【作者】 王晓卫；

【导师】 孔令斌；

【作者基本信息】 兰州理工大学 ， 材料学， 2012， 硕士

【摘要】 相对于传统材料而言，纳米材料在力学、电学、热学、光学、催化等方面有着特殊的特性，所以受到了人们的广泛关注，成为具有特殊性能的功能材料理论研究和应用开发的重要课题。在金属纳米材料中，由于银纳米材料形貌、尺寸的可控性和表面性质的特殊性，显示出广阔的应用前景，近年来也是金属纳米材料研究的焦点。本论文以XC-72和CMK-3为载体，成功制备了Ag/XC-72和Ag/CMK-3复合电极材料，并研究了复合电极材料的微观结构和电化学性能。主要内容如下：1.以柠檬酸二氢钠为络合剂，价格低廉的硼氢化钠为还原剂，采用化学还原法成功制备出Ag/XC-72复合电极材料，对其微观结构进行了表征，并研究比较了柠檬酸二氢钠与AgNO₃不同摩尔比对Ag/XC-72电化学性能的影响。结果表明：该法制备的Ag纳米颗粒粒径较为均一，平均粒径约为23nm；当柠檬酸二氢钠与AgNO₃的摩尔比为10:1时，Ag/XC-72复合纳米催化剂材料呈现出最高的电催化活性和最佳的稳定性。2.本文采用一种新的电沉积方法—方波电位法，成功地将Ag纳米颗粒沉积到CMK-3表面，制备了Ag/CMK-3复合电极材料，并研究了其对甲醛的电催化性能。结果表明：方波电位法沉积制备的Ag纳米颗粒粒径约为50nm；Ag/CMK-3电极峰值电流值可达到102mA·cm^-2，是相同条件下制备的Ag/XC-72复合电极材料的1.4倍左右，Ag/CMK-3复合电极材料的电催化活性和稳定性都优于Ag/XC-72复合电极材料。更多还原

【Abstract】 Nano-materials have been became the topic for studying and developing functional materialsdue to they, compared with traditional, have special properties in mechanical, electricity,thermology, catalysis and other aspects. Silver nano-materials show wide application in metalnano-materials because of the controllability of its morphology and size and special surfaceproperties. In recent years, it becomes the focus of research on metallic nano-materials. In thisthesis, Ag/XC-72and Ag/CMK-3nano-composite catalysts were synthesized with XC-72andCMK-3as the support respectively. Their structure and electrochemical performance were studied.The details are as follows.(1)Ag/XC-72composite electrode materials were prepared by chemical methodwith sodium citrate monobasic as the complexing agent and low-cost sodiumborohydride as the reducing agent, respectively. The structure of the Ag/XC-72wasstudied. Meanwhile, the molar ratio of sodium citrate manobasic and silver nitratefor catalytic performance of formaldehyde was discussed. The results showed that,the nano-particle size of Ag was uniform and the average size was about20nm.The composite showed the highest electrocatalytic activity and best stability whenthe molar ratio of sodium citrate monobasic and silver nitrate is10:1.(2)Ag/CMK-3catalyst was synthesized through square-wave potential method,and Ag nano-particles were deposited on the surface of CMK-3successfully. Itsstructure and catalytic performance for formaldehyde oxidation were studied.Transmission electron microscopy(TEM) images indicated that the electro-emically synthesized Ag nanoparticles were homogeneously dispersed on thesurface of CMK-3with a mean size50nm. The peak current of Ag/CMK-3canreach to102mA·cm-2, that is about1.4times as many as Ag/XC-72electrodematerial prepared through the same method. The electrocatalytic activity andstability of Ag/CMK-3electrode material was much better than Ag/XC-72.更多还原