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Changhai Liang
Researcher at Dalian University of Technology
Publications - 345
Citations - 10451
Changhai Liang is an academic researcher from Dalian University of Technology. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 48, co-authored 282 publications receiving 8558 citations. Previous affiliations of Changhai Liang include University of South Carolina & Dalian Institute of Chemical Physics.
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A non-alkoxide sol–gel route to highly active and selective Cu–Cr catalysts for glycerol conversion
TL;DR: In this article, a non-alkoxide sol-gel route to highly active and selective Cu-Cr catalysts for glycerol conversion is presented, which is characterized by X-ray diffraction (XRD), N2 physisorption, temperature-programmed reduction (TPR), and transmission electron microscopy (TEM).
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Cleavage of Lignin-Derived 4-O-5 Aryl Ethers over Nickel Nanoparticles Supported on Niobic Acid-Activated Carbon Composites
TL;DR: The Ni/xNbAC catalysts exhibited higher activities for cleavage of C-O ether bonds and dehydration than those of the Ni/AC catalyst under mild conditions as discussed by the authors.
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Resorcinol–formaldehyde aerogels prepared by supercritical acetone drying
TL;DR: In this paper, a comparison of the basic physical properties between an RF aerogel from supercritical acetone drying and an RF aerosol-to-formaldehyde (RF) mixture with supercritical CO2 drying was carried out.
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Synthesis and Catalytic Properties for Phenylacetylene Hydrogenation of Silicide Modified Nickel Catalysts
TL;DR: In this article, the authors show nickel silicide formation involves the following sequence as a function of increasing temperature: Ni (cubic) → Ni2Si (orthorhombic).
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On the surface sites Of MOP/SiO2 catalyst under sulfiding conditions: IR spectroscopy and catalytic reactivity studies
TL;DR: The surface sites of MoP/SiO 2 catalysts and their evolution under sulfiding conditions were characterized by IR spectroscopy using CO as the probe molecule as mentioned in this paper, and the results showed that the surface sites were fairly stable in the initial stage of the HDS reaction and that molybdenum phosphide is a promising catalytic material for industrial HDS reactions.