The scientist’s investigation covers issues in Condensed matter physics, Thermal conductivity, Graphene, Phonon and Optoelectronics. Gang Zhang is studying Phosphorene, which is a component of Condensed matter physics. His research integrates issues of Thermal conduction, Nanowire, Carbon nanotube and Molecular dynamics in his study of Thermal conductivity.
His Graphene research is multidisciplinary, incorporating elements of Electron, Thermal and Raman spectroscopy. His study in Phonon is interdisciplinary in nature, drawing from both Anharmonicity, Heat current, Mean free path and Coating. The various areas that Gang Zhang examines in his Optoelectronics study include Transistor, Emissivity, Radiative cooling and Rectifier.
Gang Zhang mainly focuses on Condensed matter physics, Thermal conductivity, Phonon, Graphene and Optoelectronics. His Condensed matter physics research is mostly focused on the topic Phosphorene. His research investigates the connection between Thermal conductivity and topics such as Molecular dynamics that intersect with problems in Composite material.
His studies in Phonon integrate themes in fields like Scattering, Mean free path and Boltzmann equation. His Graphene research integrates issues from Chemical physics, Electron and Work. His research investigates the link between Optoelectronics and topics such as Electrical engineering that cross with problems in Flash memory.
Gang Zhang mostly deals with Condensed matter physics, Thermal conductivity, Phonon, Semiconductor and Engineering physics. His biological study deals with issues like Monolayer, which deal with fields such as Chemical physics. The Thermal conductivity study combines topics in areas such as Thermal, Boltzmann equation, Amorphous solid, Thermal conduction and Graphene.
In his study, Fermi level is inextricably linked to Symmetry, which falls within the broad field of Phonon. His Semiconductor research focuses on Conductance and how it connects with Nanoelectronics, Boundary and Transition metal. Gang Zhang combines subjects such as Photon, Quantum information, Spins and Electronics with his study of Engineering physics.
His primary areas of investigation include Condensed matter physics, Thermal conductivity, Engineering physics, Phonon and Heterojunction. His biological study spans a wide range of topics, including Work, Thermoelectric effect, Thermoelectric materials, NODAL and Graphene. His Graphene study incorporates themes from Thermal conduction, Diamond and Anisotropy.
His Thermal conductivity study integrates concerns from other disciplines, such as Interfacial thermal resistance and Thermal. His research in Phonon intersects with topics in Nanowire and Electron. His Heterojunction research also works with subjects such as
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Quantitative assessment on the cloning efficiencies of lentiviral transfer vectors with a unique clone site.
Gang Zhang;Anurag Tandon.
Scientific Reports (2012)
Colloquium : Phononics: Manipulating heat flow with electronic analogs and beyond
Nianbei Li;Jie Ren;Lei Wang;Gang Zhang.
Reviews of Modern Physics (2012)
Comparison of DFT Methods for Molecular Orbital Eigenvalue Calculations
Gang Zhang;Charles B. Musgrave.
Journal of Physical Chemistry A (2007)
Layer-dependent Band Alignment and Work Function of Few-Layer Phosphorene
Yongqing Cai;Gang Zhang;Yong-Wei Zhang.
Scientific Reports (2015)
Extraordinary Photoluminescence and Strong Temperature/Angle-Dependent Raman Responses in Few-Layer Phosphorene
Shuang Zhang;Jiong Yang;Renjing Xu;Fan Wang.
ACS Nano (2014)
Ultrafast and directional diffusion of lithium in phosphorene for high-performance lithium-ion battery.
Weifeng Li;Yanmei Yang;Gang Zhang;Yong-Wei Zhang.
Nano Letters (2015)
Polarity-Reversed Robust Carrier Mobility in Monolayer MoS2 Nanoribbons
Yongqing Cai;Gang Zhang;Yong-Wei Zhang.
Journal of the American Chemical Society (2014)
Towards intrinsic charge transport in monolayer molybdenum disulfide by defect and interface engineering
Zhihao Yu;Yiming Pan;Yuting Shen;Zilu Wang.
Nature Communications (2014)
Thermal rectification in asymmetric graphene ribbons
Nuo Yang;Gang Zhang;Baowen Li.
Applied Physics Letters (2009)
Lattice vibrational modes and phonon thermal conductivity of monolayer MoS2
Yongqing Cai;Jinghua Lan;Gang Zhang;Yong-Wei Zhang.
Physical Review B (2014)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: