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Rapid Interchangeable Hydrogen, Hydride, and Proton Species at the Interface of Transition Metal Atom on Oxide Surface

Simson Wu, Kai‐Yu Tseng, Ryuichi Kato, Tai‐Sing Wu, Alexander I. Large, Yung‐Kang Peng, Weikai Xiang, Huihuang Fang, Jiaying Mo, Iain Wilkinson, Y. L. Soo, Georg Held, Kazu Suenaga, Tong Li, Hsin‐Yi Tiffany Chen, Shik Chi Edman Tsang

2021Journal of the American Chemical Society93 citationsDOI

Abstract

Hydrogen spillover is the phenomenon where a hydrogen atom, generated from the dissociative chemisorption of dihydrogen on the surface of a metal species, migrates from the metal to the catalytic support. This phenomenon is regarded as a promising avenue for hydrogen storage, yet the atomic mechanism for how the hydrogen atom can be transferred to the support has remained controversial for decades. As a result, the development of catalytic support for such a purpose is only limited to typical reducible oxide materials. Herein, by using a combination of in situ spectroscopic and imaging technique, we are able to visualize and observe the atomic pathway for which hydrogen travels via a frustrated Lewis pair that has been constructed on a nonreducible metal oxide. The interchangeable status between the hydrogen, proton, and hydride is carefully characterized and demonstrated. It is envisaged that this study has opened up new design criteria for hydrogen storage material.

Topics & Concepts

ChemistryHydrogenHydrogen spilloverHydrideHydrogen atomChemisorptionOxideCatalysisMetalHydrogen storageTransition metalInorganic chemistryProtonAtom (system on chip)Chemical physicsNanotechnologyPhotochemistryOrganic chemistryAlkylMaterials scienceNuclear physicsComputer scienceEmbedded systemPhysicsHydrogen Storage and MaterialsMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework Applications
Rapid Interchangeable Hydrogen, Hydride, and Proton Species at the Interface of Transition Metal Atom on Oxide Surface | Litcius