Hong Xia focuses on Nanotechnology, Femtosecond, Laser, Microfluidics and Graphene. His research in Nanotechnology intersects with topics in Porosity and Photon. His studies in Porosity integrate themes in fields like Photocatalysis, Covalent bond, Luminescence, Inorganic chemistry and Crystallinity.
His Femtosecond study combines topics from a wide range of disciplines, such as Lithography, Nanoparticle, Absorption, Microchannel and Visible spectrum. His research on Laser frequently links to adjacent areas such as Fluorescence. His work focuses on many connections between Microfluidics and other disciplines, such as Laser direct writing, that overlap with his field of interest in Surface smoothness, Microelectronics, Nanolithography, Optical diffraction and Soft lithography.
His primary areas of study are Nanotechnology, Optoelectronics, Femtosecond, Laser and Polymer. His Nanotechnology research incorporates themes from Photocatalysis, Porosity and Structural coloration. His research integrates issues of Nanolithography, Microfluidics, Substrate and Microlens in his study of Femtosecond.
The Laser study combines topics in areas such as Polymerization and Two-photon excitation microscopy. His Polymer research is multidisciplinary, relying on both Physisorption and Chemical engineering, Chemical stability. He combines subjects such as Supercapacitor and Oxide with his study of Graphene.
His scientific interests lie mostly in Optoelectronics, Nanotechnology, Photocatalysis, Chemical engineering and Polymer. His Optoelectronics research integrates issues from Organic inorganic and Laser, Femtosecond. His study in Laser is interdisciplinary in nature, drawing from both Supercapacitor, Detector and Graphene.
His Femtosecond course of study focuses on Nanoparticle and Pressure sensor. His Nanotechnology study integrates concerns from other disciplines, such as Porosity, Catalysis and Band gap. The various areas that Hong Xia examines in his Photocatalysis study include Surface modification and Conjugated microporous polymer.
Hong Xia mostly deals with Photocatalysis, Chemical engineering, Optoelectronics, Environmentally friendly and Polymer. His Photocatalysis study incorporates themes from Nanomaterials, MXenes and Chemical process. His Chemical engineering research is multidisciplinary, incorporating elements of Acceptor and Imine.
His studies deal with areas such as Single crystal and Grain boundary as well as Optoelectronics. His work carried out in the field of Polymer brings together such families of science as Surface modification, Organic synthesis, Carbazole and Oxidative coupling of methane. Hong Xia has researched Catalysis in several fields, including Nanotechnology, Metal-organic framework and Covalent organic framework.
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Direct imprinting of microcircuits on graphene oxides film by femtosecond laser reduction
Yonglai Zhang;Li Guo;Shu Wei;Yinyan He.
Nano Today (2010)
Designable 3D nanofabrication by femtosecond laser direct writing
Yong-Lai Zhang;Qi-Dai Chen;Hong Xia;Hong-Bo Sun.
Nano Today (2010)
Recent developments in superhydrophobic surfaces with unique structural and functional properties
Yong Lai Zhang;Yong Lai Zhang;Hong Xia;Eunkyoung Kim;Hong Bo Sun.
Soft Matter (2012)
Photoreduction of Graphene Oxides: Methods, Properties, and Applications
Yong-Lai Zhang;Li Guo;Hong Xia;Qi-Dai Chen.
Advanced Optical Materials (2014)
A 2D azine-linked covalent organic framework for gas storage applications
Zhongping Li;Xiao Feng;Yongcun Zou;Yuwei Zhang.
Chemical Communications (2014)
Ferrofluids for fabrication of remotely controllable micro-nanomachines by two-photon polymerization.
Hong Xia;Juan Wang;Ye Tian;Qi-Dai Chen.
Advanced Materials (2010)
A robust and luminescent covalent organic framework as a highly sensitive and selective sensor for the detection of Cu(2+) ions.
Zhongping Li;Yuwei Zhang;Hong Xia;Ying Mu.
Chemical Communications (2016)
Covalent organic frameworks: efficient, metal-free, heterogeneous organocatalysts for chemical fixation of CO2 under mild conditions
Yongfeng Zhi;Pengpeng Shao;Xiao Feng;Hong Xia.
Journal of Materials Chemistry (2018)
Monolayer II-VI semiconductors: A first-principles prediction
Hui Zheng;Xian-Bin Li;Nian-Ke Chen;Sheng-Yi Xie.
Physical Review B (2015)
Moisture-responsive graphene paper prepared by self-controlled photoreduction.
Dong-Dong Han;Yong-Lai Zhang;Hao-Bo Jiang;Hong Xia.
Advanced Materials (2015)
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