Tao Yuan | Electrode Materials | Best Researcher Award

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Prof. Tao Yuan | Electrode Materials | Best Researcher Award

Professor at University of Shanghai for Science and Technology, China

Yuan Tao is a distinguished professor, Pujiang Scholar, and a visiting scholar at Georgia Institute of Technology. She earned her Ph.D. from Nanjing Tech University in 2011 and has conducted research at the State Grid Corporation and Shanghai Jiao Tong University. Since 2015, she has been part of the Advanced Energy Materials Group at the University of Shanghai for Science and Technology. Her work focuses on advanced materials and novel energy devices, leading to over 50 international journal publications and 7 Chinese patents. She actively leads multiple national and municipal research projects, contributing significantly to the energy storage field.

Publication Profile

Scopus

Academic BackgroundšŸŽ“

Yuan Tao completed her Ph.D. in 2011 at Nanjing Tech University, specializing in advanced energy materials. Her academic journey has been marked by extensive research in material science, energy storage, and electrochemistry. She further enriched her expertise as a visiting scholar at the Georgia Institute of Technology in the United States, where she explored cutting-edge developments in battery technologies. With a strong foundation in material chemistry, she has continued to innovate in lithium/sodium-ion batteries and metal-air batteries, making significant advancements in the field of sustainable energy solutions and composite materials for energy storage applications.

Professional BackgroundšŸ†

Yuan Tao has an extensive research career spanning prestigious institutions and projects. She worked at the State Grid Corporation and Shanghai Jiao Tong University before joining the University of Shanghai for Science and Technology in 2015. As a professor and Pujiang Scholar, she has led numerous scientific initiatives, focusing on energy materials and battery technology. Her experience includes securing national and municipal research grants, collaborating with industry partners, and mentoring young researchers. Her expertise in electrode-electrolyte interfaces and composite materials has significantly contributed to the advancement of lithium/sodium-ion battery performance and efficiency.

Awards and Honors šŸ…

Yuan Tao has received numerous accolades for her contributions to energy materials research. She is recognized as a Pujiang Scholar, an esteemed title awarded to outstanding researchers in Shanghai. Her work has earned her funding from the National Natural Science Foundation of China, the Shanghai Municipal Science and Technology Commission, and the Shanghai Municipal Education Commission. Additionally, she has been awarded 7 Chinese invention patents, showcasing her innovation in battery technology. Her publications in high-impact international journals have further solidified her reputation as a leading researcher in energy storage and electrochemical materials.

Research Focus šŸ”¬

Yuan Tao specializes in the design of advanced materials and novel devices for energy storage, with a primary focus on lithium/sodium-ion batteries and metal-air batteries. Her research explores the interface mechanisms between electrodes and electrolytes, aiming to enhance battery performance and efficiency. She also works on oxygen-reduction catalysts for metal-air batteries, contributing to advancements in sustainable energy storage. Through her work, she seeks to develop high-performance composite materials that improve energy density, stability, and lifespan, addressing critical challenges in modern battery technology and driving innovations in renewable energy solutions.

Publication Top Notes

A comprehensive review of layered transition metal oxide cathodes for sodium-ion batteries: The latest advancements and future perspectives šŸ†
Year: 2025 | Cited by: 1

Enhancement of nitric oxide sensing performance via oxygen vacancy promotion on strontium-doped LaFeO3 perovskites šŸŒ¬ļøšŸ“”
Year: 2024 | Cited by: 4

Recent advances in producing hollow carbon spheres for use in sodiumāˆ’sulfur and potassiumāˆ’sulfur batteries šŸŗāš”
Year: 2024 | Ā Cited by: 1

Conclusion

Yuan Tao is a highly accomplished researcher in energy materials, specializing in lithium/sodium-ion batteries and metal-air batteries. With a Ph.D. from Nanjing Tech University and research experience at esteemed institutions like Georgia Tech, the State Grid Corporation, and Shanghai Jiao Tong University, she has made significant contributions to sustainable energy storage. Her impressive portfolio includes 50+ international journal publications, 7 Chinese invention patents, and leadership in multiple research projects funded by the National Natural Science Foundation of China and the Shanghai Municipal Science and Technology Commission. Her ability to secure funding, drive impactful research, and innovate in battery technology makes her a strong contender for the Best Researcher Award.

 

 

Ao Xia | Nano energy | Best Researcher Award

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Dr. Ao Xia | Nano energy | Best Researcher Award

professor at Shaanxi university of science and technology, China

Dr. Ao Xia is an associate professor and master tutor at Shaanxi University of Science and Technology. She earned her Bachelor’s in Engineering (1997-2001), Master’s in Engineering (2001-2004), and Doctor of Engineering (2010-2015) from the same institution. Dr. Ao has led and completed several significant research projects, including those funded by the National Natural Science Foundation, China Postdoctoral Science Foundation, and Shaanxi Provincial Natural Science Foundation. With over 30 academic papers and 10+ patents, her work has earned multiple prestigious awards, including the second prize in science and technology from Shaanxi Province šŸ†

Publication Profile

Scopus

Academic Background and Qualifications

Dr. Ao Xia is a highly accomplished associate professor and master tutor. She obtained her Bachelor of Engineering from the Northwest Institute of Light Industry (1997-2001), followed by a Master of Engineering from Shaanxi University of Science and Technology (2001-2004). She earned her Doctor of Engineering degree from Shaanxi University of Science and Technology in 2015. Her educational foundation is solid and reflects her dedication to advancing her field.

Research Leadership and Contributions

Dr. Ao Xia has shown outstanding leadership in research, having presided over and successfully completed significant projects funded by prestigious entities like the National Natural Science Foundation (Youth Foundation), China Postdoctoral Science Foundation, Shaanxi Provincial Natural Science Foundation, and Shaanxi University of Science and Technology. Additionally, her participation in numerous high-profile scientific research projects further strengthens her reputation in the research community.

Awards and Recognition

Dr. Ao Xia’s research achievements have been recognized with several prestigious awards, including the second prize of science and technology from Shaanxi Province and Shaanxi Provincial Colleges and Universities, as well as the third prize of science and technology from Shaanxi Provincial Colleges and Universities. These accolades are a testament to her groundbreaking contributions to science and technology.

Research Focus

Dr. Ao Xia’s research primarily centers around energy storage materials and electrochemical properties, with a particular focus on enhancing supercapacitor performance and piezoelectric catalysis. Her work involves exploring the synergistic effects of doping, heterostructures, and advanced materials like Ī“-MnOā‚‚, BiOBr, and MXenes to improve energy storage systems and flexible electronics. Key themes in her research include resistive switching behavior, electrochemical performance, material interfaces, and energy harvesting. Dr. Ao’s innovative approach integrates ferroelectric and ferromagnetic properties, making her a significant contributor to the fields of energy materials and flexible electronics. āš”šŸ“±

Publication Top Notes

  • Sm-doping and carbon aerogel synergistically improve the electrochemical properties of Ī“-MnOā‚‚ as supercapacitor electrodesJournal of Energy Storage, 2025 šŸ“… (0 citations)
  • Analog and bipolar resistive switching behavior in ‘p-n’ junction of the p-type BEFO/n-type ZnO heterostructuresSurfaces and Interfaces, 2025 šŸ“… (0 citations)
  • Construction of energy storage heterojunction and enhancement mechanism of dark and full-spectrum energy storage piezoelectric catalysisChemical Engineering Journal, 2025 šŸ“… (0 citations)
  • Resistive switching behavior and thermal stability in the flexible BEFO/ZnO/LSMO heterostructure for flexible/wearable electronicsCeramics International, 2024 šŸ“… (0 citations)
  • Dual strategies for enhancing piezoelectric catalytic ability of energy storage BiOBr@Biā‚„Oā‚…Brā‚‚ heterojunctionApplied Catalysis B: Environmental, 2024 šŸ“… (3 citations)
  • Influence of fluorine doping on the structure and electrochemical performance of Ī“-MnOā‚‚ for supercapacitorsCeramics International, 2024 šŸ“… (6 citations)
  • Ferroelectric and Ferromagnetic Properties in Flexible (Gd, Mn) Co-doping BiFeOā‚ƒ Thin FilmJournal of Superconductivity and Novel Magnetism, 2024 šŸ“… (0 citations)
  • Interface electric field and crystal intrinsic polarization electric field enhance the broad-spectrum energy storage catalytic activity of S-scheme BiOBr@Biā‚‚Oā‚‚(COā‚ƒ)ā‚ā‚‹ā‚“ā‚™ā‚“ heterojunctionChemical Engineering Journal, 2024 šŸ“… (5 citations)
  • Ferroelectric diode-like resistive switching behavior in Biā‚€.ā‚‰ā‚…Erā‚€.ā‚€ā‚…FeOā‚ƒ/CuFeā‚‚Oā‚„ heterostructures for non-volatile memoriesApplied Materials Today, 2024 šŸ“… (1 citation)
  • Intrinsic Polarized Electric Field Induces a Storing Mechanism to Achieve Energy Storing Catalysis in Vā‚‚C MXeneAdvanced Materials, 2024 šŸ“… (4 citations)
Conclusion

Dr. Ao Xia is undoubtedly a strong candidate for the Research for Best Researcher Award. Her sustained commitment to excellence in research makes her an invaluable asset to the academic community and a deserving nominee for this prestigious award.