Ming Tang

1.1k total citations
42 papers, 782 citations indexed

About

Ming Tang is a scholar working on Electrical and Electronic Engineering, Materials Chemistry and Molecular Biology. According to data from OpenAlex, Ming Tang has authored 42 papers receiving a total of 782 indexed citations (citations by other indexed papers that have themselves been cited), including 22 papers in Electrical and Electronic Engineering, 12 papers in Materials Chemistry and 8 papers in Molecular Biology. Recurrent topics in Ming Tang's work include Semiconductor materials and devices (12 papers), Ferroelectric and Negative Capacitance Devices (8 papers) and Thin-Film Transistor Technologies (7 papers). Ming Tang is often cited by papers focused on Semiconductor materials and devices (12 papers), Ferroelectric and Negative Capacitance Devices (8 papers) and Thin-Film Transistor Technologies (7 papers). Ming Tang collaborates with scholars based in Taiwan, China and United States. Ming Tang's co-authors include M. H. Lee, Neha S. Gandhi, Yuantong Gu, Kevin Burrage, P.-G. Chen, Emma Bolderson, K.-S. Li, Derek J. Richard, Ming-Han Liao and Kenneth J. O’Byrne and has published in prestigious journals such as Cancer Cell, Scientific Reports and Chemosphere.

In The Last Decade

Ming Tang

35 papers receiving 763 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Ming Tang Taiwan 16 399 245 171 85 69 42 782
Dong Lin China 17 433 1.1× 230 0.9× 135 0.8× 66 0.8× 83 1.2× 52 1.0k
Zhenrui Li China 16 348 0.9× 106 0.4× 180 1.1× 67 0.8× 144 2.1× 47 956
Jun-Hee Park South Korea 16 130 0.3× 66 0.3× 287 1.7× 103 1.2× 121 1.8× 37 609
Hena Zhang China 14 106 0.3× 205 0.8× 463 2.7× 278 3.3× 91 1.3× 37 807
Bo Kyoung Kim South Korea 13 201 0.5× 164 0.7× 207 1.2× 104 1.2× 102 1.5× 38 775
Brad A. Krajina United States 13 129 0.3× 106 0.4× 129 0.8× 31 0.4× 223 3.2× 18 630
Glen Lester Sequiera Canada 14 93 0.2× 312 1.3× 354 2.1× 23 0.3× 267 3.9× 31 869
Hongjun Su China 17 87 0.2× 98 0.4× 338 2.0× 194 2.3× 28 0.4× 32 799
Guoqian Zhang China 15 346 0.9× 148 0.6× 132 0.8× 84 1.0× 213 3.1× 32 820
Peirong Xu China 13 85 0.2× 74 0.3× 146 0.9× 67 0.8× 54 0.8× 30 558

Countries citing papers authored by Ming Tang

Since Specialization
Citations

This map shows the geographic impact of Ming Tang'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 Ming Tang with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Ming Tang more than expected).

Fields of papers citing papers by Ming Tang

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Ming Tang. 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 Ming Tang. The network helps show where Ming Tang may publish in the future.

Co-authorship network of co-authors of Ming Tang

This figure shows the co-authorship network connecting the top 25 collaborators of Ming Tang. A scholar is included among the top collaborators of Ming Tang 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 Ming Tang. Ming Tang 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.
Liao, Juan, et al.. (2025). Preparation of WN@CNT/S composite and application as the cathode material of lithium-sulfur batteries. Colloids and Surfaces A Physicochemical and Engineering Aspects. 719. 137005–137005. 2 indexed citations
2.
Zhang, Huai, Zhen Guo, Risheng Chu, et al.. (2025). Long-term effects on earthquakes induced by poroelastic effect and fluid diffusion during shale gas production in Rongchang, China. Tectonophysics. 916. 230927–230927.
3.
Zhu, Wei, Wen‐Jie Chen, Ming Tang, et al.. (2025). Insights into the properties of IGZO films and thin-film transistors fabricated by radio frequency and high-power impulse magnetron sputtering. Physica Scripta. 100(6). 65985–65985.
4.
Fan, Junqiang, et al.. (2024). The mediating role of ego depletion in the relationship between state anxiety and academic procrastination among University students. Scientific Reports. 14(1). 15568–15568. 11 indexed citations
5.
Zhang, Hongping, Pengfei Tang, Shuchun Hu, et al.. (2024). The adsorption behavior of perfluorooctane sulphonate on diamane regulated by strain. Chemosphere. 362. 142581–142581. 2 indexed citations
6.
7.
Wang, Kefu, J. Schwan, Jacob M. Strain, et al.. (2023). Efficient photon upconversion enabled by strong coupling between silicon quantum dots and anthracene. Nature Chemistry. 15(8). 1172–1178. 45 indexed citations
8.
Deng, Junyu, Xingqian Wu, Wenjie He, et al.. (2023). Targeting DNA methylation and demethylation in diabetic foot ulcers. Journal of Advanced Research. 54. 119–131. 29 indexed citations
9.
Tang, Ming, Joshua T. Burgess, Mark Fisher, et al.. (2023). Targeting the COMMD4–H2B protein complex in lung cancer. British Journal of Cancer. 129(12). 2014–2024. 3 indexed citations
10.
Yang, Xiaoshan, et al.. (2021). Investigating the Influence of the Inlet Bypass Recirculation System on the Compressor Performance. Journal of Applied Fluid Mechanics. 14(5).
11.
Tang, Ming, Emma Bolderson, Kenneth J. O’Byrne, & Derek J. Richard. (2021). Tumor Hypoxia Drives Genomic Instability. Frontiers in Cell and Developmental Biology. 9. 626229–626229. 40 indexed citations
12.
Tang, Ming, Tong Li, Edmund Pickering, et al.. (2018). Steered molecular dynamics characterization of the elastic modulus and deformation mechanisms of single natural tropocollagen molecules. Journal of the mechanical behavior of biomedical materials. 86. 359–367. 19 indexed citations
13.
Menghi, Francesca, Floris P Barthel, Vinod Kumar Yadav, et al.. (2018). The Tandem Duplicator Phenotype Is a Prevalent Genome-Wide Cancer Configuration Driven by Distinct Gene Mutations. Cancer Cell. 34(2). 197–210.e5. 111 indexed citations
14.
Yan, Bowen, Qinwei Chen, Kōji Shimada, et al.. (2018). Histone deacetylase inhibitor targets CD123/CD47-positive cells and reverse chemoresistance phenotype in acute myeloid leukemia. Leukemia. 33(4). 931–944. 43 indexed citations
15.
Chen, Kuan‐Ting, et al.. (2018). Negative-Capacitance Fin Field-Effect Transistor Beyond the 7-nm Node. Journal of Nanoscience and Nanotechnology. 18(10). 6873–6878. 3 indexed citations
16.
Tang, Ming, Tong Li, Neha S. Gandhi, Kevin Burrage, & Yuantong Gu. (2017). Heterogeneous nanomechanical properties of type I collagen in longitudinal direction. Biomechanics and Modeling in Mechanobiology. 16(3). 1023–1033. 23 indexed citations
17.
Tang, Ming, et al.. (2014). On-site partial discharge test of medium voltage switchgear by time of arrival method. 1023–1028. 3 indexed citations
18.
Chen, P.-G., et al.. (2014). Experimental Demonstration of Ferroelectric Gate-Stack AlGaN/GaN-on-Si MOS-HEMTs With Voltage Amplification for Power Applications. IEEE Transactions on Electron Devices. 61(8). 3014–3017. 16 indexed citations
19.
20.
Ho, Chia-Tung, et al.. (2004). An analytical threshold voltage model of NMOSFETs with hot-carrier induced interface charge effect. Microelectronics Reliability. 45(7-8). 1144–1149. 17 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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