Jiangfeng Qian spends much of his time researching Chemical engineering, Anode, Electrochemistry, Nanotechnology and Inorganic chemistry. His work on Microsphere as part of general Chemical engineering study is frequently linked to High rate, bridging the gap between disciplines. Jiangfeng Qian conducts interdisciplinary study in the fields of Anode and High capacity through his works.
His Electrochemistry research is multidisciplinary, incorporating elements of Cathode, Nanoparticle and Electric energy storage. His studies in Nanotechnology integrate themes in fields like Ion and Mesoporous material. The Inorganic chemistry study combines topics in areas such as Electrolyte and Lithium.
The scientist’s investigation covers issues in Chemical engineering, Anode, Electrochemistry, Electrolyte and Cathode. His Chemical engineering research incorporates themes from Composite number, Ion, Faraday efficiency, Lithium and Carbon. His Anode research includes themes of Nanocomposite, Nanoparticle, Copper, Alloy and Graphene.
His Electrochemistry research is multidisciplinary, relying on both Redox, Lithium-ion battery and Nanotechnology. His research in Electrolyte tackles topics such as Nanorod which are related to areas like Dendrite. His work deals with themes such as Inorganic chemistry, Intercalation, Cathode material, Prussian blue and Nanocrystal, which intersect with Cathode.
His primary scientific interests are in Chemical engineering, Anode, Cathode, Ion and Faraday efficiency. His work carried out in the field of Chemical engineering brings together such families of science as Sodium, Electrolyte, Lithium, Composite number and Carbon. His Anode study combines topics from a wide range of disciplines, such as Silicon, Dendrite, Nucleation, Nanoparticle and Carbonization.
Jiangfeng Qian interconnects Redox, Electrochemistry, Nanotechnology and Sulfur in the investigation of issues within Cathode. Jiangfeng Qian combines subjects such as Nanofiber and Prussian blue with his study of Ion. The concepts of his Faraday efficiency study are interwoven with issues in Chemical reaction and Sodium-ion battery.
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High rate and stable cycling of lithium metal anode
Jiangfeng Qian;Wesley A. Henderson;Wu Xu;Priyanka Bhattacharya.
Nature Communications (2015)
High capacity Na-storage and superior cyclability of nanocomposite Sb/C anode for Na-ion batteries.
Jiangfeng Qian;Yao Chen;Lin Wu;Yuliang Cao.
Chemical Communications (2012)
TiO2‐Coated Multilayered SnO2 Hollow Microspheres for Dye‐Sensitized Solar Cells
Jiangfeng Qian;Ping Liu;Yang Xiao;Yan Jiang.
Advanced Materials (2009)
High capacity and rate capability of amorphous phosphorus for sodium ion batteries.
Jiangfeng Qian;Xianyong Wu;Yuliang Cao;Xinping Ai.
Angewandte Chemie (2013)
Sb–C nanofibers with long cycle life as an anode material for high-performance sodium-ion batteries
Lin Wu;Xiaohong Hu;Jiangfeng Qian;Feng Pei.
Energy and Environmental Science (2014)
Synergistic Na-storage reactions in Sn4P3 as a high-capacity, cycle-stable anode of Na-ion batteries.
Jiangfeng Qian;Ya Xiong;Yuliang Cao;Xinping Ai.
Nano Letters (2014)
Template-Free Hydrothermal Synthesis of Nanoembossed Mesoporous LiFePO4 Microspheres for High-Performance Lithium-Ion Batteries
Jiangfeng Qian;Min Zhou;Yuliang Cao;Xinping Ai.
Journal of Physical Chemistry C (2010)
Prussian Blue Cathode Materials for Sodium‐Ion Batteries and Other Ion Batteries
Jiangfeng Qian;Chen Wu;Yuliang Cao;Zifeng Ma.
Advanced Energy Materials (2018)
P2-type Na0.67Mn0.65Fe0.2Ni0.15O2 Cathode Material with High-capacity for Sodium-ion Battery
Dingding Yuan;Xiaohong Hu;Jiangfeng Qian;Feng Pei.
Electrochimica Acta (2014)
A low-cost and environmentally benign aqueous rechargeable sodium-ion battery based on NaTi2(PO4)3–Na2NiFe(CN)6 intercalation chemistry
Xianyong Wu;Yuliang Cao;Xinping Ai;Jiangfeng Qian.
Electrochemistry Communications (2013)
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