Mengyao Dong mostly deals with Composite material, Graphene, Nanocomposite, Scanning electron microscope and Nanoparticle. His work on Porosity, Electrical conductor and Thermoplastic polyurethane as part of general Composite material research is frequently linked to Anisotropy, thereby connecting diverse disciplines of science. The Porosity study combines topics in areas such as Capacitance and Carbonization.
His Nanocomposite study combines topics from a wide range of disciplines, such as Thermal conductivity, Polyimide, Aggregate and Silver nanoparticle. His study in Scanning electron microscope is interdisciplinary in nature, drawing from both Fourier transform infrared spectroscopy, Spin coating, Coating and Corrosion. The various areas that Mengyao Dong examines in his Nanoparticle study include Thermal stability and Separator.
His primary areas of investigation include Composite material, Graphene, Nanocomposite, Photocatalysis and Nanotechnology. Mengyao Dong regularly links together related areas like Permittivity in his Composite material studies. His studies deal with areas such as Oxide and Electrochemistry as well as Graphene.
His Nanocomposite research integrates issues from Ultimate tensile strength, Curing and Carbon nanotube. Mengyao Dong has included themes like Vanadium and Visible spectrum in his Photocatalysis study. He usually deals with Nanotechnology and limits it to topics linked to Nano- and Template method pattern.
Mengyao Dong spends much of his time researching Photocatalysis, Composite material, Adsorption, Porosity and Nanocomposite. His work deals with themes such as Radical, Oxide and Visible spectrum, which intersect with Photocatalysis. His study ties his expertise on Microelectronics together with the subject of Composite material.
Mengyao Dong works mostly in the field of Adsorption, limiting it down to topics relating to Aqueous solution and, in certain cases, Cyclohexane, Magnetite, Nanocellulose and Bimetallic strip, as a part of the same area of interest. His Porosity research includes elements of Activated carbon and Specific surface area. As a member of one scientific family, he mostly works in the field of Aerogel, focusing on Electrochemistry and, on occasion, Capacitance.
The scientist’s investigation covers issues in Adsorption, Porosity, Permittivity, Doping and Cellulose. The study incorporates disciplines such as Ultimate tensile strength, Durability, Extraction and Uranium in addition to Adsorption. His research in Porosity intersects with topics in Activated carbon, Specific surface area, Supercapacitor and High conductivity.
His biological study spans a wide range of topics, including Crystallinity, Perchloric acid and Phosphoric acid. His Cellulose study incorporates themes from Magnetite, Cyclohexane and Aqueous solution. His Carbon research includes themes of Photocatalysis, Nanotechnology and Charge carrier.
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Lightweight conductive graphene/thermoplastic polyurethane foams with ultrahigh compressibility for piezoresistive sensing
Hu Liu;Hu Liu;Mengyao Dong;Wenju Huang;Jiachen Gao.
Journal of Materials Chemistry C (2017)
Polydimethylsiloxane-titania nanocomposite coating: Fabrication and corrosion resistance
Xiaokun Cui;Guiyu Zhu;Yufeng Pan;Qian Shao.
In situ grown nickel selenide on graphene nanohybrid electrodes for high energy density asymmetric supercapacitors
Balakrishnan Kirubasankar;Balakrishnan Kirubasankar;Vignesh Murugadoss;Vignesh Murugadoss;Vignesh Murugadoss;Jing Lin;Tao Ding.
Biological cell template synthesis of nitrogen-doped porous hollow carbon spheres/MnO2 composites for high-performance asymmetric supercapacitors
Wei Du;Xiaoning Wang;Jie Zhan;Xueqin Sun.
Electrochimica Acta (2019)
Microwave solvothermal carboxymethyl chitosan templated synthesis of TiO2/ZrO2 composites toward enhanced photocatalytic degradation of Rhodamine B.
Jiangyang Tian;Qian Shao;Junkai Zhao;Duo Pan.
Journal of Colloid and Interface Science (2019)
Carbon nanospheres induced high negative permittivity in nanosilver-polydopamine metacomposites
Hongbo Gu;Xiaojiang Xu;Mengyao Dong;Mengyao Dong;Peitao Xie.
An overview of stretchable strain sensors from conductive polymer nanocomposites
Jianwen Chen;Jianwen Chen;Qunli Yu;Xihua Cui;Mengyao Dong;Mengyao Dong.
Journal of Materials Chemistry C (2019)
Poly (vinyl butyral)/Graphene oxide/poly (methylhydrosiloxane) nanocomposite coating for improved aluminum alloy anticorrosion
Guiyu Zhu;Xiaokun Cui;Yue Zhang;Shougang Chen.
3-D magnetic graphene oxide-magnetite poly(vinyl alcohol) nanocomposite substrates for immobilizing enzyme
Yanyun Li;Tao Jing;Gaofeng Xu;Jingzhi Tian.
Reduced Graphene Oxide Heterostructured Silver Nanoparticles Significantly Enhanced Thermal Conductivities in Hot-Pressed Electrospun Polyimide Nanocomposites.
Yongqiang Guo;Xutong Yang;Kunpeng Ruan;Jie Kong.
ACS Applied Materials & Interfaces (2019)
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