Ferromagnetism, Nanotechnology, Condensed matter physics, Doping and Hydrogen are his primary areas of study. His Ferromagnetism study incorporates themes from Magnetism and Magnetic moment. His Nanotechnology research incorporates elements of Supercapacitor, Water splitting and Capacitor.
His research in Supercapacitor intersects with topics in Oxide, Nanochemistry, Surface modification, Polymer and Particle size. His study looks at the relationship between Condensed matter physics and fields such as Strain engineering, as well as how they intersect with chemical problems. His studies in Hydrogen integrate themes in fields like Inorganic chemistry, Monolayer, Graphitic carbon nitride, Adsorption and Conductivity.
Hui Pan mainly focuses on Nanotechnology, Catalysis, Condensed matter physics, Optoelectronics and Monolayer. His Catalysis research is multidisciplinary, relying on both Electrocatalyst, Overpotential, Hydrogen and Gibbs free energy. His Ferromagnetism and Spintronics study in the realm of Condensed matter physics connects with subjects such as Zigzag.
He works mostly in the field of Ferromagnetism, limiting it down to concerns involving Doping and, occasionally, Analytical chemistry. His study in Optoelectronics is interdisciplinary in nature, drawing from both Layer, Epitaxy, Perovskite and Electrode. His work in Monolayer addresses issues such as Semiconductor, which are connected to fields such as Band gap.
Hui Pan mainly investigates Catalysis, Electrocatalyst, Perovskite, Overpotential and Metal. The Catalysis study combines topics in areas such as Battery, Hydrogen, Electrochemistry and Nanotechnology. His study ties his expertise on Raman scattering together with the subject of Nanotechnology.
His Electrocatalyst study integrates concerns from other disciplines, such as Hydrogen evolution, Hydrogen production, Current density, Water splitting and Tafel equation. His Overpotential study also includes fields such as
The scientist’s investigation covers issues in Catalysis, Electrocatalyst, Hydrogen production, Water splitting and Overpotential. His biological study spans a wide range of topics, including Battery, Monolayer and Oxygen evolution, Electrochemistry. He has researched Electrocatalyst in several fields, including Atom, Hydrogen, Oxygen reduction reaction and Moiety.
His work investigates the relationship between Water splitting and topics such as Graphene that intersect with problems in Solar hydrogen, Nitrogen, Nitrogen doped graphene, Quantum dot and Dopant. His research on Transition metal also deals with topics like
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Carbon-doped ZnO: A New Class of Room Temperature Dilute Magnetic Semiconductor
H. Pan;J. B. Yi;J. Y. Lin;Y. P. Feng.
arXiv: Materials Science (2006)
Room-temperature ferromagnetism in carbon-doped ZnO.
H. Pan;J. B. Yi;L. Shen;R. Q. Wu.
Physical Review Letters (2007)
Quasiparticle band structures and optical properties of strained monolayer MoS 2 and WS 2
Hongliang Shi;Hui Pan;Yong-Wei Zhang;Boris I. Yakobson.
Physical Review B (2013)
Carbon Nanotubes for Supercapacitor
Hui Pan;Hui Pan;Jianyi Li;Yuan Ping Feng.
Nanoscale Research Letters (2010)
Band gap narrowing of titanium oxide semiconductors by noncompensated anion-cation codoping for enhanced visible-light photoactivity.
Wenguang Zhu;Wenguang Zhu;Xiaofeng Qiu;Violeta Iancu;Xing-Qiu Chen.
Physical Review Letters (2009)
Ferromagnetism in 2p Light Element-Doped II-oxide and III-nitride Semiconductors
L. Shen;R. Q. Wu;H. Pan;G. W. Peng.
arXiv: Materials Science (2007)
Mechanism of ferromagnetism in nitrogen-doped ZnO: First-principle calculations
L. Shen;L. Shen;R. Q. Wu;H. Pan;G. W. Peng.
Physical Review B (2008)
Growth of single-crystalline Ni and Co nanowires via electrochemical deposition and their magnetic properties.
Hui Pan;Binghai Liu;Jiabao Yi;Cheekok Poh.
Journal of Physical Chemistry B (2005)
Edge-dependent structural, electronic and magnetic properties of MoS2 nanoribbons
Hui Pan;Yong-Wei Zhang.
Journal of Materials Chemistry (2012)
Tuning the Electronic and Magnetic Properties of MoS2 Nanoribbons by Strain Engineering
Hui Pan;Yong-Wei Zhang.
Journal of Physical Chemistry C (2012)
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