H
Hanjing Tian
Researcher at West Virginia University
Publications - 44
Citations - 2105
Hanjing Tian is an academic researcher from West Virginia University. The author has contributed to research in topics: Chemical looping combustion & Oxygen. The author has an hindex of 22, co-authored 44 publications receiving 1744 citations. Previous affiliations of Hanjing Tian include United States Department of Energy & Lehigh University.
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Quantitative Determination of the Speciation of Surface Vanadium Oxides and Their Catalytic Activity
TL;DR: The new findings reveal that the support cation is a potent ligand that directly influences the reactivity of the bridging V-O-support bond, the catalytic active site, by controlling its basic character with the support electronegativity.
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Chemical-Looping Combustion of Coal with Metal Oxide Oxygen Carriers
TL;DR: In this paper, the combustion and reoxidation properties of direct coal chemical-looping combustion (CLC) over CuO, Fe2O3, Co3O4, NiO, and Mn 2O3 were investigated using thermogravimetric analysis (TGA) and bench-scale fixed-bed flow reactor studies.
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Oxidative dehydrogenation of ethane to ethylene over alumina-supported vanadium oxide catalysts: Relationship between molecular structures and chemical reactivity
María Victoria Martínez-Huerta,Xingtao Gao,Hanjing Tian,Israel E. Wachs,José Luis García Fierro,Miguel A. Bañares +5 more
TL;DR: In this article, the influence of vanadium oxide loading in the supported VOx/Al2O3 catalyst system upon the dehydrated surface vanadia molecular structure, surface acidic properties, reduction characteristics and the catalytic oxidative dehydrogenation (ODH) of ethane to ethylene was investigated.
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Molecular Structural Determination of Molybdena in Different Environments: Aqueous Solutions, Bulk Mixed Oxides, and Supported MoO3 Catalysts
TL;DR: In this article, a linear inverse correlation was found between the electronic edge energy and the number of bridging Mo−O−Mo covalent bonds around the central Mo(VI) cation.
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Comparison of UV and visible Raman spectroscopy of bulk metal molybdate and metal vanadate catalysts.
TL;DR: It was demonstrated that there is no sample damage by the more energetic UV excitation when very low laser powers and fast detectors are employed, thus avoiding the need of complicated fluidized bed sample arrangements sometimes used for UV Raman investigations.