Mingxing Shi
About
Mingxing Shi is a scholar working on Water Science and Technology, Biomedical Engineering and Electrical and Electronic Engineering.
According to data from OpenAlex, Mingxing Shi has authored 38 papers receiving a total of 1.2k indexed citations (citations by other indexed papers that have themselves been cited), including 27 papers in Water Science and Technology, 18 papers in Biomedical Engineering and 13 papers in Electrical and Electronic Engineering. Recurrent topics in Mingxing Shi's work include Membrane-based Ion Separation Techniques (15 papers), Membrane Separation Technologies (13 papers) and Adsorption and biosorption for pollutant removal (11 papers). Mingxing Shi is often cited by papers focused on Membrane-based Ion Separation Techniques (15 papers), Membrane Separation Technologies (13 papers) and Adsorption and biosorption for pollutant removal (11 papers). Mingxing Shi collaborates with scholars based in China, Singapore and France. Mingxing Shi's co-authors include Mingzhu Xia, Fengyun Wang, Chun Liu, Shuai Mao, Xianyong Hong, Hua Qiang, Qun Chen, Xue‐Hai Ju, Dongting Wang and Qun Chen and has published in prestigious journals such as The Science of The Total Environment, Journal of Hazardous Materials and Bioresource Technology.
In The Last Decade
Mingxing Shi
34 papers receiving 1.2k citations
Hit Papers
Peers — A (Enhanced Table)
Peers by citation overlap · career bar shows stage (early→late) cites · hero ref
| Name | h | Career | Trend | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Mingxing Shi China | 18 | 489 | 482 | 479 | 406 | 372 | 38 | 1.2k | ||
| Renbi Bai China | 20 | 657 1.3× | 544 1.1× | 451 0.9× | 355 0.9× | 292 0.8× | 28 | 1.3k | ||
| Ziwen An China | 10 | 456 0.9× | 607 1.3× | 787 1.6× | 366 0.9× | 174 0.5× | 17 | 1.4k | ||
| Hongmei He China | 18 | 444 0.9× | 504 1.0× | 549 1.1× | 268 0.7× | 219 0.6× | 42 | 1.1k | ||
| Zhiqiang Xu China | 21 | 429 0.9× | 416 0.9× | 663 1.4× | 454 1.1× | 283 0.8× | 63 | 1.4k | ||
| Mingxing Liang China | 17 | 337 0.7× | 397 0.8× | 239 0.5× | 506 1.2× | 367 1.0× | 26 | 1.0k | ||
| Liming You Singapore | 14 | 630 1.3× | 466 1.0× | 887 1.9× | 334 0.8× | 371 1.0× | 18 | 1.3k | ||
| Xiaoji Zhou China | 14 | 455 0.9× | 406 0.8× | 374 0.8× | 286 0.7× | 242 0.7× | 21 | 1.0k | ||
| Xiaoyu Ma China | 16 | 335 0.7× | 433 0.9× | 496 1.0× | 276 0.7× | 208 0.6× | 33 | 1.1k | ||
| Rufen Chen China | 20 | 502 1.0× | 488 1.0× | 788 1.6× | 199 0.5× | 240 0.6× | 66 | 1.2k | ||
| Esra Bilgin Şimşek Türkiye | 24 | 426 0.9× | 778 1.6× | 1.0k 2.1× | 339 0.8× | 162 0.4× | 83 | 1.7k |
Countries citing papers authored by Mingxing Shi
Since
Specialization
Citations
This map shows the geographic impact of Mingxing Shi'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 Mingxing Shi with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Mingxing Shi more than expected).
Fields of papers citing papers by Mingxing Shi
Since
Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences
This network shows the impact of papers produced by Mingxing Shi. 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 Mingxing Shi. The network helps show where Mingxing Shi may publish in the future.
Co-authorship network of co-authors of Mingxing Shi
This figure shows the co-authorship network connecting the top 25 collaborators of Mingxing Shi. A scholar is included among the top collaborators of Mingxing Shi 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 Mingxing Shi. Mingxing Shi is excluded from the visualization to improve readability, since they are connected to all nodes in the network.
All Works
1.
Wang, Dongming, et al.. (2025). In-situ template-assisted self-activation craft for direct preparing mesoporous-dominated N/S co-doped hierarchical porous carbon for supercapacitors. International Journal of Biological Macromolecules. 305(Pt 2). 141361–141361.
2.
Shi, Mingxing, Chen Wang, Fengyun Wang, et al.. (2025). Engineering sustainable porous carbon electrodes for practical-level capacitive deionization desalination. Coordination Chemistry Reviews. 543. 216949–216949.
3.
Liu, Jingjing, et al.. (2025). CNTs-enabled enhanced capacitive deionization desalination: From material innovation to electrode optimization and device integration. Journal of Energy Chemistry. 111. 617–639.
4.
Shi, Mingxing, Hao Zhang, Chen Wang, et al.. (2025). Volumetric adsorption capacity-driven miniaturized capacitive deionization systems: Perspective of materials to electrodes then to devices. Chemical Engineering Journal. 519. 164818–164818.
5.
Pan, Yubo, Ruijie Che, Keren Lu, et al.. (2025). Dual-mode capacitive phosphate capture enabled by topologically confinement-engineered ZIF-derived NiCo-LDH heterojunctions. Journal of Energy Chemistry. 111. 129–142.
6.
Liu, Jingjing, Xu Wu, Yubo Pan, et al.. (2025). Advanced hierarchical porous carbon nanosheets: Controlled synthesis, optimization strategy, environmental application and regeneration utilization. Journal of environmental chemical engineering. 13(6). 120514–120514.
7.
Wang, Dongming, et al.. (2025). KNO3-assisted potassium tartrate co-activation synthesis of lignin-based hierarchical porous carbon for supercapacitors. Bioresource Technology. 442. 133695–133695.
8.
Pan, Yubo, Ruijie Che, Keren Lu, et al.. (2025). MIL-100(Fe)-derived Mg/Fe layered double hydroxides composite millimeter-scale aerogel beads for phosphate adsorption from real domestic wastewater. Chemical Engineering Journal. 508. 161229–161229.
9.
Hong, Xianyong, et al.. (2024). α-Fe2O3 nanorods on CoFe-LDH@MX via interfacial interactions for Congo red removal: Experimental and mechanistic studies. Journal of environmental chemical engineering. 12(3). 113059–113059.
10.
Liu, Chun, Mingxing Shi, Dongting Wang, et al.. (2024). Dependence of superoxide radical generation on peroxymonosulfate under visible light: Enrofloxacin degradation and mechanism insight. Chemical Engineering Journal. 485. 149721–149721.
11.
Qiang, Hua, Mingxing Shi, Keren Lu, Fengyun Wang, & Mingzhu Xia. (2024). Green self-templated synthesis of P-doped mesoporous carbon from dual sodium salts with improved average pore size for capacitive deionization. Desalination. 593. 118246–118246.
12.
Qiang, Hua, Mingxing Shi, Yubo Pan, Fengyun Wang, & Mingzhu Xia. (2024). Sustainable pore expansion approach for the fabrication of nitrogen-doped porous carbon for capacitive deionization. Separation and Purification Technology. 361. 131294–131294.
13.
Lu, Keren, et al.. (2024). Defect-rich N, S Co-doped porous carbon with hierarchical channel network for ultrafast capacitive deionization. Journal of Colloid and Interface Science. 679(Pt A). 262–272.
14.
Liu, Chun, Chao Ding, Shuai Mao, et al.. (2023). The efficient degradation of high concentration phenol by Nitrogen-doped perovskite La2CuO4 via catalytic wet air oxidation: Experimental study and DFT calculation. Separation and Purification Technology. 322. 124310–124310.
15.
Hong, Xianyong, Chao Ding, Mingxing Shi, et al.. (2023). Easy separation dual-function Cu2O@LDH@Fe3O4 adsorbent for the removal of Cr(VI) under dark conditions: Experimental and mechanistic study. Separation and Purification Technology. 332. 125734–125734.
16.
Qiang, Hua, Mingxing Shi, Fengyun Wang, & Mingzhu Xia. (2023). Biomass-based N/P co-doped hierarchical porous carbon fabricated by a facile dual physico-chemical activation strategy for efficient capacitive deionization. Separation and Purification Technology. 333. 125915–125915.
17.
Zhang, Hongling, et al.. (2021). The Adsorption Mechanism of Montmorillonite for Different Tetracycline Species at Different pH Conditions: the Novel Visual Analysis of Intermolecular Interactions. Water Air & Soil Pollution. 232(2).
18.
Chu, Yuting, Muhammad Asim Khan, Mingzhu Xia, et al.. (2021). Facile immobilization of ethylenediamine tetramethylene-phosphonic acid into UiO-66 for toxic divalent heavy metal ions removal: An experimental and theoretical exploration. The Science of The Total Environment. 806(Pt 3). 150652–150652.
19.
Zhang, Hongling, et al.. (2021). Adsorption of two β-blocker pollutants on modified montmorillonite with environment-friendly cationic surfactant containing amide group: Batch adsorption experiments and Multiwfn wave function analysis. Journal of Colloid and Interface Science. 590. 601–613.
20.
Liu, Chun, Shuai Mao, Mingxing Shi, et al.. (2021). Peroxymonosulfate activation through 2D/2D Z-scheme CoAl-LDH/BiOBr photocatalyst under visible light for ciprofloxacin degradation. Journal of Hazardous Materials. 420. 126613–126613.
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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