2026 Zhenghui Luo: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	55	8644	8349	2476	2467	107	10306

Overview

Zhenghui Luo is affiliated with Shenzhen University in China and has contributed extensively to the fields of engineering and materials science. Their research mainly focuses on organic electronics and photovoltaics, with a strong emphasis on conducting polymers and their applications.

The scientist's work spans several subfields of study including electrical and electronic engineering, polymers and plastics, materials chemistry, biomedical engineering, and atomic and molecular physics, and optics. The primary topics covered in their publications include:

Organic Electronics and Photovoltaics
Conducting Polymers and Applications
Perovskite Materials and Applications
Organic Light-Emitting Diodes Research
Crystallization and Solubility Studies
X-ray Diffraction in Crystallography
Nanowire Synthesis and Applications

Zhenghui Luo has co-authored many papers with frequent collaborators such as Ruijie Ma, Chuluo Yang, He Yan, Tao Liu, and Xinhui Lu, reflecting ongoing partnerships across multiple projects and research themes.

The scientist has published numerous papers in leading venues, with notable publication frequency in:

Advanced Energy Materials
Science China Chemistry
Energy & Environmental Science
Advanced Functional Materials
Angewandte Chemie International Edition

Significant papers by Zhenghui Luo include:

Fine-Tuning Energy Levels via Asymmetric End Groups Enables Polymer Solar Cells with Efficiencies over 17%, 2020, Joule
Precisely Controlling the Position of Bromine on the End Group Enables Well-Regular Polymer Acceptors for All-Polymer Solar Cells with Efficiencies over 15%, 2020, Advanced Materials

Other relevant influential works that involve Zhenghui Luo or close collaborators in similar research fields include:

A Layer-by-Layer Architecture for Printable Organic Solar Cells Overcoming the Scaling Lag of Module Efficiency, 2020, Joule
Improving open-circuit voltage by a chlorinated polymer donor endows binary organic solar cells efficiencies over 17%, 2020, Science China Chemistry
16% efficiency all-polymer organic solar cells enabled by a finely tuned morphology via the design of ternary blend, 2021, Joule

The research by Zhenghui Luo reflects a consistent focus on improving polymer solar cells and other organic electronic devices by molecular-level tuning, blend design, and advanced material engineering.

Best Publications

Fine-Tuning of Molecular Packing and Energy Level through Methyl Substitution Enabling Excellent Small Molecule Acceptors for Nonfullerene Polymer Solar Cells with Efficiency up to 12.54

Zhenghui Luo;Zhenghui Luo;Haijun Bin;Tao Liu;Zhi-Guo Zhang

391
Citations
Fine-Tuning Energy Levels via Asymmetric End Groups Enables Polymer Solar Cells with Efficiencies over 17%

Zhenghui Luo;Ruijie Ma;Tao Liu;Jianwei Yu

388
Citations
Precisely Controlling the Position of Bromine on the End Group Enables Well-Regular Polymer Acceptors for All-Polymer Solar Cells with Efficiencies over 15.

Zhenghui Luo;Zhenghui Luo;Tao Liu;Ruijie Ma;Yiqun Xiao

384
Citations
A Layer-by-Layer Architecture for Printable Organic Solar Cells Overcoming the Scaling Lag of Module Efficiency

Rui Sun;Qiang Wu;Jie Guo;Tao Wang

358
Citations
Improving open-circuit voltage by a chlorinated polymer donor endows binary organic solar cells efficiencies over 17%

Ruijie Ma;Tao Liu;Zhenghui Luo;Qing Guo

346
Citations
A nonfullerene acceptor with a 1000 nm absorption edge enables ternary organic solar cells with improved optical and morphological properties and efficiencies over 15

Tao Liu;Zhenghui Luo;Yuzhong Chen;Tao Yang

301
Citations
Achieving high efficiency and well-kept ductility in ternary all-polymer organic photovoltaic blends thanks to two well miscible donors

Unknown

292
Citations
Asymmetrical Ladder‐Type Donor‐Induced Polar Small Molecule Acceptor to Promote Fill Factors Approaching 77% for High‐Performance Nonfullerene Polymer Solar Cells

Wei Gao;Wei Gao;Miao Zhang;Tao Liu;Ruijie Ming

290
Citations
Simultaneous enhanced efficiency and thermal stability in organic solar cells from a polymer acceptor additive

Wenyan Yang;Zhenghui Luo;Rui Sun;Jie Guo

286
Citations
Use of two structurally similar small molecular acceptors enabling ternary organic solar cells with high efficiencies and fill factors

Tao Liu;Zhenghui Luo;Qunping Fan;Guangye Zhang

281
Citations
16% efficiency all-polymer organic solar cells enabled by a finely tuned morphology via the design of ternary blend

Tao Liu;Tao Liu;Tong Yang;Ruijie Ma;Lingling Zhan

265
Citations
A universal layer-by-layer solution-processing approach for efficient non-fullerene organic solar cells

Rui Sun;Jing Guo;Chenkai Sun;Tao Wang

247
Citations
Fine-tuning of side-chain orientations on nonfullerene acceptors enables organic solar cells with 17.7% efficiency

Gaoda Chai;Yuan Chang;Jianquan Zhang;Xiaopeng Xu

224
Citations
A Novel Thiophene‐Fused Ending Group Enabling an Excellent Small Molecule Acceptor for High‐Performance Fullerene‐Free Polymer Solar Cells with 11.8% Efficiency

Dongjun Xie;Tao Liu;Wei Gao;Cheng Zhong

221
Citations
High-Efficiency Ternary Organic Solar Cells with a Good Figure-of-Merit Enabled by Two Low-Cost Donor Polymers

Unknown

221
Citations
Concurrent improvement in JSC and VOC in high-efficiency ternary organic solar cells enabled by a red-absorbing small-molecule acceptor with a high LUMO level

Tao Liu;Tao Liu;Ruijie Ma;Zhenghui Luo;Yuan Guo;Yuan Guo

217
Citations
Asymmetric Acceptors with Fluorine and Chlorine Substitution for Organic Solar Cells toward 16.83% Efficiency

Tao Liu;Tao Liu;Youdi Zhang;Yiming Shao;Ruijie Ma

211
Citations
Adding a Third Component with Reduced Miscibility and Higher LUMO Level Enables Efficient Ternary Organic Solar Cells

Ruijie Ma;Tao Liu;Zhenghui Luo;Zhenghui Luo;Ke Gao;Ke Gao

209
Citations
Regio-Regular Polymer Acceptors Enabled by Determined Fluorination on End Groups for All-Polymer Solar Cells with 15.2 % Efficiency

Han Yu;Han Yu;Mingao Pan;Rui Sun;Indunil Agunawela

209
Citations
Reduced Energy Loss Enabled by a Chlorinated Thiophene-Fused Ending-Group Small Molecular Acceptor for Efficient Nonfullerene Organic Solar Cells with 13.6% Efficiency

Zhenghui Luo;Zhenghui Luo;Tao Liu;Yiling Wang;Guangye Zhang

168
Citations
Boosting reverse intersystem crossing by increasing donors in triarylboron/phenoxazine hybrids: TADF emitters for high-performance solution-processed OLEDs

Yuan Liu;Guohua Xie;Kailong Wu;Zhenghui Luo

157
Citations
Altering alkyl-chains branching positions for boosting the performance of small-molecule acceptors for highly efficient nonfullerene organic solar cells

Zhenghui Luo;Zhenghui Luo;Rui Sun;Cheng Zhong;Tao Liu

144
Citations

Frequent Co-Authors

Chuluo Yang Shenzhen University

Tao Liu Guangxi University

He Yan Hong Kong University of Science and Technology

Xinhui Lu Chinese University of Hong Kong

Yongfang Li Soochow University

Jie Min Wuhan University

Cheng Zhong Wuhan University

Maojie Zhang Soochow University

Feng Liu Shanghai Jiao Tong University

Zhi-Guo Zhang Beijing University of Chemical Technology

External Links

Personal website of Zhenghui Luo Google Scholar page

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Zhenghui Luo

D-Index & Metrics

D-Index & Metrics

Materials Science

Overview

Best Publications

Fine-Tuning of Molecular Packing and Energy Level through Methyl Substitution Enabling Excellent Small Molecule Acceptors for Nonfullerene Polymer Solar Cells with Efficiency up to 12.54

Fine-Tuning Energy Levels via Asymmetric End Groups Enables Polymer Solar Cells with Efficiencies over 17%

Precisely Controlling the Position of Bromine on the End Group Enables Well-Regular Polymer Acceptors for All-Polymer Solar Cells with Efficiencies over 15.

A Layer-by-Layer Architecture for Printable Organic Solar Cells Overcoming the Scaling Lag of Module Efficiency

Improving open-circuit voltage by a chlorinated polymer donor endows binary organic solar cells efficiencies over 17%

A nonfullerene acceptor with a 1000 nm absorption edge enables ternary organic solar cells with improved optical and morphological properties and efficiencies over 15

Achieving high efficiency and well-kept ductility in ternary all-polymer organic photovoltaic blends thanks to two well miscible donors

Asymmetrical Ladder‐Type Donor‐Induced Polar Small Molecule Acceptor to Promote Fill Factors Approaching 77% for High‐Performance Nonfullerene Polymer Solar Cells

Simultaneous enhanced efficiency and thermal stability in organic solar cells from a polymer acceptor additive

Use of two structurally similar small molecular acceptors enabling ternary organic solar cells with high efficiencies and fill factors

16% efficiency all-polymer organic solar cells enabled by a finely tuned morphology via the design of ternary blend

A universal layer-by-layer solution-processing approach for efficient non-fullerene organic solar cells

Fine-tuning of side-chain orientations on nonfullerene acceptors enables organic solar cells with 17.7% efficiency

A Novel Thiophene‐Fused Ending Group Enabling an Excellent Small Molecule Acceptor for High‐Performance Fullerene‐Free Polymer Solar Cells with 11.8% Efficiency

High-Efficiency Ternary Organic Solar Cells with a Good Figure-of-Merit Enabled by Two Low-Cost Donor Polymers

Concurrent improvement in JSC and VOC in high-efficiency ternary organic solar cells enabled by a red-absorbing small-molecule acceptor with a high LUMO level

Asymmetric Acceptors with Fluorine and Chlorine Substitution for Organic Solar Cells toward 16.83% Efficiency

Adding a Third Component with Reduced Miscibility and Higher LUMO Level Enables Efficient Ternary Organic Solar Cells

Regio-Regular Polymer Acceptors Enabled by Determined Fluorination on End Groups for All-Polymer Solar Cells with 15.2 % Efficiency

Reduced Energy Loss Enabled by a Chlorinated Thiophene-Fused Ending-Group Small Molecular Acceptor for Efficient Nonfullerene Organic Solar Cells with 13.6% Efficiency

Boosting reverse intersystem crossing by increasing donors in triarylboron/phenoxazine hybrids: TADF emitters for high-performance solution-processed OLEDs

Altering alkyl-chains branching positions for boosting the performance of small-molecule acceptors for highly efficient nonfullerene organic solar cells

Frequent Co-Authors

External Links

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