His primary areas of study are Inorganic chemistry, Nanotechnology, Graphene, Transmission electron microscopy and Lithium. His studies examine the connections between Inorganic chemistry and genetics, as well as such issues in Sulfur, with regards to Faraday efficiency, Composite number and Carbon. As part of his studies on Nanotechnology, he frequently links adjacent subjects like Photocatalysis.
His Graphene research incorporates elements of Oxide, Electrochemistry and Hydrothermal circulation. His work carried out in the field of Transmission electron microscopy brings together such families of science as Crystallography, Electron diffraction, Scanning electron microscope and Atomic ratio. His Anode research extends to the thematically linked field of Lithium.
His primary scientific interests are in Nanotechnology, Anode, Electrochemistry, Graphene and Lithium. Gaohui Du works mostly in the field of Nanotechnology, limiting it down to topics relating to Carbon and, in certain cases, Mesoporous material, as a part of the same area of interest. Gaohui Du has included themes like Porosity, Composite material, Lithium-ion battery and Nanowire in his Anode study.
His Electrochemistry research integrates issues from Inorganic chemistry, Ion and Sulfur. The various areas that Gaohui Du examines in his Graphene study include Composite number, Oxide and Nanocomposite. His Nanostructure study integrates concerns from other disciplines, such as Nanomaterials and Nanotube.
Gaohui Du mostly deals with Anode, Electrochemistry, Lithium, Nanotechnology and Graphene. His Anode study also includes
His research on Lithium also deals with topics like
Gaohui Du mainly focuses on Lithium, Anode, Electrochemistry, Nanotechnology and Molybdenum disulfide. His research in Lithium intersects with topics in Oxide, Graphene and Nanostructure. His Oxide research is multidisciplinary, relying on both Crystal, Nanoparticle and Metal.
His study in Nanostructure is interdisciplinary in nature, drawing from both Ion, Carbon, Shell and Volume contraction. His Molybdenum disulfide study incorporates themes from Characterization, Nanocrystal, Lamellar structure and Transition metal. His Cathode research incorporates a variety of disciplines, including Carbon nanotube, X-ray photoelectron spectroscopy and Composite number.
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Trititanate nanotubes made via a single alkali treatment
Qing Chen;Wuzong Zhou;Gaohui Du;Lian-Mao Peng.
Advanced Materials (2002)
In situ Observations of Catalyst Dynamics during Surface-Bound Carbon Nanotube Nucleation
Stephan Hofmann;Renu Sharma;Caterina Ducati;Gaohui Du.
Nano Letters (2007)
Preparation and structure analysis of titanium oxide nanotubes
G. H. Du;Q. Chen;R. C. Che;Z. Y. Yuan.
Applied Physics Letters (2001)
THE STRUCTURE OF TRITITANATE NANOTUBES
Q. Chen;G.H. Du;S. Zhang;L.-M. Peng;L.-M. Peng.
Acta Crystallographica Section B-structural Science (2002)
Ultrathin SnO2 Nanosheets: Oriented Attachment Mechanism, Nonstoichiometric Defects, and Enhanced Lithium-Ion Battery Performances
Cen Wang;Gaohui Du;Kenny Ståhl;Haixiao Huang.
Journal of Physical Chemistry C (2012)
Surfactant-assisted large-scale preparation of crystalline CeO2 nanorods.
Aurélien Vantomme;Zhong-Yong Yuan;Gaohui Du;Bao-Lian Su.
Biomass derived activated carbon with 3D connected architecture for rechargeable lithium - sulfur batteries
Jun Zhang;Jiayuan Xiang;Zimin Dong;Ya Liu.
Electrochimica Acta (2014)
In situ transmission electron microscopy observation of the conversion mechanism of Fe2O3/graphene anode during lithiation-delithiation processes.
Qingmei Su;Dong Xie;Jun Zhang;Gaohui Du.
ACS Nano (2013)
Cu(OH) 2 nanowires, CuO nanowires and CuO nanobelts
G.H Du;G Van Tendeloo.
Chemical Physics Letters (2004)
Potassium titanate nanowires: Structure, growth, and optical properties
G. H. Du;Q. Chen;P. D. Han;P. D. Han;Y. Yu;Y. Yu.
Physical Review B (2003)
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