H-Index & Metrics Top Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Materials Science H-index 67 Citations 17,590 135 World Ranking 2155 National Ranking 540

Overview

What is he best known for?

The fields of study he is best known for:

  • Oxygen
  • Organic chemistry
  • Redox

His primary areas of study are Anode, Lithium, Nanotechnology, Inorganic chemistry and Electrochemistry. His research integrates issues of Transmission electron microscopy, Silicon, Scanning electron microscope and Plating in his study of Anode. Ion covers Sen Xin research in Lithium.

His studies deal with areas such as Carbon, Lithium metal and Battery system as well as Nanotechnology. Sen Xin incorporates Inorganic chemistry and Cathode in his research. His work carried out in the field of Electrochemistry brings together such families of science as Molybdenum, Intercalation, Lithium-ion battery, Carbon nanofiber and Molybdenum disulfide.

His most cited work include:

  • Lithium–Sulfur Batteries: Electrochemistry, Materials, and Prospects (1605 citations)
  • Smaller sulfur molecules promise better lithium-sulfur batteries. (1100 citations)
  • Plating a Dendrite-Free Lithium Anode with a Polymer/Ceramic/Polymer Sandwich Electrolyte (448 citations)

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

His main research concerns Anode, Lithium, Cathode, Electrolyte and Electrochemistry. His Anode research is multidisciplinary, incorporating perspectives in Porosity, Coating, Nanotechnology, Ion and Composite number. His Lithium research incorporates elements of Carbon, Catalysis, Oxide and Scanning electron microscope.

His Cathode research overlaps with other disciplines such as Inorganic chemistry, Sulfur, Carbon nanotube, Sodium and Lithium–sulfur battery. Plating is closely connected to Polymer in his research, which is encompassed under the umbrella topic of Electrolyte. His study in the field of Faraday efficiency also crosses realms of Interphase.

He most often published in these fields:

  • Anode (47.22%)
  • Lithium (42.36%)
  • Cathode (37.50%)

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

  • Electrolyte (34.03%)
  • Anode (47.22%)
  • Lithium (42.36%)

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

His main research concerns Electrolyte, Anode, Lithium, Cathode and Electrochemistry. His Electrolyte research is multidisciplinary, relying on both Ceramic and Plating. His Anode study incorporates themes from Ion, Coating and Polymer.

Sen Xin has researched Lithium in several fields, including Electrocatalyst, Doping and Boron. His research in the fields of Faraday efficiency overlaps with other disciplines such as Particle. His Chalcogen research includes elements of Inorganic chemistry, Tellurium and Alkali metal.

Between 2019 and 2021, his most popular works were:

  • Black phosphorus composites with engineered interfaces for high-rate high-capacity lithium storage. (35 citations)
  • Black phosphorus composites with engineered interfaces for high-rate high-capacity lithium storage. (35 citations)
  • A 3D Lithium/Carbon Fiber Anode with Sustained Electrolyte Contact for Solid‐State Batteries (25 citations)

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

  • Oxygen
  • Organic chemistry
  • Redox

Sen Xin mostly deals with Electrolyte, Anode, Lithium, Electrochemistry and Ion. In his study, he carries out multidisciplinary Electrolyte and Solid-state research. His Electrochemistry research is multidisciplinary, incorporating elements of Deposition, Dendrite and Plating.

The study incorporates disciplines such as Covalent bond, Polyaniline and Composite number, Composite material, Coating in addition to Ion. In his research, Sen Xin performs multidisciplinary study on Coating and Interphase. His Cathode investigation overlaps with other areas such as Sodium, Sodium oxalate, Lithium metal, Amorphous solid and Compatibility.

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.

Top Publications

Lithium–Sulfur Batteries: Electrochemistry, Materials, and Prospects

Ya-Xia Yin;Sen Xin;Yu-Guo Guo;Li-Jun Wan.
Angewandte Chemie (2013)

1809 Citations

Smaller sulfur molecules promise better lithium-sulfur batteries.

Sen Xin;Lin Gu;Na-Hong Zhao;Ya-Xia Yin.
Journal of the American Chemical Society (2012)

1246 Citations

Nanocarbon Networks for Advanced Rechargeable Lithium Batteries

Sen Xin;Yu-Guo Guo;Li-Jun Wan.
Accounts of Chemical Research (2012)

520 Citations

Plating a Dendrite-Free Lithium Anode with a Polymer/Ceramic/Polymer Sandwich Electrolyte

Weidong Zhou;Shaofei Wang;Yutao Li;Sen Xin.
Journal of the American Chemical Society (2016)

458 Citations

Improving the Electrode Performance of Ge through [email protected] Core–Shell Nanoparticles and Graphene Networks

Ding-Jiang Xue;Sen Xin;Yang Yan;Ke-Cheng Jiang.
Journal of the American Chemical Society (2012)

446 Citations

Carbon nanofibers decorated with molybdenum disulfide nanosheets: synergistic lithium storage and enhanced electrochemical performance.

Fei Zhou;Sen Xin;Sen Xin;Hai-Wei Liang;Lu-Ting Song.
Angewandte Chemie (2014)

323 Citations

Hybrid Polymer/Garnet Electrolyte with a Small Interfacial Resistance for Lithium-Ion Batteries.

Yutao Li;Biyi Xu;Henghui Xu;Huanan Duan.
Angewandte Chemie (2017)

313 Citations

Cu‐Si Nanocable Arrays as High‐Rate Anode Materials for Lithium‐Ion Batteries

Fei-Fei Cao;Jun-Wen Deng;Sen Xin;Heng-Xing Ji.
Advanced Materials (2011)

312 Citations

An Advanced Selenium–Carbon Cathode for Rechargeable Lithium–Selenium Batteries

Chun-Peng Yang;Sen Xin;Ya-Xia Yin;Huan Ye.
Angewandte Chemie (2013)

301 Citations

A High‐Energy Room‐Temperature Sodium‐Sulfur Battery

Sen Xin;Ya-Xia Yin;Yu-Guo Guo;Li-Jun Wan.
Advanced Materials (2014)

283 Citations

Profile was last updated on December 6th, 2021.
Research.com Ranking is based on data retrieved from the Microsoft Academic Graph (MAG).
The ranking h-index is inferred from publications deemed to belong to the considered discipline.

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