静电纺丝制备质子交换膜燃料电池催化剂层综述

质子交换膜燃料电池催化剂层在成本、耐久性以及性能上的局限是制约燃料电池汽车商业化的瓶颈. 已有文献证明静电纺丝技术制备的纳米纤维催化剂层能提高催化剂利用率、增加三相界面和三相通道以及提高耐久性. 作者结合所在课题组的工作综述了静电纺丝技术制备质子交换膜燃料电池催化剂层的研究进展. 首先,介绍了质子交换膜燃料电池催化剂层的发展历程,并从制备方式和结构两个方面对其进行分类和总结;接下来,从静电纺丝纳米纤维催化剂层的制备、物理特性表征、电化学性能分析及耐久性表征等方面进行了总结;最后,从三相界面、三相通道以及量产适用性的视点比较了三种结构的催化剂层,介绍了质子交换膜燃料电池催化剂层的发展趋势,并梳理了静电纺丝法制备质子交换膜燃料电池催化剂层领域待研的问题.     

基于贝叶斯平滑转移模型的汇率非线性协整关系研究

针对平滑转移模型参数估计不确定性导致的协整检验方法相对复杂问题,提出基于平滑转移模型的贝叶斯非线性协整分析。通过模型的统计结构分析,选择参数先验分布,结合参数的后验条件分布特征设计Metropolis-Hasting-Gibbs混合抽样方案,据此估计平滑转移模型的参数,并对回归残差进行贝叶斯单位根检验,解决参数估计过程中遇到的参数估计不确定性及协整检验复杂的问题;利用人民币对美元汇率与中美两国的利率数据进行实证分析。研究结果表明:MH-Gibbs抽样方案能够有效估计平滑转移模型的参数,中美汇率波动和利差之间存在平滑转移协整关系。     

聚变堆液态包层提氚鼓泡器的概念设计

在气-液接触法提取液态锂合金中的氢的实验基础上,提出了以气-液交换柱为核心的提氚鼓泡器(LBTB)的概念设计。LBTB 主要由气体进样纯化器、气-液交换柱系统、饱和器－解吸器和辅助系统构成。LBTB以氩氢混合气为吹洗气,其主要功能是在线监测液态包层主回路中的氚行为,并检验多柱级联后的氚回收率是否可以达到90%的期望值。     

医学留学生基础化学的情境化教学探索

为保证医学院校留学生的教学质量,提高教学水平,在基础化学教学过程中,打破传统教学方法,选用抛锚式教学、认知学徒制和课堂学习共同体3种适合于留学生教学的情境化教学模式,将化学学科的内容情境化,让学生不去死记硬背学科知识,以达到的最佳教学效果。     

质子交换膜的传输通道微观结构对燃料电池性能的影响

质子交换膜燃料电池因其高效、高能量密度、快速启动等独特优势在便携电子设备及汽车动力装置等应用中极具发展潜力。质子交换膜内的传输通道由于对膜质子传导性能有重要影响而受到研究者们的广泛关注。构筑有序结构的质子传输通道,能够获得质子电导率与燃料渗透率、热稳定性、化学稳定性等性能均衡提升的新型质子交换膜材料。本文结合近年来质子传输通道的研究进展,对控制聚合物的相形态从而构筑有序质子传输通道的研究进行了综述,并针对不同相形态所形成的有序通道对膜及燃料电池性能的影响进行了分类与评述,最后对其发展趋势进行了展望。     

Anion Exchange Membranes Based on Chloromethylation of Fluorinated Poly(arylene ether)s

This report details the properties of fluorine-containing anion exchange membranes(AEMs) synthesized by chloromethylation and quaternization of fluorinated poly(arylene ether)s(FPAEs) based on decafluorobiphenyl and bisphenol A. Meanwhile, we compared their properties with those of their non-fluorinated counterparts, Udel-based AEMs. The reactivity of the chloromethylation of fluorinated poly(arylene ether)s was lowered by the strong electron-withdrawing group, per-fluorinated biphenyl residue. Therefore higher temperature, more chloromethylation reagent, and longer reaction time were needed in the chloromethylation of FPAEs. Because of the hydrophobicity of fluorine, the swelling of FPAEs was depressed. In the FPAE-based AEMs, the water uptake of FPAE-1 membrane(F-1) was just 30%. There is a strong correlation between water uptake and conductivity for both Udel- and FPAE-based AEMs. Among all the membranes, the water uptake and the conductivity of FPAE-3 membrane(F-3) could reach up to 100% and 13.47 mS/cm respectively at 30 ℃. The mechanical properties of FPAE-based AEMs at room temperature were worse than those of Udel-based ones because of the weak intermolecular interaction caused by the low polarizability of fluorine. However, their high temperature mechanical properties are better, which can be explained in terms of low swelling.     

通过载体提高燃料电池催化剂的稳定性

Pt/C是目前质子交换膜燃料电池使用最广泛的一种催化剂,制约其实际应用的关键技术之一是稳定性,增强燃料电池催化剂稳定性研究一直是该领域的热点. 本文结合作者课题组的研究工作,综述了通过改进载体材料来提高Pt基催化剂稳定性的一些方法,指出采用更稳定的载体材料以及发展与金属催化剂纳米颗粒有强相互作用的载体材料,是增强催化剂稳定性的努力方向.     

两步热化学分解水制氢用氧交换材料

氧交换材料是一种能够在惰性或还原气氛中快速释氧,而在弱氧化气氛下(如水蒸气)恢复氧的储氧材料。基于氧交换材料的太阳能热化学分解水制氢技术可实现太阳能向氢能的高效转化。该技术利用太阳能提供热量使氧交换材料高温释氧或被还原性气体还原,而后与水发生氧化反应生成纯氢。将氧交换材料制成透氧膜,在膜的两侧发生材料的释氧和氧恢复,同时实现纯氢的连续制备。本文详细论述了铁基氧化物、钙钛矿氧化物、镍基氧化物、铈基氧化物、无机透氧膜等氧交换材料的研究成果,重点介绍了基于不同反应体系氧交换材料的应用情况,并就提高铁基氧化物、钙钛矿氧化物等典型氧交换材料反应活性与循环稳定性的可能路径,构建高效透氧膜反应器的难点与发展方向等主要问题进行了探讨与展望。     

Synthesis of Crosslinked Sulfonated Poly(phenylene sulfide sulfone nitrile) for Direct Methanol Fuel Cell Applications

With a view towards direct methanol fuel cell applications, novel sulfonated poly(phenylene sulfide sulfone nitrile) (sPPSSfN) has been prepared and subsequently crosslinked by a Friedel‐Craft reaction using 4,4′‐oxybis(benzoic acid) as a crosslinker to achieve lower water swelling and lower methanol permeability. The dimensional change of SPPSSfN40 is 43.7% in 90 °C liquid water but that of the crosslinked membrane, XsPPSSfN40, is 23.3% while maintaining proton conductivity at 0.22 S · cm⁻¹. These results show that the Friedel‐Craft crosslinking of the novel sPPSSfN membrane effectively reduces water uptake and the degree of swelling while improving the dimensional stability and maintaining high proton conductivity.

     

Real‐time measurement of H/D exchange in a microdialysis Raman quartz cell

We present here a novel quartz cell for monitoring H/D exchange in biomolecules using Raman spectroscopy. This cell is combined with a syringe to pump heavy water through a hollow microdialysis fibre, which is inserted into the cell. The deuterium efflux into the sample has been studied as a function of the molecular weight cut‐off of the microdialysis fibre and compared with other microcell systems comprising conventional glass capillaries. The fastest D₂O efflux that we have obtained (k_d = 0.38 ± 0.008 min⁻¹) permits to measure exchange rates of 2.5 min⁻¹ or less. Application of this cell to deuterium exchange in glyceraldehyde‐3‐phosphate dehydrogenase reveals a class of H‐atoms highly resistant to deuteration, which is consistent with a previous infrared study on this protein. Copyright © 2009 John Wiley & Sons, Ltd.