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 62 Citations 11,679 174 World Ranking 2996 National Ranking 740

Overview

What is he best known for?

The fields of study he is best known for:

  • Semiconductor
  • Nanotechnology
  • Oxygen

Rujia Zou spends much of his time researching Nanotechnology, Supercapacitor, Photothermal therapy, Capacitance and Nanocrystal. His research on Nanotechnology focuses in particular on Nanosheet. He studied Supercapacitor and Horizontal scan rate that intersect with Ammonium persulfate, In situ polymerization and Non-blocking I/O.

His study in Photothermal therapy is interdisciplinary in nature, drawing from both Biocompatibility, Nanoparticle, Coating and Nanomaterials. His Capacitance study frequently links to other fields, such as Nanowire. His biological study spans a wide range of topics, including Dispersity and Energy conversion efficiency.

His most cited work include:

  • Hydrophilic Cu9S5 Nanocrystals: A Photothermal Agent with a 25.7% Heat Conversion Efficiency for Photothermal Ablation of Cancer Cells in Vivo (712 citations)
  • Hydrophilic flower-like CuS superstructures as an efficient 980 nm laser-driven photothermal agent for ablation of cancer cells. (548 citations)
  • Sub-10 nm [email protected] Core-Shell Nanoparticles for Dual-Modal Imaging and Photothermal Therapy (409 citations)

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

Rujia Zou mostly deals with Nanotechnology, Photothermal therapy, Optoelectronics, Capacitance and Nanoparticle. Rujia Zou combines subjects such as Supercapacitor and Heterojunction with his study of Nanotechnology. His work in Supercapacitor covers topics such as Nanosheet which are related to areas like Hybrid material.

His Photothermal therapy study incorporates themes from Biocompatibility, Cancer cell, Nanocrystal and Absorption. His work on Photodetector and Ultraviolet as part of general Optoelectronics research is frequently linked to Power density, bridging the gap between disciplines. His study in the field of Pseudocapacitor is also linked to topics like Current density.

He most often published in these fields:

  • Nanotechnology (87.63%)
  • Photothermal therapy (26.88%)
  • Optoelectronics (23.12%)

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

  • Photothermal therapy (26.88%)
  • Nanoparticle (22.58%)
  • Nanotechnology (87.63%)

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

His primary areas of investigation include Photothermal therapy, Nanoparticle, Nanotechnology, Anode and Optoelectronics. The study incorporates disciplines such as Biocompatibility, Absorption, Nanomedicine and Rational design in addition to Photothermal therapy. Rujia Zou has included themes like Nanocomposite, Scanning electron microscope, Raman spectroscopy, Coating and Band gap in his Nanoparticle study.

His study in Cancer therapy extends to Nanotechnology with its themes. His research in Anode intersects with topics in Microsphere, Specific surface area, Carbon nanotube, Mesoporous material and Electrochemistry. His biological study deals with issues like Substrate, which deal with fields such as Dark current and Ultraviolet.

Between 2017 and 2021, his most popular works were:

  • "Transformed" Fe3S4 tetragonal nanosheets: a high-efficiency and body-clearable agent for magnetic resonance imaging guided photothermal and chemodynamic synergistic therapy. (31 citations)
  • Stabilizing Lithium-Sulfur Batteries through Control of Sulfur Aggregation and Polysulfide Dissolution. (24 citations)
  • Degradable rhenium trioxide nanocubes with high localized surface plasmon resonance absorbance like gold for photothermal theranostics. (21 citations)

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

  • Semiconductor
  • Oxygen
  • Redox

Nanoparticle, Photothermal therapy, Cobalt, Nanotechnology and Cathode are his primary areas of study. His Nanoparticle study integrates concerns from other disciplines, such as Electrochemistry, Hydrothermal circulation, Anode and Nitride. The Photothermal therapy study combines topics in areas such as Nanomedicine and Photosensitizer.

His research integrates issues of Theranostic Nanomedicine and Laser power scaling in his study of Cobalt. His work on Surface plasmon resonance as part of general Nanotechnology study is frequently linked to Aqueous dispersion, bridging the gap between disciplines. His Biocompatibility study combines topics in areas such as Porosity, Absorbance, Rhenium trioxide, Cobalt sulfide and Absorption.

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

Hydrophilic Cu9S5 Nanocrystals: A Photothermal Agent with a 25.7% Heat Conversion Efficiency for Photothermal Ablation of Cancer Cells in Vivo

Qiwei Tian;Feiran Jiang;Rujia Zou;Qian Liu.
ACS Nano (2011)

770 Citations

Hydrophilic flower-like CuS superstructures as an efficient 980 nm laser-driven photothermal agent for ablation of cancer cells.

Qiwei Tian;Minghua Tang;Yangang Sun;Rujia Zou.
Advanced Materials (2011)

605 Citations

Sub-10 nm [email protected] Core-Shell Nanoparticles for Dual-Modal Imaging and Photothermal Therapy

Qiwei Tian;Junqing Hu;Yihan Zhu;Rujia Zou.
Journal of the American Chemical Society (2013)

489 Citations

Hierarchical mesoporous [email protected] core–shell nanowire arrays on nickel foam for aqueous asymmetric supercapacitors

Kaibing Xu;Wenyao Li;Qian Liu;Bo Li.
Journal of Materials Chemistry (2014)

362 Citations

Chain-like NiCo2O4 nanowires with different exposed reactive planes for high-performance supercapacitors

Rujia Zou;Kaibing Xu;Teng Wang;Guanjie He.
Journal of Materials Chemistry (2013)

270 Citations

A Low-Toxic Multifunctional Nanoplatform Based on [email protected](2) Core-Shell Nanocomposites: Combining Photothermal- and Chemotherapies with Infrared Thermal Imaging for Cancer Treatment

Guosheng Song;Qian Wang;Yang Wang;Gang Lv.
Advanced Functional Materials (2013)

252 Citations

Highly aligned SnO2 nanorods on graphene sheets for gas sensors

Zhenyu Zhang;Rujia Zou;Guosheng Song;Li Yu.
Journal of Materials Chemistry (2011)

249 Citations

ZnO nanorods on reduced graphene sheets with excellent field emission, gas sensor and photocatalytic properties

Rujia Zou;Guanjie He;Kaibing Xu;Qian Liu.
Journal of Materials Chemistry (2013)

186 Citations

Design and synthesis of 3D interconnected mesoporous [email protected]−x(OH)2 core–shell nanosheet arrays with large areal capacitance and high rate performance for supercapacitors

Kaibing Xu;Rujia Zou;Rujia Zou;Wenyao Li;Qian Liu.
Journal of Materials Chemistry (2014)

185 Citations

Cu7.2S4 nanocrystals: a novel photothermal agent with a 56.7% photothermal conversion efficiency for photothermal therapy of cancer cells

Bo Li;Qian Wang;Qian Wang;Rujia Zou;Xijian Liu.
Nanoscale (2014)

182 Citations

Best Scientists Citing Rujia Zou

Zhuang Liu

Zhuang Liu

Soochow University

Publications: 59

Zhigang Chen

Zhigang Chen

University of Southern Queensland

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Liang Cheng

Liang Cheng

Indiana University

Publications: 40

Jun Lin

Jun Lin

Chinese Academy of Sciences

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Junqing Hu

Junqing Hu

Donghua University

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Piaoping Yang

Piaoping Yang

Harbin Engineering University

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Fei He

Fei He

Harbin Engineering University

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Yu Chen

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Shanghai University

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Yuxin Zhang

Yuxin Zhang

Chongqing University

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Shili Gai

Shili Gai

Harbin Engineering University

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Huan Pang

Huan Pang

Yangzhou University

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Kai Yang

Kai Yang

Soochow University

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Wei Huang

Wei Huang

Nanjing Tech University

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Paul K. Chu

Paul K. Chu

City University of Hong Kong

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Xiaoyuan Chen

Xiaoyuan Chen

National University of Singapore

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Xiang Wu

Xiang Wu

Shenyang University of Technology

Publications: 18

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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