Tailored Metal-Porphyrin Based Molecular Electrocatalysts for Enhanced Artificial Nitrogen Fixation to Green Ammonia

IF 4.4 4区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Giorgia Salerno, Ottavia Bettucci, Norberto Manfredi, Luca Stendardo, Eleonora Veronese, Pierangelo Metrangolo, Alessandro Abbotto
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Abstract

Electrochemical nitrogen reduction (E-NRR) is one of the most promising approaches to generate green NH3. However, scarce ammonia yields and Faradaic efficiencies (FE) still limit their use on a large scale. Thus, efforts are focusing on different E-NRR catalyst structures and formulations. Among present strategies, molecular electrocatalysts such as metal-porphyrins emerge as an encouraging option due to their planar structures which favor the interaction involving the metal center, responsible for adsorption and activation of nitrogen. Nevertheless, the high hydrophobicity of porphyrins limits the aqueous electrolyte–catalyst interaction lowering yields. This work introduces a new class of metal-porphyrin based catalysts, bearing hydrophilic tris(ethyleneglycol) monomethyl ether chains (metal = Cu(II) and CoII)). Experimental results show that the presence of hydrophilic chains significantly increases ammonia yields and FE, supporting the relevance of fruitful catalyst-electrolyte interactions. This study also investigates the use of hydrophobic branched alkyl chains for comparison, resulting in similar performances with respect to the unsubstituted metal-porphyrin, taken as a reference, further confirming that the appropriate design of electrocatalysts carrying peripheral hydrophilic substituents is able to improve device performances in the generation of green ammonia.

Abstract Image

基于金属卟啉的定制分子电催化剂,用于增强人工固氮作用,生成绿色氨气
电化学氮还原(E-NRR)是生成绿色 NH3 的最有前途的方法之一。然而,稀少的氨产量和法拉第效率(FE)仍然限制了其大规模使用。因此,人们正致力于研究不同的 E-NRR 催化剂结构和配方。在目前的策略中,分子电催化剂(如金属卟啉)是一个令人鼓舞的选择,因为它们的平面结构有利于金属中心的相互作用,从而负责氮的吸附和活化。然而,卟啉的高疏水性限制了水性电解质与催化剂的相互作用,从而降低了产量。本研究介绍了一类新的基于金属-卟啉的催化剂,它们带有亲水性三(乙二醇)单甲醚链(金属 = Cu(II) 和 CoII)。实验结果表明,亲水链的存在显著提高了氨产量和 FE,支持了催化剂与电解质之间富有成效的相互作用。本研究还对疏水支链烷基链的使用进行了比较,结果与作为参考的未取代金属卟啉的性能相似,这进一步证实了适当设计带有外围亲水取代基的电催化剂能够提高生成绿色氨的装置性能。
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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来源期刊
Global Challenges
Global Challenges MULTIDISCIPLINARY SCIENCES-
CiteScore
8.70
自引率
0.00%
发文量
79
审稿时长
16 weeks
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