His primary scientific interests are in Electrochemistry, Chemical engineering, Nanotechnology, Anode and Lithium. The various areas that he examines in his Electrochemistry study include Inorganic chemistry, Cathode, Sodium and Energy storage. His Chemical engineering research includes themes of Electrocatalyst, Oxygen evolution, Annealing and Electrospinning.
His Nanotechnology research is multidisciplinary, incorporating elements of Crystal growth and Ionic liquid. He has researched Anode in several fields, including Nanofiber, Supercapacitor, Tin and Metal. His research investigates the connection between Lithium and topics such as Battery that intersect with issues in Process engineering and Electrolyte.
Chemical engineering, Nanotechnology, Electrochemistry, Anode and Lithium are his primary areas of study. The study incorporates disciplines such as Porosity, Annealing, Electrolyte, Cathode and Composite number in addition to Chemical engineering. Jianmin Ma has included themes like Ionic liquid, Hydrothermal circulation and Energy storage in his Nanotechnology study.
His Energy storage study incorporates themes from Supercapacitor, Graphite, Electrode material and Capacitor. His Electrochemistry research focuses on subjects like Graphene, which are linked to Oxide. His Anode research is multidisciplinary, relying on both Battery, Lithium-ion battery, Inorganic chemistry and Potassium.
The scientist’s investigation covers issues in Chemical engineering, Anode, Electrochemistry, Nanotechnology and Energy storage. His Chemical engineering study integrates concerns from other disciplines, such as Porosity, Electrolyte, Potassium, Cathode and Lithium. His Anode research is multidisciplinary, incorporating perspectives in Battery, Zinc and Alloy.
His studies examine the connections between Electrochemistry and genetics, as well as such issues in Graphene, with regards to Oxide, Composite material and Thermal conductivity. His research in Nanotechnology intersects with topics in Electrocatalyst, Conductivity and Capacitor. The Energy storage study combines topics in areas such as Graphite, Supercapacitor and Electrode.
His primary areas of investigation include Chemical engineering, Anode, Electrochemistry, Nanotechnology and Porosity. His work on Graphene as part of general Chemical engineering study is frequently connected to Current density, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. His Anode study combines topics in areas such as Electrolyte and Ionic conductivity.
His Electrochemistry research integrates issues from Composite number, Metal and Lithium. His Nanotechnology study integrates concerns from other disciplines, such as Electrocatalyst, Capacitor, Electrode and Energy storage. His biological study spans a wide range of topics, including Cobalt and Annealing.
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.
Hematite (α-Fe2O3) with Various Morphologies: Ionic Liquid-Assisted Synthesis, Formation Mechanism, and Properties
Jiabiao Lian;Xiaochuan Duan;Jianmin Ma;Peng Peng.
ACS Nano (2009)
Filling the oxygen vacancies in Co3O4 with phosphorus: an ultra-efficient electrocatalyst for overall water splitting
Zhaohui Xiao;Yu Wang;Yu-Cheng Huang;Zengxi Wei.
Energy and Environmental Science (2017)
Nanomaterials for electrochemical non-enzymatic glucose biosensors
Peng Si;Youju Huang;Taihong Wang;Jianmin Ma.
RSC Advances (2013)
Boron-Doped Graphene for Electrocatalytic N2 Reduction
Xiaomin Yu;Peng Han;Zengxi Wei;Linsong Huang.
Joule (2018)
Metal-Free Carbon Materials for CO2 Electrochemical Reduction.
Xiaochuan Duan;Xiaochuan Duan;Jiantie Xu;Zengxi Wei;Jianmin Ma.
Advanced Materials (2017)
Ultrathin porous NiCo2O4 nanosheet arrays on flexible carbon fabric for high-performance supercapacitors.
Jun Du;Gang Zhou;Haiming Zhang;Chao Cheng.
ACS Applied Materials & Interfaces (2013)
α-Fe2O3: Hydrothermal Synthesis, Magnetic and Electrochemical Properties
Jianmin Ma;Jiabiao Lian;Xiaochuan Duan;Xiaodi Liu.
Journal of Physical Chemistry C (2010)
Pipe-Wire TiO2–[email protected] Nanofibers Paper Anodes for Lithium and Sodium Ion Batteries
Minglei Mao;Feilong Yan;Chunyu Cui;Jianmin Ma.
Nano Letters (2017)
Recent Progress in Graphite Intercalation Compounds for Rechargeable Metal (Li, Na, K, Al)-Ion Batteries
Jiantie Xu;Yuhai Dou;Zengxi Wei;Jianmin Ma.
Advanced Science (2017)
Aging behavior and ionic conductivity of ceria-based ceramics: a comparative study
T.S Zhang;J Ma;L.B Kong;S.H Chan.
Solid State Ionics (2004)
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:
Nankai University
Nankai University
Xiamen University
Zhengzhou University
South China University of Technology
University of Wollongong
University of Wollongong
University of Wollongong
Central South University
Hunan University
University of Melbourne
Trinity College Dublin
Delft University of Technology
Xi'an Jiaotong University
Zhejiang University
RWTH Aachen University
University of Groningen
South China University of Technology
deCODE Genetics (Iceland)
University of Toronto
University of Calabria
Fujita Health University
Nathan Kline Institute for Psychiatric Research
University of Queensland
National Institutes of Health
University of California, Los Angeles