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Shuanghao Zheng

Shuanghao Zheng

Dalian Institute of Chemical Physics
China

Research.com Recognitions

Awards & Achievements

2022 - Research.com Rising Star of Science Award

Overview

What is he best known for?

The fields of study he is best known for:

Carbon
Nanotechnology
Graphene

Shuanghao Zheng spends much of his time researching Nanotechnology, Supercapacitor, Graphene, Carbon nanotube and Layer. His Nanosheet study in the realm of Nanotechnology connects with subjects such as Cathode, Ionic diffusion, Energy density and Separator. His Supercapacitor studies intersect with other disciplines such as Stacking, Nano-, Substrate, Phosphorene and Capacitive sensing.

Thiophene and Pseudocapacitor are fields of study that overlap with his Graphene research. Shuanghao Zheng combines subjects such as Quantum dot, Optoelectronics, Graphene nanoribbons and Nanostructure with his study of Carbon nanotube. His Layer study incorporates themes from Heterojunction and Doping.

His most cited work include:

Ti3C2 MXene-Derived Sodium/Potassium Titanate Nanoribbons for High-Performance Sodium/Potassium Ion Batteries with Enhanced Capacities. (283 citations)
Alkalized Ti3C2 MXene nanoribbons with expanded interlayer spacing for high-capacity sodium and potassium ion batteries (225 citations)
Alkalized Ti3C2 MXene nanoribbons with expanded interlayer spacing for high-capacity sodium and potassium ion batteries (225 citations)

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

His primary areas of investigation include Supercapacitor, Graphene, Nanotechnology, Optoelectronics and Capacitance. Supercapacitor is frequently linked to Microelectrode in his study. His work carried out in the field of Graphene brings together such families of science as Layer, Substrate and Heterojunction.

His research in Substrate focuses on subjects like Phosphorene, which are connected to Nano- and Nitride. His study in the field of Boron nitride is also linked to topics like Microscale chemistry, Volumetric capacitance, Conductive polymer and Aqueous solution. His work deals with themes such as Electrochemistry and Lithium, which intersect with Electrolyte.

He most often published in these fields:

Supercapacitor (113.83%)
Graphene (95.74%)
Nanotechnology (89.36%)

What were the highlights of his more recent work (between 2020-2021)?

Supercapacitor (113.83%)
Energy density (17.02%)
Optoelectronics (65.96%)

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

His primary scientific interests are in Supercapacitor, Energy density, Optoelectronics, Nanotechnology and Volumetric capacitance. He integrates Supercapacitor with Doping in his research. His Energy density investigation overlaps with other disciplines such as MXenes, Potassium, Pressure sensor, High voltage and Wearable computer.

Optoelectronics combines with fields such as Cathode and Electrolyte in his investigation. Electrolyte and Capacitance are commonly linked in his work. His work in Nanotechnology incorporates the disciplines of All solid state, Microscale chemistry, Interconnector, Human multitasking and Current collector.

Between 2020 and 2021, his most popular works were:

Multitasking MXene Inks Enable High‐Performance Printable Microelectrochemical Energy Storage Devices for All‐Flexible Self‐Powered Integrated Systems (2 citations)
Toward high-performance and flexible all-solid-state micro-supercapacitors: MOF bulk vs. MOF nanosheets (2 citations)
Toward high-performance and flexible all-solid-state micro-supercapacitors: MOF bulk vs. MOF nanosheets (2 citations)

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

Carbon
Nanotechnology
Electrolyte

His main research concerns Nanotechnology, Power density, Microelectrode, Energy density and All solid state. Shuanghao Zheng is involved in the study of Nanotechnology that focuses on Substrate in particular. His Power density research spans across into subjects like Supercapacitor, Microscale chemistry and Volumetric capacitance.

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

Ti3C2 MXene-Derived Sodium/Potassium Titanate Nanoribbons for High-Performance Sodium/Potassium Ion Batteries with Enhanced Capacities.

Yanfeng Dong;Zhong-Shuai Wu;Shuanghao Zheng;Xiaohui Wang.
ACS Nano (2017)

448 Citations

Alkalized Ti3C2 MXene nanoribbons with expanded interlayer spacing for high-capacity sodium and potassium ion batteries

Peichao Lian;Yanfeng Dong;Zhong-Shuai Wu;Shuanghao Zheng;Shuanghao Zheng.
Nano Energy (2017)

444 Citations

Electrochemically Scalable Production of Fluorine-Modified Graphene for Flexible and High-Energy Ionogel-Based Microsupercapacitors.

Feng Zhou;Haibo Huang;Chuanhai Xiao;Shuanghao Zheng;Shuanghao Zheng.
Journal of the American Chemical Society (2018)

278 Citations

All-MXene-Based Integrated Electrode Constructed by Ti3C2 Nanoribbon Framework Host and Nanosheet Interlayer for High-Energy-Density Li–S Batteries

Yanfeng Dong;Shuanghao Zheng;Shuanghao Zheng;Jieqiong Qin;Jieqiong Qin;Xuejun Zhao.
ACS Nano (2018)

272 Citations

One-Step Device Fabrication of Phosphorene and Graphene Interdigital Micro-Supercapacitors with High Energy Density

Han Xiao;Zhong-Shuai Wu;Long Chen;Feng Zhou.
ACS Nano (2017)

219 Citations

Conductive Microporous Covalent Triazine-Based Framework for High-Performance Electrochemical Capacitive Energy Storage.

Yajuan Li;Shuanghao Zheng;Xue Liu;Pan Li.
Angewandte Chemie (2018)

213 Citations

Graphene-based materials for high-voltage and high-energy asymmetric supercapacitors

Shuanghao Zheng;Shuanghao Zheng;Zhong-Shuai Wu;Sen Wang;Sen Wang;Han Xiao.
Energy Storage Materials (2017)

207 Citations

Bottom-Up Fabrication of Sulfur-Doped Graphene Films Derived from Sulfur-Annulated Nanographene for Ultrahigh Volumetric Capacitance Micro-Supercapacitors

Zhong-Shuai Wu;Yun-Zhi Tan;Shuanghao Zheng;Shuanghao Zheng;Sen Wang;Sen Wang.
Journal of the American Chemical Society (2017)

205 Citations

2D transition metal carbide MXene as a robust biosensing platform for enzyme immobilization and ultrasensitive detection of phenol.

Lingxia Wu;Xianbo Lu;Dhanjai;Zhong-Shuai Wu.
Biosensors and Bioelectronics (2018)

170 Citations

Stacked-Layer Heterostructure Films of 2D Thiophene Nanosheets and Graphene for High-Rate All-Solid-State Pseudocapacitors with Enhanced Volumetric Capacitance.

Zhong-Shuai Wu;Yijun Zheng;Shuanghao Zheng;Shuanghao Zheng;Sen Wang;Sen Wang.
Advanced Materials (2017)

165 Citations

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