H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Materials Science D-index 60 Citations 15,247 150 World Ranking 3267 National Ranking 804

Overview

What is he best known for?

The fields of study he is best known for:

  • Catalysis
  • Organic chemistry
  • Oxygen

Weizhong Qian mostly deals with Carbon nanotube, Nanotechnology, Carbon, Graphene and Composite material. His biological study focuses on Carbon nanofiber. He interconnects Heterogeneous catalysis, Catalysis and Stress in the investigation of issues within Nanotechnology.

His study in Catalysis is interdisciplinary in nature, drawing from both Hydrogen and Methane. The study incorporates disciplines such as Specific surface area, Chemical vapor deposition, Microstructure and Mesoporous material in addition to Carbon. His Graphene research includes themes of Nanosheet, Capacitance, Supercapacitor, Composite number and Hybrid material.

His most cited work include:

  • Fast and reversible surface redox reaction of graphene–MnO2 composites as supercapacitor electrodes (1080 citations)
  • A three-dimensional carbon nanotube/graphene sandwich and its application as electrode in supercapacitors. (1063 citations)
  • Preparation of a graphene nanosheet/polyaniline composite with high specific capacitance (814 citations)

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

His primary areas of study are Carbon nanotube, Catalysis, Nanotechnology, Composite material and Carbon. His Carbon nanotube research is multidisciplinary, incorporating perspectives in Nanoparticle, Supercapacitor, Chemical vapor deposition and Raman spectroscopy. The Supercapacitor study combines topics in areas such as Electrolyte and Ionic liquid.

His research in Catalysis intersects with topics in Inorganic chemistry, Yield, Fluidized bed and Methanol. His work on Graphene, Carbon nanofiber and Nanomaterials as part of his general Nanotechnology study is frequently connected to SPHERES, thereby bridging the divide between different branches of science. His Graphene study incorporates themes from Hybrid material and Mesoporous material.

He most often published in these fields:

  • Carbon nanotube (57.75%)
  • Catalysis (37.97%)
  • Nanotechnology (35.83%)

What were the highlights of his more recent work (between 2016-2021)?

  • Catalysis (37.97%)
  • Methanol (12.30%)
  • Supercapacitor (12.83%)

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

Catalysis, Methanol, Supercapacitor, Graphene and Carbon nanotube are his primary areas of study. His Catalysis research incorporates themes from Coke, Nanoparticle, Hydrothermal circulation and Propane. His Supercapacitor study integrates concerns from other disciplines, such as Electrolyte, Current collector and Ionic liquid.

His Graphene study necessitates a more in-depth grasp of Nanotechnology. His work on Nanorod as part of general Nanotechnology study is frequently linked to Lower cost, bridging the gap between disciplines. His studies in Carbon nanotube integrate themes in fields like Methane, Nanomaterials and Mesoporous material.

Between 2016 and 2021, his most popular works were:

  • Carbon nanotube- and graphene-based nanomaterials and applications in high-voltage supercapacitor: A review (226 citations)
  • Cross‐Coupled Macro‐Mesoporous Carbon Network toward Record High Energy‐Power Density Supercapacitor at 4 V (83 citations)
  • 3D Hierarchical Porous Graphene-Based Energy Materials: Synthesis, Functionalization, and Application in Energy Storage and Conversion (31 citations)

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

  • Catalysis
  • Organic chemistry
  • Oxygen

Weizhong Qian spends much of his time researching Graphene, Supercapacitor, Mesoporous material, Catalysis and Carbon nanotube. His work carried out in the field of Graphene brings together such families of science as Capacitance, Chemical vapor deposition and Nanomaterials. In his research on the topic of Supercapacitor, Mesoporous carbon is strongly related with Ionic liquid.

His Mesoporous material course of study focuses on Specific surface area and Gelatin, Metal ions in aqueous solution, Wastewater and Activated carbon. His Catalysis research is multidisciplinary, relying on both Coke, Nanoparticle, Nanosheet and Diffusion. His Carbon nanotube study which covers Carbon that intersects with Polyacrylonitrile.

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

Fast and reversible surface redox reaction of graphene–MnO2 composites as supercapacitor electrodes

Jun Yan;Zhuangjun Fan;Tong Wei;Weizhong Qian.
Carbon (2010)

1244 Citations

A three-dimensional carbon nanotube/graphene sandwich and its application as electrode in supercapacitors.

Zhuangjun Fan;Jun Yan;Linjie Zhi;Qiang Zhang.
Advanced Materials (2010)

1219 Citations

Preparation of a graphene nanosheet/polyaniline composite with high specific capacitance

Jun Yan;Tong Wei;Bo Shao;Zhuangjun Fan.
Carbon (2010)

1033 Citations

The Road for Nanomaterials Industry: A Review of Carbon Nanotube Production, Post‐Treatment, and Bulk Applications for Composites and Energy Storage

Qiang Zhang;Jia-Qi Huang;Wei-Zhong Qian;Ying-Ying Zhang.
Small (2013)

568 Citations

Preparation of graphene nanosheet/carbon nanotube/polyaniline composite as electrode material for supercapacitors

Jun Yan;Tong Wei;Zhuangjun Fan;Weizhong Qian.
Journal of Power Sources (2010)

560 Citations

Electrochemical properties of graphene nanosheet/carbon black composites as electrodes for supercapacitors

Jun Yan;Tong Wei;Bo Shao;Fuqiu Ma.
Carbon (2010)

532 Citations

Ionic shield for polysulfides towards highly-stable lithium–sulfur batteries

Jia-Qi Huang;Qiang Zhang;Hong-Jie Peng;Xin-Yan Liu.
Energy and Environmental Science (2014)

505 Citations

Nanoarchitectured Graphene/[email protected] Carbon with Extraordinary Electrical Conductivity and Interconnected Micro/Mesopores for Lithium‐Sulfur Batteries

Hong-Jie Peng;Jia-Qi Huang;Meng-Qiang Zhao;Qiang Zhang.
Advanced Functional Materials (2014)

426 Citations

Gram-scale synthesis of nanomesh graphene with high surface area and its application in supercapacitor electrodes

Guoqing Ning;Zhuangjun Fan;Gang Wang;Jinsen Gao.
Chemical Communications (2011)

405 Citations

Carbon Nanotube Mass Production: Principles and Processes

Qiang Zhang;Jia-Qi Huang;Meng-Qiang Zhao;Wei-Zhong Qian.
Chemsuschem (2011)

339 Citations

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Best Scientists Citing Weizhong Qian

Fei Wei

Fei Wei

Tsinghua University

Publications: 126

Jia-Qi Huang

Jia-Qi Huang

Beijing Institute of Technology

Publications: 91

Zhuangjun Fan

Zhuangjun Fan

Harbin Engineering University

Publications: 51

Hui-Ming Cheng

Hui-Ming Cheng

Tsinghua University

Publications: 44

Hong-Jie Peng

Hong-Jie Peng

University of Electronic Science and Technology of China

Publications: 42

Jun Yan

Jun Yan

Harbin Engineering University

Publications: 41

Arumugam Manthiram

Arumugam Manthiram

The University of Texas at Austin

Publications: 41

Jieshan Qiu

Jieshan Qiu

Beijing University of Chemical Technology

Publications: 40

Meng-Qiang Zhao

Meng-Qiang Zhao

New Jersey Institute of Technology

Publications: 40

Tong Wei

Tong Wei

China University of Petroleum, Beijing

Publications: 39

Quan-Hong Yang

Quan-Hong Yang

Tianjin University

Publications: 36

Tianxi Liu

Tianxi Liu

Jiangnan University

Publications: 35

Linjie Zhi

Linjie Zhi

National Center for Nanoscience and Technology, China

Publications: 35

Shigeo Maruyama

Shigeo Maruyama

University of Tokyo

Publications: 35

Xin-Bing Cheng

Xin-Bing Cheng

Tsinghua University

Publications: 33

Feiyu Kang

Feiyu Kang

Tsinghua University

Publications: 32

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