2006 - Fellow, The World Academy of Sciences
His primary scientific interests are in Nanotechnology, Graphene, Catalysis, Nanoparticle and Inorganic chemistry. His studies in Nanotechnology integrate themes in fields like Composite number, Overpotential and Nafion. His Graphene research integrates issues from Quantum dot, Anode, Composite material, Lithium and Electrochemistry.
His Catalysis research incorporates themes from Carbon, Nanocomposite, Oxide and Oxygen evolution. Xiaoling Yang works mostly in the field of Nanoparticle, limiting it down to topics relating to Photocatalysis and, in certain cases, Plasmon, Visible spectrum and Surface plasmon resonance, as a part of the same area of interest. He has included themes like Detection limit, Specific surface area, Transition metal and Copper in his Inorganic chemistry study.
The scientist’s investigation covers issues in Nanotechnology, Nanoparticle, Graphene, Catalysis and Biosensor. In the subject of general Nanotechnology, his work in Nanocomposite is often linked to Fabrication, thereby combining diverse domains of study. His Nanoparticle research includes themes of Adsorption, Mesoporous silica, Mesoporous material, Layer by layer and Aqueous solution.
His Graphene research is multidisciplinary, relying on both Quantum dot, Graphite, Oxide and Electrolyte. His Catalysis study combines topics from a wide range of disciplines, such as Inorganic chemistry, Carbon, Microbial fuel cell and Oxygen evolution. His Biosensor study incorporates themes from Amperometry, Detection limit, Dendrimer and Cyclic voltammetry.
His primary areas of investigation include Catalysis, Nanotechnology, Quantum dot, Carbon and Perovskite. His Catalysis study integrates concerns from other disciplines, such as Magazine, Electrocatalyst, Oxygen evolution and Metal. The Nanotechnology study combines topics in areas such as Composite number, Doping, Mesoporous material and Galvanic cell.
As a member of one scientific family, Xiaoling Yang mostly works in the field of Quantum dot, focusing on Analytical chemistry and, on occasion, Electrospinning, Förster resonance energy transfer and Coating. His Carbon study which covers Graphene that intersects with Nanosheet. His work in Perovskite covers topics such as Halide which are related to areas like Photoluminescence.
His primary areas of study are Oxygen evolution, Quantum dot, Water splitting, Catalysis and Perovskite. His study looks at the relationship between Oxygen evolution and fields such as Inorganic chemistry, as well as how they intersect with chemical problems. As a part of the same scientific study, Xiaoling Yang usually deals with the Quantum dot, concentrating on Analytical chemistry and frequently concerns with Nanocrystal.
His work carried out in the field of Water splitting brings together such families of science as Electrocatalyst, Hydrogen, Nanoparticle, Electrolysis of water and Mesoporous material. His Catalysis study combines topics in areas such as Clark electrode, Metal and Oxygen. Xiaoling Yang has researched Perovskite in several fields, including Doping, Nanotechnology, Light-emitting diode, Halide and Caesium.
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Graphene quantum dots: emergent nanolights for bioimaging, sensors, catalysis and photovoltaic devices
Jianhua Shen;Yihua Zhu;Xiaoling Yang;Chunzhong Li.
Chemical Communications (2012)
Facile preparation and upconversion luminescence of graphene quantum dots
Jianhua Shen;Yihua Zhu;Cheng Chen;Xiaoling Yang.
Chemical Communications (2011)
Preparation of graphene–TiO2 composites with enhanced photocatalytic activity
Kangfu Zhou;Yihua Zhu;Xiaoling Yang;Xin Jiang.
New Journal of Chemistry (2011)
A novel hydrogen peroxide biosensor based on Au-graphene-HRP-chitosan biocomposites
Kangfu Zhou;Yihua Zhu;Xiaoling Yang;Jie Luo.
Electrochimica Acta (2010)
One-pot hydrothermal synthesis of graphene quantum dots surface-passivated by polyethylene glycol and their photoelectric conversion under near-infrared light
Jianhua Shen;Yihua Zhu;Xiaoling Yang;Jie Zong.
New Journal of Chemistry (2012)
Cobalt nanoparticles embedded in N-doped carbon as an efficient bifunctional electrocatalyst for oxygen reduction and evolution reactions
Yunhe Su;Yihua Zhu;Hongliang Jiang;Jianhua Shen.
Transition metals (Fe, Co, and Ni) encapsulated in nitrogen-doped carbon nanotubes as bi-functional catalysts for oxygen electrode reactions
Yanyan Liu;Hongliang Jiang;Yihua Zhu;Xiaoling Yang.
Journal of Materials Chemistry (2016)
Synthesis of photoluminescent carbogenic dots using mesoporous silica spheres as nanoreactors
Jie Zong;Yihua Zhu;Xiaoling Yang;Jianhua Shen.
Chemical Communications (2011)
One-pot preparation of graphene/Fe3O4 composites by a solvothermal reaction
Kangfu Zhou;Yihua Zhu;Xiaoling Yang;Chunzhong Li.
New Journal of Chemistry (2010)
Enriched graphitic N-doped carbon-supported Fe3O4 nanoparticles as efficient electrocatalysts for oxygen reduction reaction
Yunhe Su;Hongliang Jiang;Yihua Zhu;Xiaoling Yang.
Journal of Materials Chemistry (2014)
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