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
Materials Science D-index 50 Citations 7,297 203 World Ranking 5900 National Ranking 1487

Overview

What is he best known for?

The fields of study he is best known for:

  • Organic chemistry
  • Catalysis
  • Oxygen

The scientist’s investigation covers issues in Nanotechnology, Electrochemistry, Supercapacitor, Photocatalysis and Heterojunction. Fengyu Qu combines subjects such as Optoelectronics, Hydrothermal circulation, Electrospinning and Scanning electron microscope with his study of Nanotechnology. His biological study spans a wide range of topics, including Carbon, Nanowire and Anode.

His Supercapacitor study combines topics in areas such as Nanofiber, Cyclic voltammetry and Non-blocking I/O. His Photocatalysis research also works with subjects such as

  • Adsorption and related Mesoporous material, Inorganic chemistry and Rhodamine B,
  • Photochemistry which connect with Catalysis. Fengyu Qu has included themes like Oxide and Nanostructure in his Heterojunction study.

His most cited work include:

  • Hierarchical SnO2 Nanostructures Made of Intermingled Ultrathin Nanosheets for Environmental Remediation, Smart Gas Sensor, and Supercapacitor Applications (327 citations)
  • Porous SnO2 nanowire bundles for photocatalyst and Li ion battery applications (197 citations)
  • Hybrid α[email protected] heterostructures for flexible and high performance supercapacitor electrodes and visible light driven photocatalysts (149 citations)

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

Fengyu Qu spends much of his time researching Nanotechnology, Scanning electron microscope, Photocatalysis, Hydrothermal circulation and Supercapacitor. His research on Nanotechnology frequently links to adjacent areas such as Mesoporous silica. His Scanning electron microscope research incorporates elements of Fourier transform infrared spectroscopy, Transmission electron microscopy, Photoluminescence, Analytical chemistry and Microstructure.

His Photocatalysis research includes elements of Photochemistry, Congo red and Visible spectrum. His research in Supercapacitor intersects with topics in Nanofiber, Carbon and Heterojunction. His work carried out in the field of Electrochemistry brings together such families of science as Nanowire, Anode and Metal-organic framework.

He most often published in these fields:

  • Nanotechnology (43.33%)
  • Scanning electron microscope (19.05%)
  • Photocatalysis (18.10%)

What were the highlights of his more recent work (between 2018-2021)?

  • Photothermal therapy (9.05%)
  • Membrane (4.76%)
  • Photodynamic therapy (8.57%)

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

His scientific interests lie mostly in Photothermal therapy, Membrane, Photodynamic therapy, Supercapacitor and Electrochemistry. His Photothermal therapy research is under the purview of Nanotechnology. His research on Membrane also deals with topics like

  • Ionic liquid which intersects with area such as Polymer blend, Grotthuss mechanism, Microstructure and Bottle,
  • Energy conversion efficiency which intersects with area such as Nanowire,
  • Polymer chemistry that connect with fields like Brønsted–Lowry acid–base theory, Polyelectrolyte and Proton conductor.

His study on Photodynamic therapy also encompasses disciplines like

  • Redox together with Photocatalysis,
  • Biocompatibility together with Drug delivery,
  • Photochemistry which is related to area like Absorption and Singlet oxygen,
  • Photosensitizer which intersects with area such as Intracellular. Supercapacitor is a primary field of his research addressed under Capacitance. The study incorporates disciplines such as Detection limit and Metal-organic framework in addition to Electrochemistry.

Between 2018 and 2021, his most popular works were:

  • Construction of Z-scheme MoSe2/CdSe hollow nanostructure with enhanced full spectrum photocatalytic activity (62 citations)
  • Construct of MoSe2/Bi2Se3 nanoheterostructure: Multimodal CT/PT imaging-guided PTT/PDT/chemotherapy for cancer treating. (45 citations)
  • Biodegradable Hollow MoSe2/Fe3O4 Nanospheres as the Photodynamic Therapy-Enhanced Agent for Multimode CT/MR/IR Imaging and Synergistic Antitumor Therapy. (20 citations)

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

  • Organic chemistry
  • Catalysis
  • Oxygen

The scientist’s investigation covers issues in Photothermal therapy, Nanostructure, Electrochemistry, Photodynamic therapy and Heterojunction. His study focuses on the intersection of Photothermal therapy and fields such as Nanoparticle with connections in the field of Energy conversion efficiency and Cellulose acetate. His Nanostructure study combines topics from a wide range of disciplines, such as Biocompatibility, Surface plasmon resonance, Drug delivery and Photothermal effect.

His Electrochemistry study incorporates themes from Detection limit, Thermal stability, Metal-organic framework and Covalent organic framework. His Photodynamic therapy research is multidisciplinary, incorporating elements of Absorption, Biodegradation, Photochemistry, Ion and Carbon. Fengyu Qu works mostly in the field of Photocatalysis, limiting it down to concerns involving Effective nuclear charge and, occasionally, Adsorption.

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

Hierarchical SnO2 Nanostructures Made of Intermingled Ultrathin Nanosheets for Environmental Remediation, Smart Gas Sensor, and Supercapacitor Applications

Yang Liu;Yang Jiao;Zhenglin Zhang;Fengyu Qu.
ACS Applied Materials & Interfaces (2014)

389 Citations

Porous SnO2 nanowire bundles for photocatalyst and Li ion battery applications

Yutao Han;Xiang Wu;Yulin Ma;Lihong Gong.
CrystEngComm (2011)

240 Citations

High-performance energy-storage devices based on WO3 nanowire arrays/carbon cloth integrated electrodes

Lina Gao;Lina Gao;Xianfu Wang;Zhong Xie;Weifeng Song.
Journal of Materials Chemistry (2013)

203 Citations

A high energy density all-solid-state asymmetric supercapacitor based on MoS2/graphene nanosheets and MnO2/graphene hybrid electrodes

Xue Yang;Hao Niu;He Jiang;Qian Wang.
Journal of Materials Chemistry (2016)

156 Citations

Hybrid α[email protected] heterostructures for flexible and high performance supercapacitor electrodes and visible light driven photocatalysts

Yang Jiao;Yang Liu;Bosi Yin;Siwen Zhang.
Nano Energy (2014)

155 Citations

Phase-controlled synthesis of polymorphic MnO2 structures for electrochemical energy storage

Bosi Yin;Siwen Zhang;He Jiang;Fengyu Qu.
Journal of Materials Chemistry (2015)

153 Citations

Hierarchical core–shell heterostructure of porous carbon [email protected] nanoneedle arrays: advanced binder-free electrodes for all-solid-state supercapacitors

Hao Niu;Xue Yang;He Jiang;Dan Zhou.
Journal of Materials Chemistry (2015)

133 Citations

Facile hydrothermal synthesis of WO3 nanorods for photocatalysts and supercapacitors

Shunyu Yao;Shunyu Yao;Fengyu Qu;Gang Wang;Xiang Wu;Xiang Wu.
Journal of Alloys and Compounds (2017)

125 Citations

Synthesis of self-assembled CdS nanospheres and their photocatalytic activities by photodegradation of organic dye molecules

Zhou Yu;Bosi Yin;Fengyu Qu;Xiang Wu.
Chemical Engineering Journal (2014)

123 Citations

Freestanding MnO2 nanoflakes/porous carbon nanofibers for high-performance flexible supercapacitor electrodes

Dan Zhou;Huiming Lin;Feng Zhang;Hao Niu.
Electrochimica Acta (2015)

121 Citations

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