conversely, systems that generate longlived radical intermediates - arylmethanes, hydroquinones at high pH, azocyclic systems - tend to display irreversible electrochemistry, likely undergoing ring-opening, dimerisation and/or disproportionation reactions.
有机染料有望成为用于氧化还原液流电池和染料敏化太阳能电池等新型可再生能源技术的廉价电化学活性构建块,特别是当它们在水或质子离子液体等廉价、不可燃溶剂中显示出高氧化电位和/或低还原电位时。对缓冲水溶液和甲酸丙铵中代表性的酸性和碱性染料进行系统的计算和实验表征证实,醌型机制赋予了所研究的大多数体系电化学可逆性,包括醌类、稠合三环杂芳烃、靛蓝胭脂红和一些芳香含氮物种。相反,生成寿命较长的自由基中间体的体系——芳基甲烷、高pH值下的对苯二酚、偶氮环体系——往往表现出不可逆的电化学性质,可能会发生开环、二聚和/或歧化反应。
