Jiahua Tao

3.2k total citations
117 papers, 2.7k citations indexed

About

Jiahua Tao is a scholar working on Electrical and Electronic Engineering, Materials Chemistry and Atomic and Molecular Physics, and Optics. According to data from OpenAlex, Jiahua Tao has authored 117 papers receiving a total of 2.7k indexed citations (citations by other indexed papers that have themselves been cited), including 100 papers in Electrical and Electronic Engineering, 85 papers in Materials Chemistry and 13 papers in Atomic and Molecular Physics, and Optics. Recurrent topics in Jiahua Tao's work include Chalcogenide Semiconductor Thin Films (75 papers), Quantum Dots Synthesis And Properties (70 papers) and Copper-based nanomaterials and applications (36 papers). Jiahua Tao is often cited by papers focused on Chalcogenide Semiconductor Thin Films (75 papers), Quantum Dots Synthesis And Properties (70 papers) and Copper-based nanomaterials and applications (36 papers). Jiahua Tao collaborates with scholars based in China, Japan and United States. Jiahua Tao's co-authors include Junhao Chu, Junhao Chu, Pingxiong Yang, Lin Sun, Shaoqiang Chen, Jinchun Jiang, Xiaobo Hu, Hongmei Deng, Huiyi Cao and Guoen Weng and has published in prestigious journals such as ACS Nano, Energy & Environmental Science and Advanced Functional Materials.

In The Last Decade

Jiahua Tao

114 papers receiving 2.6k citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Jiahua Tao China 30 2.4k 2.1k 288 266 192 117 2.7k
Jiajun Peng China 22 2.6k 1.1× 1.5k 0.7× 1.4k 4.8× 157 0.6× 128 0.7× 44 3.0k
Arturo Morales‐Acevedo Mexico 31 2.2k 1.0× 2.0k 0.9× 193 0.7× 353 1.3× 298 1.6× 143 2.7k
Shihao Ding China 21 1.0k 0.4× 984 0.5× 145 0.5× 210 0.8× 134 0.7× 83 1.6k
Weilin Zheng China 28 1.8k 0.8× 1.8k 0.8× 176 0.6× 265 1.0× 139 0.7× 69 2.4k
Yeqing Chen China 23 512 0.2× 1.3k 0.6× 77 0.3× 117 0.4× 161 0.8× 106 1.6k
Chuanxiang Sheng China 20 1.0k 0.4× 829 0.4× 371 1.3× 202 0.8× 63 0.3× 88 1.7k
Tian Xu China 17 859 0.4× 675 0.3× 147 0.5× 103 0.4× 202 1.1× 80 1.4k
Zhiwei Zhao China 19 675 0.3× 797 0.4× 96 0.3× 91 0.3× 159 0.8× 86 1.3k
Qiao Kong United States 20 1.7k 0.7× 2.0k 0.9× 146 0.5× 237 0.9× 980 5.1× 31 2.7k
Wan-Sheng Su Taiwan 19 507 0.2× 1.1k 0.5× 59 0.2× 309 1.2× 127 0.7× 89 1.6k

Countries citing papers authored by Jiahua Tao

Since Specialization
Citations

This map shows the geographic impact of Jiahua Tao's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Jiahua Tao with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jiahua Tao more than expected).

Fields of papers citing papers by Jiahua Tao

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jiahua Tao. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Jiahua Tao. The network helps show where Jiahua Tao may publish in the future.

Co-authorship network of co-authors of Jiahua Tao

This figure shows the co-authorship network connecting the top 25 collaborators of Jiahua Tao. A scholar is included among the top collaborators of Jiahua Tao based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Jiahua Tao. Jiahua Tao is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Li, Yutong, et al.. (2025). Kushenol O Regulates GALNT7/NF-κB axis-Mediated Macrophage M2 Polarization and Efferocytosis in Papillary Thyroid Carcinoma. Phytomedicine. 138. 156373–156373. 4 indexed citations
2.
Hu, Xiaobo, et al.. (2025). Sodium ion modulation for interface engineering in high-efficiency Sb2(S,Se)3 solar cells. Applied Optics. 64(14). 3890–3890. 1 indexed citations
3.
Shen, Luyan, et al.. (2024). Utilizing methanol as a solvent auxiliary additive for the fabrication of high-efficiency Sb2Se3 solar cells. Journal of Alloys and Compounds. 1010. 177967–177967. 3 indexed citations
4.
Wang, Lijun, Rui Wang, Chunhu Zhao, et al.. (2024). Back contact passivation of Sb2Se3 solar cells via antimony trichloride solution. Solar Energy Materials and Solar Cells. 269. 112757–112757. 4 indexed citations
5.
6.
7.
Tao, Jiahua, et al.. (2024). Suppressing non-radiative recombination for efficient and stable perovskite solar cells. Energy & Environmental Science. 18(2). 509–544. 57 indexed citations
8.
Zhao, Chunhu, et al.. (2024). Emerging Trends in Electron Transport Layer Development for Stable and Efficient Perovskite Solar Cells. Small. 20(26). e2400807–e2400807. 55 indexed citations
9.
Zhang, Chuanjun, Yixin Guo, Fangting Lin, et al.. (2023). Two-stage annealing-induced secondary grain growth for enhanced efficiency in CdTe solar cells on flexible polyimide foils. Ceramics International. 50(4). 6365–6373. 2 indexed citations
10.
Pan, Xingyu, Yanlin Pan, Lijun Wang, et al.. (2023). Interfacial engineering by applying double CdS structure electron transport layer for high-performance Sb2(S,Se)3 solar cells. Ceramics International. 49(13). 22471–22478. 7 indexed citations
11.
Pan, Xingyu, Rui Wang, Yanlin Pan, et al.. (2023). Temperature sensitivity of adjustable band gaps of Sb2(S, Se)3 solar cells via vapor transport deposition. Solar Energy Materials and Solar Cells. 263. 112582–112582. 4 indexed citations
12.
Pan, Yanlin, Xingyu Pan, Rui Wang, et al.. (2022). Vapor Transport Deposition of Sb2(S,Se)3 Solar Cells with Continuously Tunable Band Gaps. ACS Applied Energy Materials. 5(6). 7240–7248. 19 indexed citations
13.
Dang, Wei, Shu Jiang, Jinchuan Zhang, et al.. (2021). A systematic experimental and modeling study of water adsorption/desorption behavior in organic-rich shale with different particle sizes. Chemical Engineering Journal. 426. 130596–130596. 45 indexed citations
14.
Tao, Jiahua, Jinchuan Zhang, Junlan Liu, et al.. (2021). Molecular and Carbon Isotopic Variation during Canister Degassing of Terrestrial Shale: A Case Study from Xiahuayuan Formation in the Xuanhua Basin, North China. Minerals. 11(8). 843–843. 2 indexed citations
15.
Zhang, Chao, et al.. (2021). Room-temperature ferromagnetism in (K0.5Na0.5)NbO3-xBaNi0.5Nb0.5O3-δ ferroelectric ceramics with narrow bandgap. Ceramics International. 47(14). 20003–20008. 3 indexed citations
16.
Pan, Yanlin, Hongmei Deng, Jianxin Chen, et al.. (2021). Co-electrodeposition of Cu3BiS3 thin films in weakly alkaline aqueous solutions for photovoltaic application. Journal of Materials Science Materials in Electronics. 33(2). 585–595. 8 indexed citations
17.
Weng, Guoen, Jiao Tian, Shengjie Chen, et al.. (2020). Electron–Hole Plasma Lasing Dynamics in CsPbClmBr3-m Microplate Lasers. ACS Photonics. 8(3). 787–797. 34 indexed citations
18.
Zhang, Kezhi, Jiahua Tao, Junfeng Liu, et al.. (2014). Compact Cu2ZnSn(S,Se)4 Thin Films Fabricated by a Simple Sol-Gel Technique. Journal of Inorganic Materials. 29(7). 781. 2 indexed citations
19.
Tao, Jiahua. (2009). Preparation and Properties of Magnetic Zeolite. Guocheng gongcheng xuebao. 12 indexed citations
20.
Tao, Jiahua, et al.. (2004). Structural and magnetic analyses of magnetic nanoparticles coated with oleate molecules. Journal of Material Science and Technology. 20(4). 417–420. 5 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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