H
Haoyu Fu
Researcher at Chinese Academy of Sciences
Publications - 27
Citations - 1348
Haoyu Fu is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Electrochemistry & Electrolyte. The author has an hindex of 18, co-authored 23 publications receiving 1055 citations. Previous affiliations of Haoyu Fu include Center for Excellence in Education & Beijing University of Technology.
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Highly Efficient and Stable Perovskite Solar Cells Based on Monolithically Grained CH3NH3PbI3 Film
TL;DR: In this paper, thiourea is introduced into the CH3NH3PbI3 precursor with two-step sequential EA interfacial processing for the first time to grow compact microsized and monolithically grained perovskite films.
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Exploiting High-Performance Anode through Tuning the Character of Chemical Bonds for Li-Ion Batteries and Capacitors
TL;DR: In this article, a high performance anode material, MnNCN, is synthesized through a facile and low-cost method, and the relationship between electrochemical properties and chemical composition is explored on the scientific considerations that can provide an insight on designing expected materials.
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Controlled growth of textured perovskite films towards high performance solar cells
TL;DR: In this article, a CH 3 NH 3 Cl precursor for antisolvent precipitation at low temperature and fabricated high quality perovskite films with desired morphology, crystallinity and optical properties.
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Enhanced storage of sodium ions in Prussian blue cathode material through nickel doping
Haoyu Fu,Chaofeng Liu,Chaofeng Liu,Changkun Zhang,Wenda Ma,Kan Wang,Zhuoyu Li,Xianmao Lu,Guozhong Cao,Guozhong Cao +9 more
TL;DR: In this article, the authors found that substituting transition metal ions with Prussian blue (PB) with 3% Ni ions resulted in an improved discharge capacity of 117 mA h g−1.
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MnO nanoparticles with cationic vacancies and discrepant crystallinity dispersed into porous carbon for Li-ion capacitors
TL;DR: In this article, a 3D porous carbon with a pore volume of 0.27 cm3 g−1 demonstrated a high electrical conductivity of 6.25 S cm−1 and offered fast pathways for charge transfer and penetration of the electrolyte.