用于析氯反应的高性能原子电催化剂。

High-Performing Atomic Electrocatalyst for Chlorine Evolution Reaction.

作者信息

Ha Miran, Thangavel Pandiarajan, Dang Ngoc Kim, Kim Dong Yeon, Sultan Siraj, Lee Jae Sung, Kim Kwang S

机构信息

Center for Superfunctional Materials, Department of Chemistry, Ulsan National Institute of Science and Technology (UNIST), 50 UNIST-gil, Ulsan, 44919, Republic of Korea.

School of Energy & Chemical Engineering, Ulsan National Institute of Science and Technology (UNIST), 50 UNIST-gil, Ulsan, 44919, Republic of Korea.

出版信息

Small. 2023 May;19(20):e2300240. doi: 10.1002/smll.202300240. Epub 2023 Feb 15.

DOI:10.1002/smll.202300240

PMID:36794290

Abstract

Electrocatalysts facilitating chlorine evolution reaction (ClER) play a vital role in chlor-alkali industries. Owing to a huge amount of chlorine consumed worldwide, inexpensive high-performing catalysts for Cl production are highly demanded. Here, a superb ClER catalyst fabricated through uniform dispersion of Pt single atoms (SAs) in C N moieties of N-doped graphene (denoted as Pt-1) is presented, which demonstrates near 100% exclusive ClER selectivity, long-term durability, extraordinary Cl production rate (3500 mmol h g ), and >140 000-fold increased mass activity over industrial electrodes in acidic medium. Excitingly, at the typical chlor-alkali industries' operating temperature (80 °C), Pt-1 supported on carbon paper electrode requires a near thermoneutral ultralow overpotential of 5 mV at 1 mA cm current density to initiate the ClER, consistent with the predicted density functional theory (DFT) calculations. Altogether these results show the promising electrocatalyst of Pt-1 toward ClER.

摘要

促进析氯反应（ClER）的电催化剂在氯碱工业中起着至关重要的作用。由于全球氯的消耗量巨大，因此对用于氯生产的廉价高性能催化剂有很高的需求。在此，我们展示了一种通过将Pt单原子（SAs）均匀分散在氮掺杂石墨烯的C N部分中制备的出色的ClER催化剂（表示为Pt-1），它在酸性介质中表现出近100%的析氯反应选择性、长期耐久性、非凡的产氯速率（3500 mmol h g ），且质量活性比工业电极提高了140000倍以上。令人兴奋的是，在典型的氯碱工业操作温度（80°C）下，碳纸电极上负载的Pt-1在1 mA cm电流密度下启动ClER需要接近热中性的5 mV超低过电位，这与预测的密度泛函理论（DFT）计算结果一致。这些结果共同表明Pt-1是一种很有前景的用于析氯反应的电催化剂。

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用于析氯反应的高性能原子电催化剂。

High-Performing Atomic Electrocatalyst for Chlorine Evolution Reaction.

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