H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Materials Science D-index 58 Citations 8,932 167 World Ranking 3698 National Ranking 914
Chemistry D-index 58 Citations 8,742 181 World Ranking 5609 National Ranking 751

Overview

What is he best known for?

The fields of study he is best known for:

  • Organic chemistry
  • Catalysis
  • Redox

Detection limit, Electrode, Graphene, Nuclear chemistry and Electrochemistry are his primary areas of study. His Detection limit study combines topics in areas such as Amperometry and Nanoparticle, Nanotechnology. His studies deal with areas such as Inorganic chemistry, Cobalt, Nanocomposite and Boron as well as Electrode.

His work deals with themes such as Chitosan, Oxide and Doping, which intersect with Graphene. His Nuclear chemistry research is multidisciplinary, incorporating elements of Selectivity and Electrochemiluminescence. The various areas that Dan Wu examines in his Electrochemistry study include Amorphous solid and Nanosheet.

His most cited work include:

  • Co(OH)2 Nanoparticle‐Encapsulating Conductive Nanowires Array: Room‐Temperature Electrochemical Preparation for High‐Performance Water Oxidation Electrocatalysis (188 citations)
  • Electrochemical bisphenol A sensor based on N-doped graphene sheets. (164 citations)
  • Label-free immunosensor for the detection of kanamycin using [email protected] nanoparticles and thionine mixed graphene sheet (142 citations)

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

Dan Wu focuses on Detection limit, Electrode, Electrochemistry, Nanoparticle and Nanotechnology. The study incorporates disciplines such as Graphene and Nuclear chemistry in addition to Detection limit. His Electrode research is multidisciplinary, incorporating perspectives in Inorganic chemistry, Selectivity and Chromatography.

His Electrochemistry research incorporates elements of Catalysis, Mesoporous material, Palladium, Hydrogen peroxide and Redox. The Nanoparticle study combines topics in areas such as Mesoporous silica, Photochemistry, Visible spectrum and Primary and secondary antibodies. His research integrates issues of Biocompatibility, Photocurrent and Electron transfer in his study of Nanotechnology.

He most often published in these fields:

  • Detection limit (68.42%)
  • Electrode (30.14%)
  • Electrochemistry (28.71%)

What were the highlights of his more recent work (between 2017-2021)?

  • Detection limit (68.42%)
  • Electrochemiluminescence (19.14%)
  • Nanoparticle (27.27%)

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

His scientific interests lie mostly in Detection limit, Electrochemiluminescence, Nanoparticle, Linear range and Electrochemistry. His Detection limit study integrates concerns from other disciplines, such as Nuclear chemistry, Biosensor, Electrode, Combinatorial chemistry and Colloidal gold. His Nanoparticle study incorporates themes from Conjugated system, Photocurrent, Visible spectrum and Graphene.

His Graphene research integrates issues from Oxide and Doping. The concepts of his Linear range study are interwoven with issues in Covalent bond, Selectivity and Specific surface area. His Electrochemistry research incorporates elements of Controlled release, Nanorod and Catalysis, Mesoporous material.

Between 2017 and 2021, his most popular works were:

  • Co(OH)2 Nanoparticle‐Encapsulating Conductive Nanowires Array: Room‐Temperature Electrochemical Preparation for High‐Performance Water Oxidation Electrocatalysis (188 citations)
  • Label-free photoelectrochemical immunoassay for CEA detection based on CdS sensitized [email protected] heterostructure nanocomposite. (130 citations)
  • Self-supported CoMoS 4 nanosheet array as an efficient catalyst for hydrogen evolution reaction at neutral pH (94 citations)

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

  • Organic chemistry
  • Catalysis
  • Redox

His primary areas of investigation include Electrochemistry, Detection limit, Catalysis, Electrocatalyst and Electrode. Dan Wu combines subjects such as Matrix, Colloidal gold, Nanotechnology and Nuclear chemistry with his study of Detection limit. His study in Colloidal gold is interdisciplinary in nature, drawing from both Quenching and Electrochemiluminescence.

His studies in Nuclear chemistry integrate themes in fields like Nanoparticle and Visible spectrum. His Electrode research integrates issues from Nanocomposite and Molybdenum disulfide. His work is dedicated to discovering how Nanosheet, Oxide are connected with Graphene and other disciplines.

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

Electrochemical bisphenol A sensor based on N-doped graphene sheets.

Haixia Fan;Yan Li;Dan Wu;Hongmin Ma.
Analytica Chimica Acta (2012)

229 Citations

Co(OH)2 Nanoparticle‐Encapsulating Conductive Nanowires Array: Room‐Temperature Electrochemical Preparation for High‐Performance Water Oxidation Electrocatalysis

Dan Wu;Yicheng Wei;Xiang Ren;Xuqiang Ji.
Advanced Materials (2018)

208 Citations

Label-free immunosensor for the detection of kanamycin using [email protected] nanoparticles and thionine mixed graphene sheet

Shujun Yu;Qin Wei;Bin Du;Dan Wu.
Biosensors and Bioelectronics (2013)

189 Citations

Label-free photoelectrochemical immunoassay for CEA detection based on CdS sensitized [email protected] heterostructure nanocomposite.

Qingzhi Han;Rongyu Wang;Bin Xing;Tong Zhang.
Biosensors and Bioelectronics (2018)

174 Citations

Cathodic electrochemiluminescence immunosensor based on nanocomposites of semiconductor carboxylated g-C3N4 and graphene for the ultrasensitive detection of squamous cell carcinoma antigen

Xiaojian Li;Xiaoyue Zhang;Hongmin Ma;Dan Wu.
Biosensors and Bioelectronics (2014)

159 Citations

A novel label-free electrochemical immunosensor based on graphene and thionine nanocomposite

Qin Wei;Kexia Mao;Dan Wu;Yuxue Dai.
Sensors and Actuators B-chemical (2010)

156 Citations

Ultrasensitive electrochemical immunoassay for BRCA1 using BMIM·BF4-coated SBA-15 as labels and functionalized graphene as enhancer

Yanyan Cai;He Li;Bin Du;Minghui Yang.
Biomaterials (2011)

143 Citations

Label-free electrochemical immunosensor based on graphene/methylene blue nanocomposite

Kexia Mao;Dan Wu;Yan Li;Hongmin Ma.
Analytical Biochemistry (2012)

141 Citations

A silver-palladium alloy nanoparticle-based electrochemical biosensor for simultaneous detection of ractopamine, clenbuterol and salbutamol.

Huan Wang;Yong Zhang;He Li;Bin Du.
Biosensors and Bioelectronics (2013)

138 Citations

Using reduced graphene oxide-Ca:CdSe nanocomposite to enhance photoelectrochemical activity of gold nanoparticles functionalized tungsten oxide for highly sensitive prostate specific antigen detection.

Xueping Wang;Rui Xu;Xu Sun;Yaoguang Wang.
Biosensors and Bioelectronics (2017)

134 Citations

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Best Scientists Citing Dan Wu

Qin Wei

Qin Wei

University of Jinan

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Southwest University

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Qingdao University of Science and Technology

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Tabriz University of Medical Sciences

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Southwest University

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Fuzhou University

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Ai-Jun Wang

Zhejiang Normal University

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He Li

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Chengdu University of Information Technology

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Jiu-Ju Feng

Jiu-Ju Feng

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Yuehe Lin

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Abdullah M. Asiri

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