Ultrasonic synthesis of borophene as a 2D electrode material with high electrocatalytic activity for use in fuel cell applications

IF 3.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Carbon Trends Pub Date : 2024-04-20 DOI:10.1016/j.cartre.2024.100356
Ramazan Bayat , Neslihan Esra Celik , Merve Akin , Muhammed Bekmezci , Ebru Halvaci , Tugba Simsek , Güray Kaya , Fatih Sen
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Abstract

Green energy systems must be able to provide a significant proportion of the energy needed to meet the ever-increasing demand for energy. Fuel cells are a promising solution to bridge the gap in the green energy transition. This study aims to enhance the energy efficiency of fuel cells by utilizing 2D supported nanocatalysts in the anode compartment. Borophene was synthesized using the liquid phase exfoliation method to be used as a support structure due to its superior properties. To use borophene as a supporting material in methanol fuel cells, a borophene-palladium hybrid structure (Pd@Borophene) was prepared using the chemical reduction method. The scanning electron microscopy (SEM) images showed that the obtained particle had a partially formed layered structure. The electrocatalytic activity of the Pd@Borophene was investigated through anodic reactions in Direct Methanol Alcohol Fuel Cells (DMFC). Electrochemical analyses were conducted to compare the effect of borophene on Pd and Pd@borophene nanocatalysts on the anodic reaction. The anodic peak current value of methanol oxidation for Pd@borophene was found to be 24.3 mA/cm2, which is approximately four times higher than that of unsupported Pd nanoparticles. Additionally, the ratio of forward current (If) to reverse current (Ib), which serves as an indicator of catalyst poisoning, was determined to be 2.27. This study contributes significant findings to the literature by demonstrating that borophene, an advanced 2D material, can be synthesized using a low-cost liquid phase exfoliation method and can be utilized in fuel cell applications for energy generation.

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超声波合成具有高电催化活性的二维电极材料硼吩以用于燃料电池应用
绿色能源系统必须能够提供满足日益增长的能源需求所需的大部分能源。燃料电池是弥合绿色能源转型差距的一种前景广阔的解决方案。本研究旨在通过在阳极室利用二维支撑纳米催化剂来提高燃料电池的能效。利用液相剥离法合成的硼吩因其优异的性能而被用作支撑结构。为了将硼吩用作甲醇燃料电池的支撑材料,采用化学还原法制备了硼吩-钯杂化结构(Pd@Borophene)。扫描电子显微镜(SEM)图像显示,得到的颗粒具有部分形成的层状结构。通过直接甲醇燃料电池(DMFC)中的阳极反应,研究了 Pd@Borophene 的电催化活性。通过电化学分析,比较了硼吩对 Pd 和 Pd@硼吩纳米催化剂阳极反应的影响。结果发现,Pd@硼吩在甲醇氧化过程中的阳极峰值电流为 24.3 mA/cm2,比未支撑的 Pd 纳米颗粒高出约四倍。此外,作为催化剂中毒指标的正向电流(If)与反向电流(Ib)之比被测定为 2.27。这项研究证明,硼吩是一种先进的二维材料,可以用低成本的液相剥离法合成,并可用于燃料电池的能源生产,为文献研究提供了重要发现。
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来源期刊
Carbon Trends
Carbon Trends Materials Science-Materials Science (miscellaneous)
CiteScore
4.60
自引率
0.00%
发文量
88
审稿时长
77 days
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