D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Engineering and Technology D-index 31 Citations 4,253 100 World Ranking 5559 National Ranking 637

Overview

What is he best known for?

The fields of study he is best known for:

  • Semiconductor
  • Electrical engineering
  • Composite material

Nanotechnology, Optoelectronics, Electrical conductor, Nanorod and Microstructure are his primary areas of study. His Nanotechnology research includes themes of Crystallography and Soft robotics. His work deals with themes such as Energy harvesting, Scattering and Active layer, which intersect with Optoelectronics.

His Electrical conductor research integrates issues from Transmittance, Figure of merit, Metal and Grain boundary. His research integrates issues of Self-assembly and HEXA in his study of Nanorod. His Microstructure research also works with subjects such as

  • Dielectric and Pressing most often made with reference to Capacitive sensing,
  • Metamaterial which connect with Electronic skin.

His most cited work include:

  • Metallic nanostructures for light trapping in energy-harvesting devices (323 citations)
  • Highly stretchable and transparent nanomesh electrodes made by grain boundary lithography (242 citations)
  • Uniform Self‐Forming Metallic Network as a High‐Performance Transparent Conductive Electrode (217 citations)

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

Chuan Fei Guo mainly investigates Nanotechnology, Optoelectronics, Nanostructure, Optics and Chemical engineering. His study deals with a combination of Nanotechnology and Laser direct writing. In his work, Black silicon is strongly intertwined with Electrical conductor, which is a subfield of Optoelectronics.

The Nanostructure study combines topics in areas such as Bismuth and Raman spectroscopy. His Bismuth research incorporates elements of Amorphous solid and Sputter deposition. Chemical engineering connects with themes related to Substrate in his study.

He most often published in these fields:

  • Nanotechnology (43.17%)
  • Optoelectronics (28.06%)
  • Nanostructure (11.51%)

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

  • Nanotechnology (43.17%)
  • Pressure sensor (4.32%)
  • Flexible electronics (6.47%)

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

His scientific interests lie mostly in Nanotechnology, Pressure sensor, Flexible electronics, Electronics and Biomedical engineering. Many of his studies on Nanotechnology involve topics that are commonly interrelated, such as Stretchable electronics. His Pressure sensor study integrates concerns from other disciplines, such as Optoelectronics, Transmittance, Microstructure and Porosity.

His Optoelectronics research is multidisciplinary, relying on both Infrared, Electrical resistance and conductance and Reflectivity. His Flexible electronics study combines topics from a wide range of disciplines, such as Self-healing hydrogels and Systems engineering. His Electronics research focuses on Polymer and how it connects with Soft robotics, Nanofiber and Ceramic.

Between 2019 and 2021, his most popular works were:

  • Graded intrafillable architecture-based iontronic pressure sensor with ultra-broad-range high sensitivity (35 citations)
  • Electrical bioadhesive interface for bioelectronics. (21 citations)
  • Highly Transparent and Flexible Iontronic Pressure Sensors Based on an Opaque to Transparent Transition. (14 citations)

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

  • Semiconductor
  • Electrical engineering
  • Composite material

The scientist’s investigation covers issues in Pressure sensor, Optoelectronics, Sensitivity, Microstructure and Nanotechnology. The various areas that he examines in his Pressure sensor study include Nanofiber, Acoustics, Pulse and Electronics. His specific area of interest is Optoelectronics, where Chuan Fei Guo studies Transmittance.

Chuan Fei Guo integrates several fields in his works, including Sensitivity, Highly sensitive, Stability, Waveform, Pulse waveform and Pulse monitoring. His biological study spans a wide range of topics, including Porosity, Polyvinylidene fluoride, Opacity and Refractive index. His work on Flexible electronics as part of general Nanotechnology research is often related to Motion detection, thus linking different fields of science.

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

Metallic nanostructures for light trapping in energy-harvesting devices

Chuan Fei Guo;Tianyi Sun;Feng Cao;Qian Liu.
Light-Science & Applications (2014)

381 Citations

Highly stretchable and transparent nanomesh electrodes made by grain boundary lithography

Chuan Fei Guo;Tianyi Sun;Qihan Liu;Zhigang Suo.
Nature Communications (2014)

332 Citations

Flexible Electronics: Stretchable Electrodes and Their Future

Siya Huang;Yuan Liu;Yue Zhao;Zhifeng Ren.
Advanced Functional Materials (2019)

328 Citations

Uniform Self-Forming Metallic Network as a High-Performance Transparent Conductive Electrode

Bing Han;Ke Pei;Yuanlin Huang;Xiaojian Zhang.
Advanced Materials (2014)

265 Citations

Flexible transparent conductors based on metal nanowire networks

Chuan Fei Guo;Zhifeng Ren.
Materials Today (2015)

185 Citations

Capillary-Force-Induced Cold Welding in Silver-Nanowire-Based Flexible Transparent Electrodes.

Yuan Liu;Jianming Zhang;Heng Gao;Yan Wang.
Nano Letters (2017)

158 Citations

A novel BiOCl film with flowerlike hierarchical structures and its optical properties.

Sihai Cao;Chuanfei Guo;Ying Lv;Yanjun Guo.
Nanotechnology (2009)

149 Citations

Recent progresses on flexible tactile sensors

Yongbiao Wan;Yan Wang;Chuan Fei Guo.
Materials Today Physics (2017)

142 Citations

A Highly Sensitive Flexible Capacitive Tactile Sensor with Sparse and High-Aspect-Ratio Microstructures

Yongbiao Wan;Yongbiao Wan;Zhiguang Qiu;Ying Hong;Ying Hong;Yan Wang;Yan Wang.
Advanced electronic materials (2018)

133 Citations

Graded intrafillable architecture-based iontronic pressure sensor with ultra-broad-range high sensitivity

Ningning Bai;Liu Wang;Liu Wang;Qi Wang;Jue Deng;Jue Deng.
Nature Communications (2020)

114 Citations

Best Scientists Citing Chuan Fei Guo

Liang Shen

Liang Shen

Jilin University

Publications: 41

Zhifeng Ren

Zhifeng Ren

University of Houston

Publications: 24

Krzysztof Kempa

Krzysztof Kempa

Boston College

Publications: 23

Shengping Ruan

Shengping Ruan

Jilin University

Publications: 21

Zhong Lin Wang

Zhong Lin Wang

Georgia Institute of Technology

Publications: 20

Jing Liu

Jing Liu

Chinese Academy of Sciences

Publications: 19

Jun-Ming Liu

Jun-Ming Liu

Nanjing University

Publications: 19

Xiang Wu

Xiang Wu

Shenyang University of Technology

Publications: 19

Giridhar U. Kulkarni

Giridhar U. Kulkarni

Jawaharlal Nehru Centre for Advanced Scientific Research

Publications: 18

Hong-Bo Sun

Hong-Bo Sun

Tsinghua University

Publications: 17

Hong Liu

Hong Liu

Shandong University

Publications: 16

Qian Liu

Qian Liu

Chinese Academy of Sciences

Publications: 15

Xiang-Yang Liu

Xiang-Yang Liu

National University of Singapore

Publications: 14

Takao Someya

Takao Someya

University of Tokyo

Publications: 14

Zhiguang Guo

Zhiguang Guo

Hubei University

Publications: 14

Ching-Ping Wong

Ching-Ping Wong

Georgia Institute of Technology

Publications: 14

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

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