Surface Modification of Polybenzimidazole (PBI) with Microwave Generated Vacuum Ultraviolet (VUV) Photo-oxidation

IF 0.9 Q4 CHEMISTRY, MULTIDISCIPLINARY Current Microwave Chemistry Pub Date : 2021-09-08 DOI:10.2174/2213335608666210908123730
Timothy Kovach, S. Boyd, Anthony Garcia, A. Fleischer, Katerine Vega, Regina Hilfiker, Joel Shertok, M. Mehan, Surendra K. Gupta, G. Takacs
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引用次数: 1

Abstract

Polybenzimidazole (PBI) is used in high temperature proton exchange membrane fuel cells (HT-PEMFCs) and redox flow batteries, where proton transfer occurs with the nitrogen-containing groups in PBI, and in aerospace applications exposed to oxygen and radiation. The objective is to investigate VUV photo-oxidation of PBI for the first time in order to incorporate polar functional groups on the surface to potentially enhance proton conductivity in HT-PEMFCs. A low-pressure microwave discharge of Ar generated 104.8 and 106.7 nm vacuum UV (VUV) radiation to treat PBI with VUV photo-oxidation. Analysis was done with X-ray Photoelectron Spectroscopy (XPS), Atomic Force Microscopy (AFM), water contact angle (WCA) and Thermal Gravimetric Analysis (TGA) to detect changes in chemistry, surface roughness, hydrophilicity, and adhesion, respectively. XPS showed: an increase in the O concentration up to a saturation level of 15 ± 1 at %; a decrease of the C concentration by about the same amount; and little change in the N concentration. With increasing treatment time, there were significant decreases in the concentrations of C-C sp2, C-C sp3 and C=N groups, and increases in the concentration of C=O, O-C=O, O-(C=O)-O, C-N, and N-C=O containing moieties. The water contact angle decreased from 83° for pristine PBI down to 43°, making the surface more hydrophilic, primarily due to the oxidation, since AFM detected no significant changes in surface roughness. TGA analysis showed an improvement of water adhesion to the treated surface. Microwave generated VUV photo-oxidation is an effective technique for oxidizing the surface of PBI and increasing hydrophilicity.
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微波真空紫外(VUV)光氧化法修饰聚苯并咪唑(PBI)的表面
聚苯并咪唑(PBI)用于高温质子交换膜燃料电池(ht - pemfc)和氧化还原液流电池,其中质子与PBI中的含氮基团发生转移,以及暴露于氧气和辐射的航空航天应用。目的是首次研究VUV光氧化PBI,以便在表面加入极性官能团,以潜在地增强ht - pemfc中的质子电导率。低压微波氩气放电产生104.8 nm和106.7 nm的真空紫外(VUV)辐射,用VUV光氧化处理PBI。采用x射线光电子能谱(XPS)、原子力显微镜(AFM)、水接触角(WCA)和热重分析(TGA)分别检测化学成分、表面粗糙度、亲水性和附着力的变化。XPS显示:O浓度在%时增加到15±1的饱和水平;C浓度降低了大约相同的幅度;氮浓度变化不大。随着处理时间的延长,C-C sp2、C-C sp3和C=N组的浓度显著降低,含C=O、O-C=O、O-(C=O)-O、C-N和N-C=O基团的浓度增加。水接触角从原始PBI的83°下降到43°,使表面更亲水,主要是由于氧化,因为AFM检测到表面粗糙度没有明显变化。TGA分析表明,处理后表面的水附着力有所改善。微波VUV光氧化是一种有效的氧化PBI表面和提高亲水性的技术。
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来源期刊
Current Microwave Chemistry
Current Microwave Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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