Synthesis of low cost cathode electrocatalyst Pt-Ni/CAB using DMSO as a solvent for low temperature proton exchange membrane fuel cell application

IF 1.6 4区工程技术 Q3 ENGINEERING, CHEMICAL

Canadian Journal of Chemical Engineering Pub Date : 2024-05-16 DOI:10.1002/cjce.25306

Abhay Pratap Singh, Hiralal Pramanik

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Abstract

In the present study, low cost platinum based bimetallic electrocatalyst Pt-Ni/C_AB with varying Pt to Ni atomic ratios 3:1, 1:1, and 1:3 were successfully synthesized for oxygen reduction reaction (ORR) of the developed proton exchange membrane fuel cell (PEMFC). The solvothermal process was adopted for the synthesis of Pt-Ni(3:1)/C_AB, Pt-Ni(1:1)/C_AB, and Pt-Ni(1:3)/C_AB using dimethyl sulfoxide (DMSO) as solvent at a temperature of 190°C which is very close to the boiling point. The Pt-Ni/C_AB exhibited the highest activity for the ORR in half-cell and single cell PEMFC performance. The electrocatalysts Pt-Ni(1:3)/C_AB appeared with smallest crystalline FCC structures having crystallite size of 8.33 nm. The transmission electron microscopy (TEM) analysis also show that the Pt-Ni(1:3)/C_AB has smallest particle size of 1.67 ± 0.45 nm. The cyclic voltammetry (CV) analysis shows Pt-Ni(1:3)/C_AB electrocatalyst offers less activation loss at ORR peak at a potential of 0.16 V as compared to Pt-Ni(3:1)/C_AB (ORR peak – 0.12) and Pt-Ni(1:1)/C_AB (ORR peak – 0.11). The synthesized Pt-Ni(1:3)/C_AB produced a maximum power density of 18.86 mW/cm² at a maximum current density of 44.8 mA/cm² with an open-circuit voltage of 0.914 V at a room temperature of 33°C. The power density improved around 1.34 times when the cell temperature was raised from 33 to 70°C. The Pt-Ni(1:3)/C_AB cathode electrocatalyst could be used as economical to substitute costly commercial pure platinum based electrocatalyst.

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以 DMSO 为溶剂合成用于低温质子交换膜燃料电池的低成本阴极电催化剂 Pt-Ni/CAB

本研究成功合成了不同铂镍原子比为 3:1、1:1 和 1:3 的低成本铂基双金属电催化剂 Pt-Ni/CAB，用于所开发质子交换膜燃料电池（PEMFC）的氧还原反应（ORR）。合成铂镍(3:1)/CAB、铂镍(1:1)/CAB 和铂镍(1:3)/CAB 时采用了溶热法，以二甲基亚砜（DMSO）为溶剂，温度为 190°C，非常接近沸点。在半电池和单电池 PEMFC 性能中，Pt-Ni/CAB 的 ORR 活性最高。铂镍(1:3)/CAB电催化剂具有结晶尺寸为 8.33 nm 的最小晶体 FCC 结构。透射电子显微镜（TEM）分析也显示，Pt-Ni(1:3)/CAB 的最小粒径为 1.67 ± 0.45 nm。循环伏安 (CV) 分析表明，与 Pt-Ni(3:1)/CAB（ORR 峰值 - 0.12）和 Pt-Ni(1:1)/CAB（ORR 峰值 - 0.11）相比，Pt-Ni(1:3)/CAB 电催化剂在 0.16 V 电位时的 ORR 峰值活化损失较小。合成的铂-镍(1:3)/CAB 在室温 33°C 时的最大功率密度为 18.86 mW/cm2，最大电流密度为 44.8 mA/cm2，开路电压为 0.914 V。当电池温度从 33°C 升至 70°C 时，功率密度提高了约 1.34 倍。铂镍(1:3)/CAB阴极电催化剂可以经济地替代昂贵的商用纯铂电催化剂。

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来源期刊

Canadian Journal of Chemical Engineering 工程技术-工程：化工

CiteScore

3.60

自引率

14.30%

发文量

448

审稿时长

3.2 months

期刊介绍： The Canadian Journal of Chemical Engineering (CJChE) publishes original research articles, new theoretical interpretation or experimental findings and critical reviews in the science or industrial practice of chemical and biochemical processes. Preference is given to papers having a clearly indicated scope and applicability in any of the following areas: Fluid mechanics, heat and mass transfer, multiphase flows, separations processes, thermodynamics, process systems engineering, reactors and reaction kinetics, catalysis, interfacial phenomena, electrochemical phenomena, bioengineering, minerals processing and natural products and environmental and energy engineering. Papers that merely describe or present a conventional or routine analysis of existing processes will not be considered.