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Literature DB >> 17579889

CO2 activation by ZnO through the formation of an unusual tridentate surface carbonate.

Yuemin Wang¹, Roman Kovácik, Bernd Meyer, Konstantinos Kotsis, Dorothee Stodt, Volker Staemmler, Hengshan Qiu, Franziska Traeger, Deler Langenberg, Martin Muhler, Christof Wöll.

Abstract

Entities: Chemical

Year: 2007 PMID： 17579889 DOI： 10.1002/anie.200700564

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

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3 in total

1. CO2 adsorption on polar surfaces of ZnO.

Authors: Sergio A S Farias; E Longo; R Gargano; João B L Martins
Journal: J Mol Model Date: 2012-10-24 Impact factor: 1.810

2. Formation and evolution of orientation-specific CO₂ chains on nonpolar ZnO(10͞10) surfaces.

Authors: Yunjun Cao; Min Yu; Shandong Qi; Tingting Wang; Shiming Huang; Shujun Hu; Mingchun Xu; Shishen Yan
Journal: Sci Rep Date: 2017-03-06 Impact factor: 4.379

3. Chemical Reactivity of Supported ZnO Clusters: Undercoordinated Zinc and Oxygen Atoms as Active Sites.

Authors: Xiaojuan Yu; Jannik P Roth; Junjun Wang; Eric Sauter; Alexei Nefedov; Stefan Heißler; Gianfranco Pacchioni; Yuemin Wang; Christof Wöll
Journal: Chemphyschem Date: 2020-11-13 Impact factor: 3.520

3 in total

CO2 activation by ZnO through the formation of an unusual tridentate surface carbonate.

1. CO2 adsorption on polar surfaces of ZnO.

2. Formation and evolution of orientation-specific CO2 chains on nonpolar ZnO(10͞10) surfaces.

3. Chemical Reactivity of Supported ZnO Clusters: Undercoordinated Zinc and Oxygen Atoms as Active Sites.

2. Formation and evolution of orientation-specific CO₂ chains on nonpolar ZnO(10͞10) surfaces.