Conductive core/shell polymer nanofibres as anode materials for direct ethanol fuel cells

Alexandros Symillidis, Stella Georgiadou, Wen-Feng Lin
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Abstract

A conductive polymer-supported electrocatalyst in the form of fibrous mat has been developed that can be employed as a polymer-based electrode for direct ethanol fuel cells (DEFCs) with promoting effects to the state-of-the art Pd based catalysts. A series of conductive polyaniline (PANI)-containing polymer fibres-supported Pd electrocatalytic electrodes were successfully prepared and tested for the ethanol electro-oxidation reaction (EOR) in alkaline medium. The polymer support was a robust fibrous mat, where the fibres possessed a core-shell configuration. The core part was produced via electrospinning using a mixture of polyacrylonitrile (PAN) and 1-butyl-3-methylimidazolium chloride [BMIm]Cl ionic liquid (IL). The shell was a PANI layer deposited via the chemical polymerisation of aniline monomer. Pd was then electrodeposited on the fibres and the catalysts were tested for the EOR via cyclic voltammetry (CV) in a half-cell configuration and in a temperature range between 25 and 60 °C. The activity of the catalysts tested was measured in terms of activation energy and forward peak current density in the CV and compared to that of glassy carbon (GC)-supported Pd/PANI/PAN/IL fibrous catalysts. The polymer fibre-catalyst samples showed a higher active surface area and significantly lower activation energy than the GC-based ones. Even though the GC-supported catalysts showed a higher activity in terms of current, the Pd/(PAN/IL)-core/PANI-shell fibrous mats were active as well and, in some cases, demonstrated a promoting effect of PANI on Pd for EOR and a much better stability and robustness compared to the former. Furthermore, a series of promoting metals were investigated for these mats, such as Ag, Bi and Cu, with Ag and Bi demonstrating promoting effects compared to monometallic Pd/(PAN/IL)-core/PANI-shell mats in terms of both activation energy and peak current density. This work demonstrates a promising strategy in the arena of development of polymeric mats as anode electrodes for DEFCs, exploiting the benefits of PANI in terms of ease of synthesis, catalyst poisoning prevention, cost and promoting effects.

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导电核/壳聚合物纳米纤维作为直接乙醇燃料电池的负极材料
已经开发了纤维垫形式的导电聚合物负载的电催化剂,其可以用作直接乙醇燃料电池(DEFCs)的聚合物基电极,对现有技术的Pd基催化剂具有促进作用。成功制备了一系列导电聚苯胺(PANI)聚合物纤维负载钯电催化电极,并对其在碱性介质中的乙醇电氧化反应(EOR)进行了测试。聚合物载体是一种坚固的纤维垫,其中纤维具有核壳结构。使用聚丙烯腈(PAN)和1-丁基-3-甲基咪唑鎓氯化物[BMIm]Cl离子液体(IL)的混合物通过静电纺丝制备芯部。壳是通过苯胺单体的化学聚合沉积的PANI层。然后在纤维上电沉积Pd,并在25至60°C的温度范围内,通过循环伏安法(CV)测试催化剂的EOR。测试的催化剂的活性是根据CV中的活化能和正向峰值电流密度来测量的,并与玻璃碳(GC)负载的Pd/PANI/PAN/IL纤维催化剂的活性进行比较。聚合物纤维催化剂样品显示出比基于GC的样品更高的活性表面积和显著更低的活化能。尽管GC负载的催化剂在电流方面表现出更高的活性,但Pd/(PAN/IL)-核/PANI壳纤维垫也具有活性,并且在某些情况下,PANI对提高采收率的Pd具有促进作用,并且与前者相比具有更好的稳定性和稳健性。此外,研究了一系列用于这些垫的促进金属,如Ag、Bi和Cu,与单金属Pd/(PAN/IL)-核/PANI壳垫相比,Ag和Bi在活化能和峰值电流密度方面都表现出促进作用。这项工作展示了在开发聚合物垫作为DEFCs阳极电极方面的一种有前途的策略,利用PANI在易于合成、防止催化剂中毒、成本和促进效果方面的优势。
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