His Chemical engineering study frequently draws connections to adjacent fields such as Graphene. Zhibin Lei integrates several fields in his works, including Graphene and Nanotechnology. He combines Nanotechnology and Electrical engineering in his studies. In his works, Zhibin Lei conducts interdisciplinary research on Electrical engineering and Chemical engineering. His Physical chemistry study often links to related topics such as Capacitance. Capacitance is often connected to Physical chemistry in his work. His research is interdisciplinary, bridging the disciplines of Dielectric spectroscopy and Electrode. He integrates Dielectric spectroscopy and Electrochemistry in his studies. In his work, he performs multidisciplinary research in Electrochemistry and Cyclic voltammetry.
In his work, Zhibin Lei performs multidisciplinary research in Nanotechnology and Carbon nanotube. Zhibin Lei integrates Carbon nanotube with Nanotechnology in his study. Chemical engineering is frequently linked to Graphene in his study. Graphene is closely attributed to Chemical engineering in his research. Physical chemistry connects with themes related to Electrolyte in his study. His Physical chemistry research extends to Electrolyte, which is thematically connected. In his works, Zhibin Lei undertakes multidisciplinary study on Electrode and Electrochemistry. Zhibin Lei performs multidisciplinary study on Electrochemistry and Electrode in his works. Zhibin Lei conducts interdisciplinary study in the fields of Composite material and Polymer through his research.
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Visible-light-driven hydrogen production with extremely high quantum efficiency on Pt-PdS/CdS photocatalyst
Hongjian Yan;Jinhui Yang;Jinhui Yang;Guijun Ma;Guijun Ma;Guopeng Wu.
Journal of Catalysis (2009)
Ultrathin MnO2 nanofibers grown on graphitic carbon spheres as high-performance asymmetric supercapacitor electrodes
Zhibin Lei;Jintao Zhang;X. S. Zhao.
Journal of Materials Chemistry (2012)
Photocatalytic water reduction under visible light on a novel ZnIn2S4 catalyst synthesized by hydrothermal method.
Zhibin Lei;Wansheng You;Meiying Liu;Guohua Zhou.
Chemical Communications (2003)
The electrocapacitive properties of graphene oxide reduced by urea
Zhibin Lei;Li Lu;X. S. Zhao.
Energy and Environmental Science (2012)
Intercalation of mesoporous carbon spheres between reduced graphene oxide sheets for preparing high-rate supercapacitor electrodes
Zhibin Lei;Nikolay Christov;X. S. Zhao.
Energy and Environmental Science (2011)
Hierarchically porous carbon by activation of shiitake mushroom for capacitive energy storage
Ping Cheng;Shuangyan Gao;Peiyu Zang;Xiaofan Yang.
Incorporation of MnO2-Coated Carbon Nanotubes between Graphene Sheets as Supercapacitor Electrode
Zhibin Lei;Fuhua Shi;Li Lu.
ACS Applied Materials & Interfaces (2012)
Biomass-Derived Carbon Fiber Aerogel as a Binder-Free Electrode for High-Rate Supercapacitors
Ping Cheng;Ting Li;Hang Yu;Lei Zhi.
Journal of Physical Chemistry C (2016)
Growth of Polyaniline on Hollow Carbon Spheres for Enhancing Electrocapacitance
Zhibin Lei;Zhongwei Chen;X. S. Zhao.
Journal of Physical Chemistry C (2010)
Three-Dimensional Tubular MoS2/PANI Hybrid Electrode for High Rate Performance Supercapacitor.
Lijun Ren;Gaini Zhang;Zhe Yan;Liping Kang.
ACS Applied Materials & Interfaces (2015)
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