H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Engineering and Technology D-index 32 Citations 3,871 89 World Ranking 4754 National Ranking 529

Overview

What is he best known for?

The fields of study he is best known for:

  • Oxygen
  • Redox
  • Electrochemistry

His scientific interests lie mostly in Nanotechnology, Lithium, Anode, Nanostructure and Electrochemistry. The Nanotechnology study combines topics in areas such as Photocatalysis, Porosity and High surface. His study on Porous medium is often connected to Energy-Generating Resources, Energy storage and Energy transformation as part of broader study in Porosity.

His studies deal with areas such as Electrolyte, Polysulfide and Redox as well as Lithium. His study in Anode is interdisciplinary in nature, drawing from both Amorphous solid and Pseudocapacitance. Electrochemistry is a subfield of Electrode that he studies.

His most cited work include:

  • Applications of hierarchically structured porous materials from energy storage and conversion, catalysis, photocatalysis, adsorption, separation, and sensing to biomedicine (672 citations)
  • Regulating the polysulfide redox conversion by iron phosphide nanocrystals for high-rate and ultrastable lithium-sulfur battery (122 citations)
  • Tailoring CuO nanostructures for enhanced photocatalytic property. (116 citations)

What are the main themes of his work throughout his whole career to date?

Anode, Lithium, Nanotechnology, Electrochemistry and Electrode are his primary areas of study. His work carried out in the field of Anode brings together such families of science as Cathode, Specific surface area, Graphene and Nanostructure. His Lithium study combines topics from a wide range of disciplines, such as Porosity, Amorphous solid, Electrolyte, Mesoporous material and Calcination.

The various areas that Shaozhuan Huang examines in his Nanotechnology study include Photocatalysis and Anatase. In general Electrochemistry study, his work on Sodium-ion battery often relates to the realm of Energy storage, Sodium and Reactivity, thereby connecting several areas of interest. His Electrode research includes themes of Desalination, Optoelectronics and Nanocrystal.

He most often published in these fields:

  • Anode (43.56%)
  • Lithium (34.65%)
  • Nanotechnology (31.68%)

What were the highlights of his more recent work (between 2019-2021)?

  • Anode (43.56%)
  • Cathode (16.83%)
  • Electrode (21.78%)

In recent papers he was focusing on the following fields of study:

Shaozhuan Huang mostly deals with Anode, Cathode, Electrode, Lithium and Electrochemistry. His research integrates issues of Optoelectronics, Cobalt metal and Graphene in his study of Anode. His biological study spans a wide range of topics, including Amorphous solid, Octahedron and Aqueous solution.

The Capacitive deionization research Shaozhuan Huang does as part of his general Electrode study is frequently linked to other disciplines of science, such as Fabrication, therefore creating a link between diverse domains of science. His Lithium research integrates issues from Electrolyte and Nanocrystal. His Electrochemistry research incorporates elements of Quantum dot, Ammonia production, Transition metal and Analytical chemistry.

Between 2019 and 2021, his most popular works were:

  • Enabling Superior Sodium Capture for Efficient Water Desalination by a Tubular Polyaniline Decorated with Prussian Blue Nanocrystals. (20 citations)
  • Enhanced sodium storage kinetics by volume regulation and surface engineering via rationally designed hierarchical porous [email protected]/rGO. (20 citations)
  • Regulating the breathing of mesoporous Fe0.95S1.05 nanorods for fast and durable sodium storage (11 citations)

In his most recent research, the most cited papers focused on:

  • Oxygen
  • Redox
  • Electrochemistry

Shaozhuan Huang spends much of his time researching Electrode, Cathode, Anode, Sodium and Science, technology and society. His Electrode research is multidisciplinary, incorporating elements of Composite number and Nanocrystal. His studies in Cathode integrate themes in fields like Electrochemistry and Aqueous solution.

The study incorporates disciplines such as Iron phosphide, Nanocomposite and Surface engineering in addition to Anode. His Science, technology and society study spans across into fields like Chemical substance and Nanotechnology. His Nanotechnology research incorporates themes from Lamellar structure, Molybdenum, Supercapacitor, Molybdenum disulfide and Band gap.

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.

Best Publications

Applications of hierarchically structured porous materials from energy storage and conversion, catalysis, photocatalysis, adsorption, separation, and sensing to biomedicine

Ming-Hui Sun;Shao-Zhuan Huang;Li-Hua Chen;Yu Li.
Chemical Society Reviews (2016)

661 Citations

Tailoring CuO nanostructures for enhanced photocatalytic property.

Jing Liu;Jun Jin;Zhao Deng;Shao-Zhuan Huang.
joint international conference on information sciences (2012)

165 Citations

Design of new anode materials based on hierarchical, three dimensional ordered macro-mesoporous TiO2 for high performance lithium ion batteries

Jun Jin;Shao Zhuan Huang;Jing Liu;Yu Li.
Journal of Materials Chemistry (2014)

152 Citations

Regulating the polysulfide redox conversion by iron phosphide nanocrystals for high-rate and ultrastable lithium-sulfur battery

Shaozhuan Huang;Yew Von Lim;Xiaoming Zhang;Ye Wang;Ye Wang.
Nano Energy (2018)

144 Citations

Tunable Pseudocapacitance in 3D TiO2−δ Nanomembranes Enabling Superior Lithium Storage Performance

Shaozhuan Huang;Lin Zhang;Xueyi Lu;Lifeng Liu.
ACS Nano (2017)

109 Citations

2D carbide nanomeshes and their assembling into 3D microflowers for efficient water splitting

Zongkui Kou;Lei Zhang;Yuanyuan Ma;Ximeng Liu.
Applied Catalysis B-environmental (2019)

97 Citations

Engineering single crystalline Mn3O4 nano-octahedra with exposed highly active {011} facets for high performance lithium ion batteries

Shao Zhuan Huang;Jun Jin;Yi Cai;Yu Li.
Nanoscale (2014)

95 Citations

Hierarchical mesoporous urchin-like Mn3O4/carbon microspheres with highly enhanced lithium battery performance by in-situ carbonization of new lamellar manganese alkoxide (Mn-DEG)

Shao Zhuan Huang;Yi Cai;Jun Jin;Jing Liu.
Nano Energy (2015)

91 Citations

3D carbon foam-supported WS2 nanosheets for cable-shaped flexible sodium ion batteries

Ye Wang;Ye Wang;Dezhi Kong;Shaozhuan Huang;Yumeng Shi;Yumeng Shi.
Journal of Materials Chemistry (2018)

89 Citations

Highly porous TiO2 hollow microspheres constructed by radially oriented nanorods chains for high capacity, high rate and long cycle capability lithium battery

Jun Jin;Shao Zhuan Huang;Jie Shu;Hong En Wang.
Nano Energy (2015)

73 Citations

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Best Scientists Citing Shaozhuan Huang

Bao-Lian Su

Bao-Lian Su

University of Namur

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Yu Li

Wuhan University of Technology

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Yusuke Yamauchi

Yusuke Yamauchi

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Yan Yu

Yan Yu

University of Science and Technology of China

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Hui Ying Yang

Hui Ying Yang

Singapore University of Technology and Design

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Hong-En Wang

Hong-En Wang

Yunnan Normal University

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Guozhong Cao

Guozhong Cao

University of Washington

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Xiao-Yu Yang

Xiao-Yu Yang

Wuhan University of Technology

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Xingtao Xu

Xingtao Xu

National Institute for Materials Science

Publications: 20

Huan Pang

Huan Pang

Yangzhou University

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Likun Pan

Likun Pan

East China Normal University

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Liqiang Mai

Liqiang Mai

Wuhan University of Technology

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Ye Wang

Ye Wang

Xiamen University

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Oliver G. Schmidt

Oliver G. Schmidt

Leibniz Institute for Solid State and Materials Research

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Xinjian Li

Xinjian Li

Zhengzhou University

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Shi Xue Dou

Shi Xue Dou

University of Wollongong

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