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用于工业运行条件下绿色制氢的铬掺杂NiBP微球电催化剂

Chromium-Doped NiBP Micro-Sphere Electrocatalysts for Green Hydrogen Production under Industrial Operational Conditions.

作者信息

Habib Md Ahasan, Lin Shusen, Dristy Sumiya Akter, Joni Mehedi Hasan, Mandavkar Rutuja, Jeong Jae-Hun, Lee Jihoon

机构信息

Department of Electronic Engineering, College of Electronics and Information, Kwangwoon University, Nowon-gu, Seoul, 01897, South Korea.

出版信息

Small Methods. 2025 Jul;9(7):e2401939. doi: 10.1002/smtd.202401939. Epub 2025 Jan 19.

DOI:10.1002/smtd.202401939
PMID:39828627
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12285639/
Abstract

Wide spread adaptation of green hydrogen can help to mitigate the serious climate issues, increasing global energy demands and the development of advanced electrocatalysts robust under industrial conditions is one of the key technological challenges. Herein, chromium-doped nickel-boride-phosphide (Cr/NiBP) micro sphere (MS) electrocatalyst is demonstrated via a two-step hydrothermal approach along with post-annealing. The Cr/NiBP MS demonstrates low hydrogen evolution reaction and oxygen evaluation reaction over potentials of 78 and 250 mV at 100 mA cm in 1 m KOH, out performing most of the reported catalysts. The Cr/NiBP ǁ Cr/NiBP exhibits only 1.54 V at 100 mA cm in 1 m KOH and surpasses the benchmark of RuO (+) ǁ Pt/C (-) up to 2000 mA cm, which sets it as one of the best bifunctional electrocatalysts. Impressively, it maintains stable performance for over 240 h at 1000 mA cm in 6 m KOH at 60°C, demonstrating rapid response, anti-corrosion resistance, and robust structural integrity to meet the industrial operational conditions. Further, Cr/NiBP ǁ Pt/C exhibits a super-low cell-voltage of 2.25 V at 2000 mA cm. The small amount of Cr atoms incorporation can significantly enhance active sites and intrinsic properties, accelerating water dissociation and rapid intermediate formation.

摘要

广泛采用绿色氢能有助于缓解严重的气候问题,全球能源需求不断增加,开发在工业条件下稳定的先进电催化剂是关键技术挑战之一。在此,通过两步水热法结合退火制备了铬掺杂镍硼磷(Cr/NiBP)微球(MS)电催化剂。Cr/NiBP MS在1 m KOH中,100 mA cm-2时析氢反应和析氧反应的过电位分别低至78和250 mV,性能优于大多数已报道的催化剂。Cr/NiBPǁCr/NiBP在1 m KOH中,100 mA cm-2时仅表现出1.54 V的电压,在高达2000 mA cm-2时超过了RuO₂(+)ǁPt/C(-)的基准,使其成为最佳双功能电催化剂之一。令人印象深刻的是,它在60°C的6 m KOH中,1000 mA cm-2下保持稳定性能超过240小时,表现出快速响应、抗腐蚀和强大的结构完整性,以满足工业运行条件。此外,Cr/NiBPǁPt/C在2000 mA cm-2时表现出2.25 V的超低电池电压。少量Cr原子的掺入可以显著增强活性位点和本征性能,加速水的解离和快速中间体的形成。

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Doping of Cr to Regulate the Valence State of Cu and Co Contributes to Efficient Water Splitting.掺杂铬以调节铜和钴的价态有助于高效水分解。
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