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机构地区:[1]许昌学院化学化工学院,河南许昌461000 [2]厦门大学化学化工学院固体表面物理化学国家重点实验室,福建厦门361005
出 处:《纳米科技》2010年第1期15-20,共6页
基 金:国家重点基础研究发展规划“973”项目(2005CB221400),国家自然科学基金项目(20473063和20590364)
摘 要:为获得高分散的Ru负载催化剂,采用乙二醇液相化学还原沉积法制备Ru/CNTs,TEM、XRD、H2-TPD表征,结果表明,乙二醇液相还原法可以制备金属粒径小(2—4nm)而均匀的高分散度的钌修饰CNTs,其表面存在较高稳态浓度吸附氢。以氨分解制氢作探针反应,实验结果表明,在相同反应条件下,经乙二醇油浴液相还原沉积制备的Ru/CNTs催化剂上氨转化率约为浸渍法制得相应催化剂上的1.6倍,同时发现钌微晶粒径在3—4nm范围的Ru/CNTs对氨分解制氢的催化性能最佳,钌微晶粒径≤2nm时氨分解转化率明显下降。With CNTs as substrate, a series of metallic Ru/CNTs were prepared by using glycol reduction-deposition method for gaining Ru-loading catalyst dispersed highly. TEM observations, XRD and H2-TPD measurements of the produced materials showed that metal Ru nanoparticles were quite uniform in shape and size and well dispersed on the CNTs surface and the Ru/CNTs could adsorb considerably greater amount of hydrogen when using glycol reduction - deposition method, especially by micromaveassisted heating polyol process. The observed NH3-decomposition conversion over Ru/CNTs catalyst prepared through ethylene glycol reduction-deposition was about 1.6 times as high as that of Ru/ CNTs catalyst prepared by conventional incipient wetness method under the same reaction condition. The results of the present work demonstrated that NH3 decomposition over the Ru/CNTs catalyst using glycol reduction- deposition method with the Rux^0-crystallite size at 3-4 nm displayed the highest reaction activity; while Ruz^0 particle size came down to 2 nm and below, the conversion of NH3 decomposition was markedly dropped.
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