高效Ru-Ni双金属基介孔碳催化剂的设计及加氢性能研究

项目名称： 高效Ru-Ni双金属基介孔碳催化剂的设计及加氢性能研究

项目编号： No.21303229

项目类型： 青年科学基金项目

立项/批准年度： 2014

项目学科： 数理科学和化学

项目作者： 杨英

作者单位： 中国科学院兰州化学物理研究所

项目金额： 25万元

中文摘要： 针对现有先负载后还原方法制备Ru基催化剂工艺繁杂、活性位分散不均及稳定性差等不足，在本项目前期工作中，我们采用多组分组装及直接碳化法，并辅以Ru、Ni含量调变及碱溶处理，在国际上首次制备了分散均匀、成分可控、原位自生的Ru-Ni双金属基有序介孔碳催化剂。初步检测结果表明，该催化剂载体具有规则三维交叉孔道、活性位Ru、Ni组分含量可调、活性位与载体结合强度高，使该催化剂具有传质性能好、金属-金属及金属-载体相互作用强等优点，从而表现出非凡的高效催化加氢性能。目前，该催化剂的形成机制、结构特征及催化加氢性能之间的内在联系尚不清楚，本项目拟搞清催化加氢性能与载体孔道结构、活性位化学成分之间的关系，揭示催化剂原位形成机制及载体结构、活性位结构与催化性能的内在联系，阐明载体孔道结构、活性位电子结构对催化性能的影响规律与机制，可望获得高质量原创性研究成果。

中文关键词： Ru-Ni 双金属；介孔碳；加氢性能；影响机制；

英文摘要： Currently, Ruthenium-based catalysts were prepared by a tedious post-grafting and followed reduction procedure, resulting in inhomogeneous dispersion and poor stability of active species. To overcome these drawbacks,in our preliminary study, composition-controlled Ru-Ni bimetallics homogeneously dispersed onto ordered mesoporous carbon materials were insitu prepared as hydrogenation catalysts via multi-component assembly and followed direct carbonization,combined with Ru-Ni content tunability and alkaline treatment. Some merits, such as superior mass transfer, strong metal-metal and metal-support interaction, derive from their ordered 3D intercrossed channels,tunable Ru-Ni composition, and strong interaction between active species and support, thus leading to extraordinary catalytic properties. Whereas,the relationship between catalyst formation mechanism, structural characteristics and hydrogenation properties is not clear. Thus, in this programme, we focus on the the relationship between catalytic performances and Ru-Ni composition along with carbonaceous support structure. The insitu formation mechanism of catalyst, and the inherent relation between support structure,active site structure and catalytic performance would be revealed to elucidate the role of support channels, electronic structure on catalytic p

英文关键词： Ru-Ni bimetallics；Mesoporous carbon；; Hydrogenation performance；Influencing mechanism；