2023 - Research.com Rising Star of Science Award
2022 - Research.com Rising Star of Science Award
His Chemical engineering study has been linked to subjects such as Nanostructure and Nanorod. His research on Nanostructure often connects related areas such as Chemical engineering. Hao Bin Wu brings together Nanotechnology and Nanocomposite to produce work in his papers. His work blends Nanocomposite and Nanotechnology studies together. His Physical chemistry study frequently links to related topics such as Electrode. Electrode is closely attributed to Electrochemical energy conversion in his study. His research ties Electrochemistry and Electrochemical energy conversion together. He undertakes interdisciplinary study in the fields of Electrochemistry and Anode through his works. His Physical chemistry research extends to Anode, which is thematically connected.
Metallurgy is intertwined with Metal and Oxide in his research. His study deals with a combination of Metal and Metallurgy. His multidisciplinary approach integrates Nanotechnology and Nanostructure in his work. He combines Nanostructure and Nanotechnology in his research. He brings together Chemical engineering and Physical chemistry to produce work in his papers. His work blends Physical chemistry and Chemical engineering studies together. Hao Bin Wu regularly ties together related areas like Supercapacitor in his Electrode studies. His research ties Electrode and Supercapacitor together. Hao Bin Wu conducts interdisciplinary study in the fields of Organic chemistry and Inorganic chemistry through his works.
His research investigates the link between Cobalt and topics such as Inorganic chemistry that cross with problems in Tungstate. His studies link Inorganic chemistry with Tungstate. His Chemical engineering study frequently draws parallels with other fields, such as Dissolution. Much of his study explores Dissolution relationship to Chemical engineering. As part of his studies on Physical chemistry, he often connects relevant areas like Aqueous solution. Hao Bin Wu combines topics linked to Physical chemistry with his work on Aqueous solution. His research on Metallurgy often connects related areas such as Annealing (glass). The study of Electrode is intertwined with the study of Fast ion conductor in a number of ways. In his research, Hao Bin Wu undertakes multidisciplinary study on Fast ion conductor and Electrolyte.
Organic chemistry is often connected to In situ in his work. As part of his studies on In situ, Hao Bin Wu frequently links adjacent subjects like Organic chemistry. His Chemical engineering study frequently draws connections between adjacent fields such as Gibbs isotherm. His research brings together the fields of Physical chemistry and Gibbs isotherm. As part of his studies on Physical chemistry, Hao Bin Wu often connects relevant subjects like Interface (matter). His Interface (matter) study frequently links to other fields, such as Chemical engineering. He conducted interdisciplinary study in his works that combined Receptor and Ligand (biochemistry). His research links Biochemistry with Ligand (biochemistry). Hao Bin Wu undertakes interdisciplinary study in the fields of Biochemistry and Receptor through his research.
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Mixed transition-metal oxides: design, synthesis, and energy-related applications.
Changzhou Yuan;Hao Bin Wu;Yi Xie;Xiong Wen David Lou.
Angewandte Chemie (2014)
A metal–organic framework-derived bifunctional oxygen electrocatalyst
Bao Yu Xia;Ya Yan;Nan Li;Hao Bin Wu.
Nature Energy (2016)
Porous molybdenum carbide nano-octahedrons synthesized via confined carburization in metal-organic frameworks for efficient hydrogen production
Hao Bin Wu;Bao Yu Xia;Le Yu;Xin-Yao Yu.
Nature Communications (2015)
Nanostructured metal oxide-based materials as advanced anodes for lithium-ion batteries.
Hao Bin Wu;Jun Song Chen;Huey Hoon Hng;Xiong Wen David Lou.
Formation of nickel cobalt sulfide ball-in-ball hollow spheres with enhanced electrochemical pseudocapacitive properties
Laifa Shen;Le Yu;Hao Bin Wu;Xin-Yao Yu.
Nature Communications (2015)
Enhancing lithium–sulphur battery performance by strongly binding the discharge products on amino-functionalized reduced graphene oxide
Zhiyu Wang;Yanfeng Dong;Hongjiang Li;Zongbin Zhao.
Nature Communications (2014)
Confining Sulfur in Double-Shelled Hollow Carbon Spheres for Lithium-Sulfur Batteries
Chaofeng Zhang;Hao Bin Wu;Changzhou Yuan;Zaiping Guo.
Angewandte Chemie (2012)
Formation of Fe2O3 Microboxes with Hierarchical Shell Structures from Metal–Organic Frameworks and Their Lithium Storage Properties
Lei Zhang;Hao Bin Wu;Srinivasan Madhavi;Huey Hoon Hng.
Journal of the American Chemical Society (2012)
Quasiemulsion-templated formation of α-Fe2O3 hollow spheres with enhanced lithium storage properties.
Bao Wang;Jun Song Chen;Hao Bin Wu;Zhiyu Wang.
Journal of the American Chemical Society (2011)
Single-crystalline NiCo2O4 nanoneedle arrays grown on conductive substrates as binder-free electrodes for high-performance supercapacitors
Gen Qiang Zhang;Hao Bin Wu;Harry E. Hoster;Mary B. Chan-Park.
Energy and Environmental Science (2012)
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