In situ grown nanoscale platinum on carbon powder as catalyst layer in proton exchange membrane fuel cells(PEMFCs)

An extensive study has been conducted on the proton exchange membrane fuel cells(PEMFCs) with reducing Pt loading.This is commonly achieved by developing methods to increase the utilization of the platinum in the catalyst layer of the electrodes.In this paper,a novel process of the catalyst layers was introduced and investigated.A mixture of carbon powder and Nafion solution was sprayed on the glassy carbon electrode(GCE) to form a thin carbon layer.Then Pt particles were deposited on the surface by reducing hexachloroplatinic(Ⅳ) acid hexahydrate with methanoic acid.SEM images showed a continuous Pt gradient profile among the thickness direction of the catalytic layer by the novel method.The Pt nanowires grown are in the size of 3 nm(diameter) x 10 nm(length) by high solution TEM image.The novel catalyst layer was characterized by cyclic voltammetry(CV) and scanning electron microscope(SEM) as compared with commercial Pt/C black and Pt catalyst layer obtained from sputtering.The results showed that the platinum nanoparticles deposited on the carbon powder were highly utilized as they directly faced the gas diffusion layer and offered easy access to reactants(oxygen or hydrogen).     

用板式电位差计实验系统与SPSS标定电池的电动势

针对板式电位差计测量电池电动势的实验装置,以电池的电动势为研究对象.用补偿法测量实验数据.引入SPSS的曲线估计功能,得到标准电池电动势和长度的复合量与有效长度量的定标曲线,并验证出标准电池电动势和长度的复合量与有效长度量存在线性关系,由此标出待测电池的电动势,用置信概率为95％的不确定度,对实验结果进行分析和评价,最终得到更为直观的、合理实验结果.     

铁的自旋转变对菱镁矿热力学性质的影响

含铁菱镁矿(Mg,Fe)CO3是碳进入地球深部的主要载体之一,铁的进入会引起矿物物理性质的变化。采用第一性原理计算方法,研究了菱镁矿含铁及铁的自旋转变对菱镁矿热力学性质的影响。含铁菱镁矿的低自旋态体积比不含铁菱镁矿小;高自旋态在低温端的体积比不含铁菱镁矿略微增大,在高温端却减小;在所研究的温压范围内,低自旋态的体积始终比高自旋态的体积小。含铁菱镁矿高自旋态的热膨胀系数减小,而自旋转变会导致热膨胀系数增加。考虑高低两种自旋态共存时的热力学性质时,计算结果表明:自旋态共存时的热膨胀系数、速度在自旋共存区间内分别呈现异常增大峰和异常减小峰,并且这些异常变化峰随着温度的升高向高压方向移动。     

R22－DMA吸收压缩式热泵实验与分析

Ｒ２２－ＤＭＡ吸收压缩式热泵实验与分析郭开华，蒙宗信，舒碧芬（中国科学院广州能源研究所热泵及空调制冷技术研究中心广州５１００７０）关键词：热泵，吸收压缩复合，吸收工质对１引言热泵技术作为一种逆向能量转换方式广泛应用于工业余热的回收利用和建筑物的空调与...     

Effects of magnetic fields on HCFC-141b refrigerant gas hydrate formation

Gas hydrates are crystalline compounds formed (usually above 0℃) by water reacting with some gases or volatile liquids (hydrate former). Guest molecules, such as gas or volatile liquid molecules, are enclosed firmly inside the host cavities and act with water molecules in weak van der Waals force. Gas hydrate usually includes natural gas hydrate, refrigerant gas hydrate and CO2 gas hydrate. Refrigerant hydrates can be formed above 0℃, and their crystallization is similar to the ordinary ice…     

某型双频接收机混频中放组件的研制

介绍了S、X波段带数字控制衰减器的混频中放单元设计方法,带内增益平坦度≤±0.5dB,功率输出1dB压缩点≥15dBm;介绍了放大器增益的分配思路、数控衰减器的工作原理、电路的实现方法及电路制版后装配调试和测试结果,满足设计要求。     

基于凝固点下降的高纯有机物纯度定值技术研究进展

介绍凝固点测量方法的研究进展。阐述了凝固点下降技术用于高纯有机物纯度定值的基本原理和适用条件,详细介绍了静力学方法和动力学方法这两种凝固点的测量方法,并介绍了两种方法在纯度定值方面的应用情况,且对两种方法的特点进行了对比,展望了凝固点下降纯度定值技术的发展趋势。     

重复频率纳秒脉冲介质阻挡放电对聚对苯二甲酸乙二酯表面改性

介绍了0.1 MPa下的纳秒脉冲介质阻挡放电(DBD)对聚对苯二甲酸乙二酯(PET)材料表面进行的亲水性改善。分别采用均匀和丝状放电模式对PET表面改性处理,并采用水接触角测量、原子力显微镜观察、X射线光电子能谱分析对改性材料进行表面分析。实验发现介质阻挡放电处理后PET表面水接触角明显减小,接触角从78°下降到25°,但随处理时间的增加有饱和效应;PET表面粗糙程度增加,亲水性含氧基团被引入,从而改善了材料表面亲水性;纳秒脉冲下的均匀DBD比丝状DBD处理效果更为显著。     

重复频率纳秒脉冲聚四氟乙烯薄膜击穿特性

实验研究了聚四氟乙烯薄膜在重复频率纳秒脉冲下的击穿特性,选用脉冲上升时间约15 ns,脉宽30~40 ns,重复频率1~1 000 Hz。测量并计算了击穿前后的电压电流波形、重复频率耐受时间和施加脉冲个数与击穿特性密切相关的参数。结果表明,重复频率纳秒脉冲下聚四氟乙烯薄膜击穿场强为MV/cm量级,重复频率耐受时间随施加场强和重复频率的增大而减小。薄膜本身性质及油浸时间使实验数据具有分散性,重复频率纳秒脉冲下聚四氟乙烯薄膜击穿应考虑重复频率条件下的热积累效应和材料缺陷。