His scientific interests lie mostly in Nanotechnology, Chemical engineering, Optoelectronics, Silicon and Hydrothermal circulation. His research in Nanotechnology intersects with topics in Anode and Lithium. His Chemical engineering study deals with Inorganic chemistry intersecting with Physical chemistry and Copper sulfide.
The Optoelectronics study combines topics in areas such as Sputter deposition and Graphene. The study incorporates disciplines such as Photovoltaic system, Substrate, Impurity and Grain boundary in addition to Silicon. The concepts of his Hydrothermal circulation study are interwoven with issues in Ethylene glycol, Selected area diffraction, Single crystal and Phase.
Silicon, Optoelectronics, Doping, Chemical engineering and Nanotechnology are his primary areas of study. His work carried out in the field of Silicon brings together such families of science as Wafer, Annealing, Oxygen and Analytical chemistry. His studies in Optoelectronics integrate themes in fields like Substrate and Electroluminescence.
His Doping research is multidisciplinary, incorporating perspectives in Boron, Nucleation, Inorganic chemistry, Mineralogy and Monocrystalline silicon. His research links Catalysis with Chemical engineering. His Nanotechnology research is multidisciplinary, relying on both Anode and Lithium.
Deren Yang spends much of his time researching Silicon, Optoelectronics, Chemical engineering, Doping and Perovskite. His Silicon study integrates concerns from other disciplines, such as Wafer, Composite material, Dislocation and Oxygen. The Energy conversion efficiency, Light-emitting diode, Solar cell and Diode research Deren Yang does as part of his general Optoelectronics study is frequently linked to other disciplines of science, such as Neuromorphic engineering, therefore creating a link between diverse domains of science.
His Chemical engineering study integrates concerns from other disciplines, such as Electrocatalyst, Anode and Catalysis. The various areas that Deren Yang examines in his Catalysis study include Intermetallic, Nanotechnology, Nanostructure and Epitaxy. Deren Yang has researched Doping in several fields, including Substrate and Graphene.
Deren Yang mainly investigates Optoelectronics, Chemical engineering, Silicon, Perovskite and Catalysis. His study looks at the relationship between Optoelectronics and fields such as Passivation, as well as how they intersect with chemical problems. His Chemical engineering study combines topics from a wide range of disciplines, such as Porosity and Anode, Electrode.
His work carried out in the field of Silicon brings together such families of science as Photodetector, Excitation, Doping and Graphene. His Catalysis research includes themes of Epitaxy, Nanostructure, Corrosion, Transmission electron microscopy and Etching. Deren Yang integrates several fields in his works, including Edge and Nanotechnology.
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Low temperature synthesis of flowerlike ZnO nanostructures by cetyltrimethylammonium bromide-assisted hydrothermal process
Hui Zhang;Deren Yang;Yujie Ji;Xiangyang Ma.
Journal of Physical Chemistry B (2004)
Porous Co3O4 Nanotubes Derived From Co4(CO)12 Clusters on Carbon Nanotube Templates : A Highly Efficient Material For Li-Battery Applications
Ning Du;Hui Zhang;Bindi Chen;Jianbo Wu.
Advanced Materials (2007)
Porous Indium Oxide Nanotubes: Layer‐by‐Layer Assembly on Carbon‐Nanotube Templates and Application for Room‐Temperature NH3 Gas Sensors
Ning Du;Hui Zhang;Bindi Chen;Xiangyang Ma.
Advanced Materials (2007)
Controllable growth of ZnO microcrystals by a capping-molecule-assisted hydrothermal process
Hui Zhang;Deren Yang;Dongshen Li;Xiangyang Ma.
Crystal Growth & Design (2005)
Synthesis of Pd−Pt Bimetallic Nanocrystals with a Concave Structure through a Bromide-Induced Galvanic Replacement Reaction
Hui Zhang;Mingshang Jin;Mingshang Jin;Jinguo Wang;Weiyang Li.
Journal of the American Chemical Society (2011)
Synthesis of flower-like ZnO nanostructures by an organic-free hydrothermal process
Hui Zhang;Deren Yang;Xiangyang Ma;Yujie Ji.
Selective etching of GaN polar surface in potassium hydroxide solution studied by x-ray photoelectron spectroscopy
Dongsheng Li;M. Sumiya;S. Fuke;Deren Yang.
Journal of Applied Physics (2001)
Demonstration of optical microfiber knot resonators
Xiaoshun Jiang;Limin Tong;Guillaume Vienne;Xin Guo.
Applied Physics Letters (2006)
Plasmonic Silicon Quantum Dots Enabled High-Sensitivity Ultrabroadband Photodetection of Graphene-Based Hybrid Phototransistors
Zhenyi Ni;Lingling Ma;Sichao Du;Yang Xu.
ACS Nano (2017)
Luminescent metal-organic framework films as highly sensitive and fast-response oxygen sensors.
Zhongshang Dou;Jiancan Yu;Yuanjing Cui;Yu Yang.
Journal of the American Chemical Society (2014)
Superlattices and Microstructures
(Impact Factor: 3.22)
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