Xiuzhong Fang

Publications by Year

Research Areas

Catalytic Processes in Materials Science, Catalysis and Oxidation Reactions, Catalysts for Methane Reforming, Gas Sensing Nanomaterials and Sensors, Nuclear materials and radiation effects

Most-Cited Works

• → Facile Cr3+-Doping Strategy Dramatically Promoting Ru/CeO₂ for Low-Temperature CO₂ Methanation: Unraveling the Roles of Surface Oxygen Vacancies and Hydroxyl Groups(2021)261 cited
• → Constructing La₂B₂O₇ (B = Ti, Zr, Ce) Compounds with Three Typical Crystalline Phases for the Oxidative Coupling of Methane: The Effect of Phase Structures, Superoxide Anions, and Alkalinity on the Reactivity(2019)208 cited
• → Engineering Ni3+ Cations in NiO Lattice at the Atomic Level by Li+ Doping: The Roles of Ni3+ and Oxygen Species for CO Oxidation(2018)177 cited
• → Synthesis and Characterization of 3-Aminopropyltriethoxysilane-Modified Superparamagnetic Magnetite Nanoparticles(2004)169 cited
• → Nickel nanoparticles embedded in mesopores of AlSBA-15 with a perfect peasecod-like structure: A catalyst with superior sintering resistance and hydrothermal stability for methane dry reforming(2017)140 cited
• → A2B2O7 pyrochlore compounds: A category of potential materials for clean energy and environment protection catalysis(2020)136 cited
• → New insights into CO2 methanation mechanisms on Ni/MgO catalysts by DFT calculations: Elucidating Ni and MgO roles and support effects(2019)133 cited
• → The distributions of alkaline earth metal oxides and their promotional effects on Ni/CeO2 for CO2 methanation(2020)122 cited
• → Developing reactive catalysts for low temperature oxidative coupling of methane: On the factors deciding the reaction performance of Ln2Ce2O7 with different rare earth A sites(2018)106 cited
• → Mesoporous high surface area NiO synthesized with soft templates: Remarkable for catalytic CH4 deep oxidation(2017)100 cited