Shengwei Yu
About
Shengwei Yu is a scholar working on Molecular Medicine, Electrical and Electronic Engineering and Renewable Energy, Sustainability and the Environment.
According to data from OpenAlex, Shengwei Yu has authored 40 papers receiving a total of 1.3k indexed citations (citations by other indexed papers that have themselves been cited), including 13 papers in Molecular Medicine, 13 papers in Electrical and Electronic Engineering and 12 papers in Renewable Energy, Sustainability and the Environment. Recurrent topics in Shengwei Yu's work include Antibiotic Resistance in Bacteria (13 papers), Electrocatalysts for Energy Conversion (11 papers) and Fuel Cells and Related Materials (10 papers). Shengwei Yu is often cited by papers focused on Antibiotic Resistance in Bacteria (13 papers), Electrocatalysts for Energy Conversion (11 papers) and Fuel Cells and Related Materials (10 papers). Shengwei Yu collaborates with scholars based in United States, China and France. Shengwei Yu's co-authors include Richard S. Magliozzo, William R. Jacobs, Xiangbo Zhao, Stefania Girotto, Salem Chouchane, Ellen H. Fiss, Christian Carrière, Carlos Vaamonde, Barry R. Bloom and Stoyan Bardarov and has published in prestigious journals such as Proceedings of the National Academy of Sciences, Journal of the American Chemical Society and Journal of Biological Chemistry.
In The Last Decade
Shengwei Yu
39 papers receiving 1.2k citations
Peers — A (Enhanced Table)
Peers by citation overlap · career bar shows stage (early→late) cites · hero ref
| Name | h | Career | Trend | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Shengwei Yu United States | 20 | 518 | 439 | 433 | 203 | 153 | 40 | 1.3k | ||
| Vikram Saini India | 25 | 480 0.9× | 398 0.9× | 546 1.3× | 94 0.5× | 36 0.2× | 40 | 1.4k | ||
| Philip Hinchliffe United Kingdom | 21 | 304 0.6× | 406 0.9× | 1.2k 2.8× | 1.3k 6.5× | 54 0.4× | 43 | 2.6k | ||
| Patrice Soumillion Belgium | 24 | 381 0.7× | 79 0.2× | 1.3k 3.0× | 79 0.4× | 58 0.4× | 58 | 2.0k | ||
| Jean‐Luc Décout France | 25 | 155 0.3× | 133 0.3× | 1.4k 3.3× | 215 1.1× | 52 0.3× | 92 | 2.2k | ||
| Karrera Y. Djoko Australia | 21 | 133 0.3× | 98 0.2× | 442 1.0× | 133 0.7× | 28 0.2× | 38 | 1.3k | ||
| Jimin Xu United States | 27 | 308 0.6× | 170 0.4× | 1.1k 2.5× | 37 0.2× | 38 0.2× | 63 | 2.4k | ||
| Donald R. Ronning United States | 26 | 532 1.0× | 416 0.9× | 1.3k 3.1× | 94 0.5× | 41 0.3× | 65 | 2.2k | ||
| Shan Li China | 23 | 479 0.9× | 153 0.3× | 462 1.1× | 29 0.1× | 28 0.2× | 115 | 2.0k | ||
| Michio Kurosu United States | 26 | 358 0.7× | 200 0.5× | 1.0k 2.4× | 112 0.6× | 12 0.1× | 85 | 2.1k | ||
| Genyan Liu China | 24 | 194 0.4× | 92 0.2× | 506 1.2× | 24 0.1× | 135 0.9× | 91 | 1.6k |
Countries citing papers authored by Shengwei Yu
Since
Specialization
Citations
This map shows the geographic impact of Shengwei Yu'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 Shengwei Yu with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Shengwei Yu more than expected).
Fields of papers citing papers by Shengwei Yu
Since
Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences
This network shows the impact of papers produced by Shengwei Yu. 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 Shengwei Yu. The network helps show where Shengwei Yu may publish in the future.
Co-authorship network of co-authors of Shengwei Yu
This figure shows the co-authorship network connecting the top 25 collaborators of Shengwei Yu. A scholar is included among the top collaborators of Shengwei Yu 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 Shengwei Yu. Shengwei Yu is excluded from the visualization to improve readability, since they are connected to all nodes in the network.
All Works
1.
Jiang, Haibo, et al.. (2025). In-situ oxidation of CoOOH decorated on P25 heterostructure as the co-catalyst for enhanced photodegradation of organic pollutants. Materials Science in Semiconductor Processing. 193. 109522–109522.
2.
Wang, Junyao, et al.. (2024). LC-AMP-F1 Derived from the Venom of the Wolf Spider Lycosa coelestis, Exhibits Antimicrobial and Antibiofilm Activities. Pharmaceutics. 16(1). 129–129.
3.
Dong, Cong, Haodong Shi, Shengwei Yu, et al.. (2024). Large-area dendrite-free ultrathin Li-rich 3D Li-Sn alloy/graphene foil for high-performance all-solid-state lithium-sulfur batteries. Energy storage materials. 75. 103987–103987.
4.
Chen, Hongjian, Jie Fan, Xiuxiu Sun, et al.. (2023). Characterization of Pseudorabies Virus Associated with Severe Respiratory and Neuronal Signs in Old Pigs. Transboundary and Emerging Diseases. 2023. 1–12.
5.
Chen, Zhiguang, et al.. (2023). Microfibril-Associated Glycoprotein-2 Promoted Fracture Healing via Integrin αvβ3/PTK2/AKT Signaling. Laboratory Investigation. 103(7). 100121–100121.
6.
Zhang, Wenhui, Feng Guo, Yingjie Zhou, et al.. (2022). Gas Diffusion Layer with a Regular Hydrophilic Structure Boosts the Power Density of Proton Exchange Membrane Fuel Cells via the Construction of Water Highways. ACS Applied Materials & Interfaces. 14(15). 17578–17584.
7.
Zhou, Yingjie, Wenhui Zhang, Shengwei Yu, Haibo Jiang, & Chunzhong Li. (2021). Patterned catalyst layer boosts the performance of proton exchange membrane fuel cells by optimizing water management. Chinese Journal of Chemical Engineering. 44. 246–252.
8.
Cheng, Na, Ling Zhang, Yingjie Zhou, et al.. (2020). A general carbon monoxide-assisted strategy for synthesizing one-nanometer-thick Pt-based nanowires as effective electrocatalysts. Journal of Colloid and Interface Science. 572. 170–178.
9.
Wang, Junwu, et al.. (2020). Left ventricular dysfunction and reversible pulmonary hypertension secondary to severe pneumonia in a background of sepsis: a case report and review of the literature. Annals of Palliative Medicine. 9(5). 3629–3642.
10.
Cheng, Na, Ling Zhang, Hao Jiang, et al.. (2019). Locally-ordered PtNiPb ternary nano-pompons as efficient bifunctional oxygen reduction and methanol oxidation catalysts. Nanoscale. 11(36). 16945–16953.
11.
Zhao, Xiangbo, Shengwei Yu, Kalina Ranguelova, et al.. (2009). Role of the Oxyferrous Heme Intermediate and Distal Side Adduct Radical in the Catalase Activity of Mycobacterium tuberculosis KatG Revealed by the W107F Mutant. Journal of Biological Chemistry. 284(11). 7030–7037.
12.
Ranguelova, Kalina, Stefania Girotto, Gary J. Gerfen, et al.. (2007). Radical Sites in Mycobacterium tuberculosis KatG Identified Using Electron Paramagnetic Resonance Spectroscopy, the Three-dimensional Crystal Structure, and Electron Transfer Couplings. Journal of Biological Chemistry. 282(9). 6255–6264.
13.
Kapetanaki, Sofia M., Xiangbo Zhao, Shengwei Yu, Richard S. Magliozzo, & Johannes P. M. Schelvis. (2006). Modification of the active site of Mycobacterium tuberculosis KatG after disruption of the Met–Tyr–Trp cross-linked adduct. Journal of Inorganic Biochemistry. 101(3). 422–433.
14.
Zhao, Xiangbo, Stefania Girotto, Shengwei Yu, & Richard S. Magliozzo. (2004). Evidence for Radical Formation at Tyr-353 in Mycobacterium tuberculosis Catalase-Peroxidase (KatG). Journal of Biological Chemistry. 279(9). 7606–7612.
15.
Kapetanaki, Sofia M., Salem Chouchane, Shengwei Yu, et al.. (2004). Mycobacterium tuberculosis KatG(S315T) Catalase−Peroxidase Retains All Active Site Properties for Proper Catalytic Function. Biochemistry. 44(1). 243–252.
16.
Yu, Shengwei, et al.. (2003). Reduced Affinity for Isoniazid in the S315T Mutant ofMycobacterium tuberculosis KatG Is a Key Factor in Antibiotic Resistance. Journal of Biological Chemistry. 278(17). 14769–14775.
17.
Yu, Shengwei, Stefania Girotto, Xiangbo Zhao, & Richard S. Magliozzo. (2003). Rapid Formation of Compound II and a Tyrosyl Radical in the Y229F Mutant of Mycobacterium tuberculosis Catalase-peroxidase Disrupts Catalase but Not Peroxidase Function. Journal of Biological Chemistry. 278(45). 44121–44127.
18.
Chouchane, Salem, Stefania Girotto, Sofia M. Kapetanaki, et al.. (2003). Analysis of Heme Structural Heterogeneity in Mycobacterium tuberculosis Catalase-Peroxidase (KatG). Journal of Biological Chemistry. 278(10). 8154–8162.
19.
Yu, Shengwei, Salem Chouchane, & Richard S. Magliozzo. (2002). Characterization of the W321F mutant of Mycobacterium tuberculosis catalase–peroxidase KatG. Protein Science. 11(1). 58–64.
20.
Fiss, Ellen H., Shengwei Yu, & William R. Jacobs. (1994). Identification of genes involved in the sequestration of iron in mycobacteria: the ferric exochelin biosynthetic and uptake pathways. Molecular Microbiology. 14(3). 557–569.
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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