Biography and Research Information
OverviewAI-generated summary
Tao Shen's research centers on the industrial applications of nano-modified electrical contact functional composites and components. His work includes structural modification of precious metal silver and tin oxide reinforcement phases, COMSOL simulation, and the electrical lifespan performance of components, with a specific focus on the mechanisms of arc erosion resistance and failure.
Shen has contributed to several significant projects, including the National 863 Program, the Zhejiang Province Leading Earth Goose Program, and the Guangxi Key R&D Program (Zhejiang University Special Project). He has authored over 20 academic papers, with three as first author and two as corresponding author, and holds 12 invention patents. His contributions have been recognized with a domestic first (set) award in a key field of Zhejiang Province's equipment manufacturing industry, the second prize of the Zhejiang Provincial Science and Technology Progress Award in 2018, and the second prize of the Zhejiang Provincial Science and Technology Invention Award in 2021.
His scholarship metrics include an h-index of 11, 56 total publications, and 582 total citations. Shen is also a Co-Principal Investigator on a $450,500 NIH/National Institute of Allergy and Infectious Diseases grant studying the role of macrophage subsets in lesion biology and Mycobacterium tuberculosis infection.
Metrics
- h-index: 9
- Publications: 71
- Citations: 454
Selected Publications
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Serum metabolic signatures and MetalnFF diagnostic score for mild and moderate metabolic dysfunction-associated steatotic liver disease (2025)
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Association of Residential Segregation With Mortality in the U.S., 2018–2022 (2025)
Federal Grants 1 $450,500 total
NIH/National Institute of Allergy and Infectious Diseases
Co-PI
Aug 2025 - Jul 2027
Collaboration Network
Top Collaborators
Chengfa Mu
Wenzhou University (CN)
3 shared publications
- Investigation of the Microstructure and Electrical Performance of Ag/SnO2In2O3 Contacts with Nickel Addition Fabricated by Internal Oxidation
- Study on the milling processes and sintering properties of Ag/SnO2 electrical contact material with different micro-structured SnO2 powders
- Interfacial engineering for boosting electrical contact performance in perovskite-reinforced silver composites
Hui Yang
Zhejiang International Studies University (CN)
3 shared publications
- Investigation of the Microstructure and Electrical Performance of Ag/SnO2In2O3 Contacts with Nickel Addition Fabricated by Internal Oxidation
- Improving mechanical and electrical contact performance of silver based electrical contact material reinforced by flower spherical zinc oxide loaded with silver nanoparticles
- Interfacial engineering for boosting electrical contact performance in perovskite-reinforced silver composites
Xinhe Wu
Wenzhou University (CN)
3 shared publications
- Investigation of the Microstructure and Electrical Performance of Ag/SnO2In2O3 Contacts with Nickel Addition Fabricated by Internal Oxidation
- Improving mechanical and electrical contact performance of silver based electrical contact material reinforced by flower spherical zinc oxide loaded with silver nanoparticles
- Interfacial engineering for boosting electrical contact performance in perovskite-reinforced silver composites
Gengxin Qi
WengFu Group (China) (CN)
2 shared publications
- Investigation of the Microstructure and Electrical Performance of Ag/SnO2In2O3 Contacts with Nickel Addition Fabricated by Internal Oxidation
- Study on the milling processes and sintering properties of Ag/SnO2 electrical contact material with different micro-structured SnO2 powders
Xiaohua Zheng
Zhejiang University of Technology (CN)
2 shared publications
- Interfacial wettability and electrical properties of Ni-doped Ag/Bi2Sn2O7 electrical contact materials
- Improving Interfacial Wettability, Physical, and Mechanical Properties of Ag/La1−xSrxCoO3 Electrical Contact Materials by In Situ Cu-Doping
Ziyang Shao
Zhejiang University of Technology (CN)
2 shared publications
- Interfacial wettability and electrical properties of Ni-doped Ag/Bi2Sn2O7 electrical contact materials
- Improving Interfacial Wettability, Physical, and Mechanical Properties of Ag/La1−xSrxCoO3 Electrical Contact Materials by In Situ Cu-Doping
Fang-er Yang
Zhejiang University of Technology (CN)
2 shared publications
- Interfacial wettability and electrical properties of Ni-doped Ag/Bi2Sn2O7 electrical contact materials
- Improving Interfacial Wettability, Physical, and Mechanical Properties of Ag/La1−xSrxCoO3 Electrical Contact Materials by In Situ Cu-Doping
Yiheng Zhou
Zhejiang University (CN)
2 shared publications
- Improving mechanical and electrical contact performance of silver based electrical contact material reinforced by flower spherical zinc oxide loaded with silver nanoparticles
- Interfacial engineering for boosting electrical contact performance in perovskite-reinforced silver composites
Qianhong Shen
Zhejiang University of Science and Technology (CN)
2 shared publications
- Improving mechanical and electrical contact performance of silver based electrical contact material reinforced by flower spherical zinc oxide loaded with silver nanoparticles
- Interfacial engineering for boosting electrical contact performance in perovskite-reinforced silver composites
Keming Li
Zhejiang University (CN)
2 shared publications
- Method for Shape Imperfection Control in Buckling of Ellipsoidal Heads Using a 3D Laser Scanner
- Improved Knock-Down Factors for the Design of Hemispherical, Torispherical and Ellipsoidal Heads Under External Pressure
Ruiyao Ying
Nanjing Agricultural University (CN)
2 shared publications
- Agricultural transformation in the digital age: Digital inclusive finance and the development of new agricultural business entities
- How can farms constrained by resource endowment improve misallocation? Evidence from China
Juhang Yin
University of Electronic Science and Technology of China (CN)
1 shared publication
- Power controlled microstructure and infrared properties of air plasma spraying based on YSZ coatings
Chao Wang
Guangdong Institute of New Materials (CN)
1 shared publication
- Power controlled microstructure and infrared properties of air plasma spraying based on YSZ coatings
Hanyu Zheng
Vanderbilt University (US)
1 shared publication
- Power controlled microstructure and infrared properties of air plasma spraying based on YSZ coatings
Li Zhang
University of Electronic Science and Technology of China (CN)
1 shared publication
- Power controlled microstructure and infrared properties of air plasma spraying based on YSZ coatings
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