利用快速 MAS 动态核极化实现表面天然丰度 195Pt-13C 相关 NMR 光谱分析

IF 2.624
Zhuoran Wang , Thomas C. Robinson , Domenico Gioffrè , Rochlitz Lukas , David Gajan , Aaron J. Rossini , Christophe Copéret , Anne Lesage
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引用次数: 0

摘要

表面有机金属化学已发展成为合理设计和合成定义明确的单位点铂基异质催化剂的有效策略。鉴于 195Pt 固态核磁共振光谱对电子结构变化的高灵敏度,它为研究铂表面位点的化学结构和局部环境提供了一种独特的方法,为建立结构-活性关系提供了宝贵的见解。然而,由于铂位点的负载量较低,195Pt 化学位移各向异性较大,这种方法通常受到严重的灵敏度问题的阻碍。为了克服这一限制,可以通过质子间接检测表面金属中心的 195Pt NMR 特征。通过将同位素标记与动态核极化(DNP)相结合,对 13C 自旋的间接检测也被证明是可行的。在这里,我们将这一方法扩展到天然丰度的支撑铂复合物。这种材料是通过将 (COD)PtMeOSi(OtBu)3 (COD = 1,5-环辛二烯,Me = 甲基,tBu = 叔丁基)接枝到部分脱羟基二氧化硅上制备的。在快速魔角纺丝过程中,成功实现了 DNP 增强的二维直通键 13C{195Pt} 异核相关实验。这些实验能够检测到 0.37 % 的 NMR 反应表面物种,从而展示了这种方法的显著灵敏度及其广泛的适用性。通过测量相关的 13C 和 195Pt 同位素化学位移以及 1J(13C-195Pt)耦合常数,获得了关键的成键信息,直接证实了表面铂位点的配位结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Natural abundance 195Pt-13C correlation NMR spectroscopy on surfaces enabled by fast MAS dynamic nuclear polarization

Natural abundance 195Pt-13C correlation NMR spectroscopy on surfaces enabled by fast MAS dynamic nuclear polarization
Surface organometallic chemistry has developed as an effective strategy for the rational design and synthesis of well-defined, single-site Pt-based heterogeneous catalysts. Given its high sensitivity to changes in electronic structure, 195Pt solid-state NMR spectroscopy offers a unique approach to investigate the chemical structure and local environment of Pt surface sites, providing invaluable insights for establishing structure-activity relationships. However, this approach is typically hindered by severe sensitivity issues, due to the low loading of Pt sites and the often-encountered large 195Pt chemical shift anisotropies. To overcome this limitation, 195Pt NMR signature of surface metal centers can be indirectly detected through protons. Indirect detection on 13C spins, has also been demonstrated to be feasible by combining isotopic labeling with dynamic nuclear polarization (DNP). Here, we extend this methodology to a supported Pt complex at natural abundance. The material was prepared by grafting (COD)PtMeOSi(OtBu)3 (COD = 1,5-cyclooctadiene, Me = methyl and tBu = tert‑butyl) onto partially dehydroxylated silica. DNP enhanced two-dimensional through-bond 13C{195Pt} heteronuclear correlation experiments were successfully implemented at fast magic angle spinning. They enabled the detection of the 0.37 % NMR-responsive surface species, thereby showcasing the remarkable sensitivity of this approach and its broad applicability. Key bonding information was obtained by measuring the correlated 13C and 195Pt isotopic chemical shifts as well as 1J(13C-195Pt) coupling constants, confirming directly the coordination structure of the surface Pt sites.
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