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小木虫论坛-学术科研互动平台 » 化学化工区 » 催化 » 文献赏析 » 大化所包信和院士最新ACCOUNTS OF CHEMICAL RESEARCH综述
北京石油化工学院2026年研究生招生接收调剂公告
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jiaxe2003

铁虫 (小有名气)

[交流] 大化所包信和院士最新ACCOUNTS OF CHEMICAL RESEARCH综述 已有12人参与

包信和院士长期从事表面化学与催化基础和应用研究,在催化选择氧化、界面和纳米催化以及甲烷催化活化等理论和实践中取得了系统、深入、具有创新意义的成果。近年来,包信和院士带领的研究团队研制和开发了多种原位、动态催化研究方法,如原位高压NMR、动态光发射电子显微镜PEEM等,发现并从理论上证实了碳纳米管的限域效应,提出了纳米催化体系的“协同束缚”概念,成功研制出CO脱除和合成气高效转化催化剂。其取得的理论和实验成果在国际、国内相关领域形成了重要影响。
Title:Interface-Confined Oxide Nanostructures for
Catalytic Oxidation Reactions
Abstract:eterogeneous catalysts, often consisting of metal nanoparticles supported on high-surface-area oxide solids, are common in industrial chemical reactions. Researchers have increasingly recognized the importance of oxides in heterogeneous catalysts: that they are not just a support to help the dispersion of supported metal nanoparticles, but rather interact with supported metal nanoparticles and affect the catalysis. The critical role of oxides in catalytic reactions can become very prominent when oxides cover metal surfaces forming the inverse catalysts.
The source of the catalytic activity in homogeneous catalysts and metalloenzymes is often coordinatively unsaturated (CUS) transition metal (TM) cations, which can undergo facile electron transfer and promote catalytic reactions. Organic ligands and proteins confine these CUS cations, making them highly active and stable. In heterogeneous catalysis, however, confining these highly active CUS centers on an inorganic solid so that they are robust enough to endure the reaction environment while staying flexible enough to perform their catalysis remains a challenge.
In this Account, we describe a strategy to confine the active CUS centers on the solid surface at the interface between a TM oxide (TMO) and a noble metal (NM). Among metals, NMs have high electron negativity and low oxygen affinity. This
means that TM cations of the oxide bind strongly to NM atoms at the interface, forming oxygen-terminated-bilayer TMO nanostructures. The resulting CUS sites at the edges of the TMO nanostructure are highly active for catalytic oxidation reactions. Meanwhile, the strong interactions between TMOs and NMs prevent further oxidation of the bilayer TMO phases, which would otherwise result in the saturation of oxygen coordination and the deactivation of the CUS cations. We report that we can also tune the oxidemetal interactions to modulate the bonding of reactants with CUS centers, optimizing their catalytic performance.
We review our recent progress on oxide-on-metal inverse catalysts, mainly the TMO-on-Pt (TM = Fe, Co, and Ni) systems and discuss the interface-confinement effect, an important factor in the behavior of these catalytic systems. We have studied both model catalyst systems and real supported nanocatalysts. Surface science studies and density functional theory calculations in model systems illustrate the importance of the oxidemetal interfaces in the creation and stabilization of
surface active centers, and reveal the reaction mechanism at these active sites. In real catalysts, we describe facile preparation processes for fabricating the oxide-on-metal nanostructures. We have demonstrated excellent performance of the inverse catalysts in oxidation reactions such as CO oxidation. We believe that the interface confinement effect can be employed to design highly efficient novel catalysts and that the inverse oxide-on-metal catalysts may find wide applications
in heterogeneous catalysis.
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李怀江

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谢谢分享,学习啦
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hookhans

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Farmer

小木虫: 金币+0.5, 给个红包,谢谢回帖
这是傅强的工作吧,做的很好。
一下 回复此楼
where-there-is-a-will-there-is-a-way.
6楼2013-03-08 16:09:33
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jiaxe2003

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引用回帖:
6楼: Originally posted by hookhans at 2013-03-08 16:09:33
这是傅强的工作吧,做的很好。

是的
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7楼2013-03-09 19:11:28
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缘如逝水

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不错的资源  谢谢分享
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8楼2013-03-09 21:54:53
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