The scientist’s investigation covers issues in Nanotechnology, Nanowire, Condensed matter physics, Dislocation and Composite material. His Nanotechnology study combines topics in areas such as Optoelectronics and Crystallite. Xiaodong Han interconnects Plasticity, One-Step, Coercivity, Shell and Anisotropy in the investigation of issues within Nanowire.
His Condensed matter physics study combines topics from a wide range of disciplines, such as Deformation mechanism and Atomic diffusion. His studies deal with areas such as Intermetallic, Tension, Transmission electron microscopy, Bending and Bent molecular geometry as well as Dislocation. His biological study spans a wide range of topics, including Nanoparticle and Vapor–liquid–solid method.
His main research concerns Composite material, Transmission electron microscopy, Nanowire, Nanotechnology and Condensed matter physics. His Deformation, Dislocation, Plasticity, Microstructure and Ultimate tensile strength study are his primary interests in Composite material. His Transmission electron microscopy study integrates concerns from other disciplines, such as Nucleation, Crystallography, Amorphous solid, Thin film and Nanomaterials.
His Crystallography research includes themes of Alloy and Scanning transmission electron microscopy. His Nanowire research is multidisciplinary, relying on both Nanometre, Ceramic and Nanostructure. The Nanotechnology study combines topics in areas such as Electrochemistry and Semiconductor.
Condensed matter physics, Transmission electron microscopy, Deformation, Dislocation and Alloy are his primary areas of study. His work on Antiferromagnetism and Spintronics as part of general Condensed matter physics research is frequently linked to Exchange bias and Atomic units, bridging the gap between disciplines. He has included themes like Chemical physics, Nanoscopic scale, Crystallization, Amorphous solid and Resolution in his Transmission electron microscopy study.
His Deformation research incorporates themes from Crystal twinning, Nanowire and Nucleation. He has begun a study into Nanowire, looking into Optoelectronics and Nanotechnology. Within one scientific family, Xiaodong Han focuses on topics pertaining to Nanocrystalline material under Composite material, and may sometimes address concerns connected to Thin film.
Xiaodong Han mainly focuses on Alloy, Composite material, Nanocrystalline material, Hydrogen production and Noble metal. In most of his Composite material studies, his work intersects topics such as Valence electron. His Nanocrystalline material study incorporates themes from Nanoscopic scale, Ag alloy, Mg alloys, Transmission electron microscopy and Dislocation.
His Dislocation research is multidisciplinary, incorporating elements of Grain boundary, Plasticity and Metallurgy, Annealing, Crystallite. His work in Metal addresses issues such as Nanoparticle, which are connected to fields such as Platinum and Photochemistry. His Grain size research is multidisciplinary, incorporating perspectives in Deformation mechanism and Deformation.
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A graphene quantum dot photodynamic therapy agent with high singlet oxygen generation
Jiechao Ge;Minhuan Lan;Bingjiang Zhou;Weimin Liu.
Nature Communications (2014)
Single-crystalline iron oxide nanotubes.
Chun-Jiang Jia;Ling-Dong Sun;Zheng-Guang Yan;Li-Ping You.
Angewandte Chemie (2005)
Large-scale synthesis of single-crystalline iron oxide magnetic nanorings.
Chun-Jiang Jia;Ling-Dong Sun Sun;Feng Luo;Xiao-Dong Han.
Journal of the American Chemical Society (2008)
Delicate control of crystallographic facet-oriented Cu2O nanocrystals and the correlated adsorption ability
Dong-Feng Zhang;Hua Zhang;Lin Guo;Kun Zheng.
Journal of Materials Chemistry (2009)
Low‐Temperature In Situ Large‐Strain Plasticity of Silicon Nanowires
Xiaodong Han;Kun Zheng;Yuefei Zhang;Xiaona Zhang.
Advanced Materials (2007)
Multicomponent intermetallic nanoparticles and superb mechanical behaviors of complex alloys
T. Yang;Y. L. Zhao;Y. Tong;Z. B. Jiao.
Grain rotation mediated by grain boundary dislocations in nanocrystalline platinum
Lihua Wang;Jiao Teng;Pan Liu;Akihiko Hirata.
Nature Communications (2014)
Low-Temperature in Situ Large Strain Plasticity of Ceramic SiC Nanowires and Its Atomic-Scale Mechanism
X. D. Han;Y. F. Zhang;K. Zheng;X. N. Zhang.
Nano Letters (2007)
Electron-beam-assisted superplastic shaping of nanoscale amorphous silica.
Kun Zheng;Chengcai Wang;Yong-Qiang Cheng;Yonghai Yue.
Nature Communications (2010)
Direct Observation of Super-Plasticity of Beta-SiC Nanowires at Low Temperature†
Yuefei Zhang;Xiaodong Han;Kun Zheng;Ze Zhang.
Advanced Functional Materials (2007)
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