CO2 Hydrogenation to CH3OH on Supported Cu Nanoparticles: Nature and Role of Ti in Bulk Oxides vs Isolated Surface Sites

电子顺磁共振 催化作用 纳米颗粒 透射电子显微镜 甲醇 光化学 材料科学 结块 氧化物 多相催化 红外光谱学 化学工程 化学 纳米技术 有机化学 核磁共振 物理 工程类 复合材料
作者
Gina Noh,Scott R. Docherty,Erwin Lam,Xing Huang,Deni Mance,Jan L. Alfke,Christophe Copéret
出处
期刊:Journal of Physical Chemistry C [American Chemical Society]
卷期号:123 (51): 31082-31093 被引量:22
标识
DOI:10.1021/acs.jpcc.9b09631
摘要

The selective hydrogenation of CO2 to CH3OH is a crucial part of efforts to mitigate climate change via the methanol economy. Understanding the nature and role of active sites is essential for designing highly active and selective catalysts. Here, we examine Cu nanoparticles dispersed on TiO2 and Ti-containing SiO2 supports, where the Ti moieties of these materials are reducible to different extents, using a surface organometallic chemistry approach, together with state-of-the-art characterization methods (UV–vis, infrared (IR), electron paramagnetic resonance (EPR), and nuclear magnetic resonance (NMR) spectroscopies and in situ transmission electron microscopy (TEM)). Cu nanoparticles are small and well-dispersed on isolated, dimeric, and oligomeric Ti moieities on SiO2 when reduced or when the material has been oxidized via exposure to air, but they are small only in the latter case for Cu dispersed on the bulk oxide TiO2. Large Cu nanoparticles, present on TiO2 when reduced, redisperse upon exposure to air, likely associated with the facile oxidation of the reduced TiO2 surface, and agglomerate again when reduced in situ within the electron microscope. CH3OH formation rates and selectivities on Cu/TiO2 are low as a result of these large Cu nanoparticles and the ability of TiO2 to catalyze the hydrogenation of CO2 to CO. After accounting for the CO formation rates of the support itself, the CH3OH selectivities are similar for all catalysts (and greater than that for Cu/SiO2, where SiO2 is considered as an innocent support), suggesting that Ti sites in all materials have a similar nature and role. These Ti sites act as Lewis acid sites, whose presence is evidenced by pyridine adsorption studies using IR and NMR spectroscopies, that stabilize the same surface intermediates at the interface of Cu nanoparticles and the support, despite differences in the reducibility of these Ti species.
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