Controlled Synthesis of Carbon-Supported Pt-Based Electrocatalysts for Proton Exchange Membrane Fuel Cells.

IF 28.4 1区 材料科学 Q1 ELECTROCHEMISTRY Electrochemical Energy Reviews Pub Date : 2022-01-01 DOI:10.1007/s41918-022-00173-3
Huiyuan Liu, Jian Zhao, Xianguo Li
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引用次数: 13

Abstract

Proton exchange membrane fuel cells are playing an increasing role in postpandemic economic recovery and climate action plans. However, their performance, cost, and durability are significantly related to Pt-based electrocatalysts, hampering their large-scale commercial application. Hence, considerable efforts have been devoted to improving the activity and durability of Pt-based electrocatalysts by controlled synthesis in recent years as an effective method for decreasing Pt use, and consequently, the cost. Therefore, this review article focuses on the synthesis processes of carbon-supported Pt-based electrocatalysts, which significantly affect the nanoparticle size, shape, and dispersion on supports and thus the activity and durability of the prepared electrocatalysts. The reviewed processes include (i) the functionalization of a commercial carbon support for enhanced catalyst-support interaction and additional catalytic effects, (ii) the methods for loading Pt-based electrocatalysts onto a carbon support that impact the manufacturing costs of electrocatalysts, (iii) the preparation of spherical and nonspherical Pt-based electrocatalysts (polyhedrons, nanocages, nanoframes, one- and two-dimensional nanostructures), and (iv) the postsynthesis treatments of supported electrocatalysts. The influences of the supports, key experimental parameters, and postsynthesis treatments on Pt-based electrocatalysts are scrutinized in detail. Future research directions are outlined, including (i) the full exploitation of the potential functionalization of commercial carbon supports, (ii) scaled-up one-pot synthesis of carbon-supported Pt-based electrocatalysts, and (iii) simplification of postsynthesis treatments. One-pot synthesis in aqueous instead of organic reaction systems and the minimal use of organic ligands are preferred to simplify the synthesis and postsynthesis treatment processes and to promote the mass production of commercial carbon-supported Pt-based electrocatalysts.

Graphical abstract: This review focuses on the synthesis process of Pt-based electrocatalysts/C to develop aqueous one-pot synthesis at large-scale production for PEMFC stack application.

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质子交换膜燃料电池碳负载pt基电催化剂的可控合成。
质子交换膜燃料电池在大流行后的经济复苏和气候行动计划中发挥着越来越大的作用。然而,它们的性能、成本和耐用性与基于pt的电催化剂有很大关系,阻碍了它们的大规模商业应用。因此,近年来人们致力于通过控制合成的方法来提高Pt基电催化剂的活性和耐久性,以减少Pt的使用,从而降低成本。因此,本文对碳负载pt基电催化剂的合成工艺进行了综述,这些工艺对纳米颗粒的大小、形状和在载体上的分散以及所制备的电催化剂的活性和耐久性有重要影响。回顾的过程包括(i)商业碳载体的功能化,以增强催化剂-载体相互作用和额外的催化效应,(ii)将基于pt的电催化剂装载到碳载体上的方法,这影响了电催化剂的制造成本,(iii)球形和非球形pt基电催化剂(多面体,纳米笼,纳米框架,一维和二维纳米结构)的制备,(四)负载型电催化剂的合成后处理。详细讨论了载体、关键实验参数和合成后处理对pt基电催化剂的影响。概述了未来的研究方向,包括:(i)充分利用商业碳载体的潜在功能化,(ii)扩大碳负载pt基电催化剂的一锅合成规模,以及(iii)简化合成后处理。为了简化合成和合成后的处理过程,促进商业化碳负载pt基电催化剂的大规模生产,首选的方法是在水中进行一锅合成,而不是在有机反应体系中进行一锅合成,并且有机配体的使用最少。摘要:本文综述了基于pt的电催化剂/C的合成工艺,以开发大规模生产的用于PEMFC堆的水相一锅合成技术。
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来源期刊
Electrochemical Energy Reviews
Electrochemical Energy Reviews ELECTROCHEMISTRY-
CiteScore
41.90
自引率
1.60%
发文量
25
期刊介绍: Shanghai University and the International Academy of Electrochemical Energy Science (IAOEES) collaborate to oversee Electrochemical Energy Reviews (EER). As the premier review journal of IAOEES, EER solely publishes top-tier scientific review articles that delve into the cutting-edge field of Advanced Materials for Electrochemical Energy Science and Technology.
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