A molecular MoS2 edge site mimic for catalytic hydrogen generation

Hemamala I. Karunadasa; Elizabeth Montalvo; Yujie Sun; Marcin Majda; Jeffrey R. Long; Christopher J. Chang

doi:10.1126/science.1215868

A molecular MoS₂ edge site mimic for catalytic hydrogen generation

Hemamala I. Karunadasa, Elizabeth Montalvo, Yujie Sun, Marcin Majda, Jeffrey R. Long, Christopher J. Chang

Research output: Contribution to journal › Article › peer-review

1131 Scopus citations

Abstract

Inorganic solids are an important class of catalysts that often derive their activity from sparse active sites that are structurally distinct from the inactive bulk. Rationally optimizing activity is therefore beholden to the challenges in studying these active sites in molecular detail. Here, we report a molecule that mimics the structure of the proposed triangular active edge site fragments of molybdenum disulfide (MoS₂), a widely used industrial catalyst that has shown promise as a low-cost alternative to platinum for electrocatalytic hydrogen production. By leveraging the robust coordination environment of a pentapyridyl ligand, we synthesized and structurally characterized a well-defined Mo^IV-disulfide complex that, upon electrochemical reduction, can catalytically generate hydrogen from acidic organic media as well as from acidic water.

Original language	English (US)
Pages (from-to)	698-702
Number of pages	5
Journal	Science
Volume	335
Issue number	6069
DOIs	https://doi.org/10.1126/science.1215868
State	Published - Feb 10 2012
Externally published	Yes

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title = "A molecular MoS2 edge site mimic for catalytic hydrogen generation",

abstract = "Inorganic solids are an important class of catalysts that often derive their activity from sparse active sites that are structurally distinct from the inactive bulk. Rationally optimizing activity is therefore beholden to the challenges in studying these active sites in molecular detail. Here, we report a molecule that mimics the structure of the proposed triangular active edge site fragments of molybdenum disulfide (MoS2), a widely used industrial catalyst that has shown promise as a low-cost alternative to platinum for electrocatalytic hydrogen production. By leveraging the robust coordination environment of a pentapyridyl ligand, we synthesized and structurally characterized a well-defined MoIV-disulfide complex that, upon electrochemical reduction, can catalytically generate hydrogen from acidic organic media as well as from acidic water.",

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AU - Karunadasa, Hemamala I.

AU - Montalvo, Elizabeth

AU - Sun, Yujie

AU - Majda, Marcin

AU - Long, Jeffrey R.

AU - Chang, Christopher J.

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AB - Inorganic solids are an important class of catalysts that often derive their activity from sparse active sites that are structurally distinct from the inactive bulk. Rationally optimizing activity is therefore beholden to the challenges in studying these active sites in molecular detail. Here, we report a molecule that mimics the structure of the proposed triangular active edge site fragments of molybdenum disulfide (MoS2), a widely used industrial catalyst that has shown promise as a low-cost alternative to platinum for electrocatalytic hydrogen production. By leveraging the robust coordination environment of a pentapyridyl ligand, we synthesized and structurally characterized a well-defined MoIV-disulfide complex that, upon electrochemical reduction, can catalytically generate hydrogen from acidic organic media as well as from acidic water.

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A molecular MoS₂ edge site mimic for catalytic hydrogen generation

Abstract

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