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Accurate Single-Molecule Kinetic Isotope Effects

Yilin Guo, Chen Yang, Huiping Li, Lei Zhang, Shuyao Zhou, Xin Zhu, Huan-Yan Fu, Zhizhou Li, Zhirong Liu, Zhirong Liu, Chuancheng Jia, Zitong Liu, Zitong Liu, Wenguang Zhu, Fanyang Mo, Deqing Zhang, Xuefeng Guo

2022Journal of the American Chemical Society19 citationsDOI

Abstract

An accurate single-molecule kinetic isotope effect (sm-KIE) was applied to circumvent the inherent limitation of conventional ensemble KIE by using graphene–molecule–graphene single-molecule junctions. In situ monitoring of the single-molecule reaction trajectories in real time with high temporal resolution has the capability to characterize the deeper information brought by KIE. The C–O bond cleavage and the C–C bond formation of the transition state (TS) were observed in the Claisen rearrangement through the secondary kinetic isotope effect, demonstrating the high detection sensitivity and accuracy of this method. More interestingly, this sm-KIE can be used to determine TS structures under different electric fields, revealing the multidimensional regulation of the TS. The detection and manipulation of the TS provide a broad perspective to understand and optimize chemical reactions and biomimetic progress.

Topics & Concepts

ChemistryKinetic isotope effectMoleculeKinetic energyIsotopeChemical physicsBond cleavageComputational chemistryNanotechnologyAtomic physicsDeuteriumOrganic chemistryNuclear physicsMaterials scienceCatalysisQuantum mechanicsPhysicsMolecular Junctions and NanostructuresAdvanced biosensing and bioanalysis techniquesAnalytical Chemistry and Sensors
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