Shufeng Song | Batteries | Best Researcher Award

Assoc Prof. Dr. Shufeng Song | Batteries | Best Researcher Award 

Associate Professor at Chongqing University, China

Dr. Shufeng Song is an accomplished Associate Professor in the Department of Aerospace Engineering at Chongqing University, China. With a strong background in materials physics and chemistry, Dr. Song has established himself as a leading researcher in the field of advanced materials, particularly in developing innovative solutions for solid-state batteries. His academic journey, combined with a rich research career, has enabled him to make significant contributions to the understanding and development of superionic conductors and hybrid electrolytes. Over the years, he has garnered numerous accolades for his groundbreaking work, making him a notable candidate for prestigious research awards.

Profile

SCOPUS

Education

Dr. Song began his academic career at Shijiazhuang Tiedao University, where he earned a Bachelor’s degree in Inorganic Nonmetallic Materials Science and Engineering in 2006. Motivated by a passion for materials science, he pursued doctoral studies at the Shanghai Institute of Ceramics, Chinese Academy of Sciences, where he earned his Ph.D. in Materials Physics and Chemistry in 2011. During his doctoral research, Dr. Song laid the groundwork for his future innovations by exploring the intricacies of materials design, paving the way for a successful career in both academic and industrial research settings.

Experience

Dr. Song’s professional journey has been diverse and distinguished, reflecting his commitment to pushing the boundaries of materials science. After earning his Ph.D., he joined Dongfang Electric Corporation, one of the world’s largest energy equipment manufacturers, as a Research Scientist. Here, he gained valuable experience in the application of materials science to large-scale industrial challenges. In 2013, he transitioned to academia as a Postdoctoral Researcher in the Department of Mechanical Engineering at the National University of Singapore. This role allowed him to delve deeper into cutting-edge research, particularly in the development of solid-state battery materials. In 2016, Dr. Song joined Chongqing University as a Lecturer, quickly rising through the ranks to become an Associate Professor in 2018. His tenure-track position at Chongqing University has enabled him to lead several high-impact research projects and mentor a new generation of scientists.

Research Interests

Dr. Song’s research interests lie at the intersection of materials science and energy storage technology, with a specific focus on the development of advanced solid-state batteries. His work on superionic conductors has led to significant advancements in the field, particularly through the invention of hybrid electrolytes with superior ionic conductivity and stability. By synthesizing novel materials and exploring new synthesis methods, Dr. Song aims to overcome the limitations of traditional battery technologies, such as low energy density and poor safety. His research has also extended to optimizing the solid electrolyte interphase (SEI) and cathode electrolyte interphase (CEI), which are crucial for improving the performance and longevity of batteries. Through his innovative approaches, Dr. Song has contributed to the evolution of energy storage solutions that are safer, more efficient, and sustainable.

Awards

Dr. Song has been recognized for his significant contributions to materials science and battery technology. His research has attracted funding from prestigious institutions, including the Chinese National Natural Science Foundation and the Ministry of Science and Technology of China. In recognition of his pioneering work, he has also been invited to organize special issues for leading journals in the field of energy materials. His role as a reviewer for renowned journals such as Advanced Energy Materials and the Journal of Power Sources further attests to his standing in the academic community. Dr. Song’s achievements in both research and academic service demonstrate his ongoing commitment to advancing the field of materials science.

Publications

Dr. Song has an impressive publication record, with numerous papers published in high-impact journals. His works have gained considerable attention in the scientific community, as evidenced by the citations they have received. Here are six of his recent key publications:

Song, S. et al., “A concentrated ionogel-in-ceramic silanization composite electrolyte for quasi-solid-state Li metal batteries,” Energy & Environmental Materials, 2024. Cited by: 54.

Song, S. et al., “MoO3 facilitator enables ultrathin and stabilized Li metal anode for quasi-solid-state batteries,” Applied Physics Letters, 2023, 123, 113903. Cited by: 23.

Song, S. et al., “Fluorine-regulated cathode electrolyte interphase enables high-energy quasi-solid-state lithium metal batteries,” Applied Physics Letters, 2023, 122, 043903. Cited by: 19.

Song, S. et al., “Hybrid poly-ether/carbonate ester electrolyte engineering for quasi-solid-state lithium metal batteries,” Materials Today Energy, 2022, 23, 100893. Cited by: 45.

Song, S. et al., “Superconcentrated ionogel-in-ceramic hybrid electrolyte for solid-state Li/Na batteries,” Advanced Materials, 2022, 34, 2205560. Cited by: 253.

Song, S. et al., “Sintering of nano-grained Na superionic conductors,” Chemical Communications, 2021, 57, 4023. Cited by: 64.

Conclusion

Dr. Shufeng Song’s impressive career trajectory, marked by a blend of academic excellence, industrial experience, and innovative research, makes him a deserving candidate for the “Best Researcher Award.” His contributions to the development of advanced materials for energy storage have had a transformative impact on the field, addressing some of the most pressing challenges in battery technology. While there is always room for continued growth, particularly in expanding international collaborations and interdisciplinary research, Dr. Song’s achievements thus far undoubtedly qualify him for recognition as a leading researcher in his field.

 

Zilong Zhuang | Batteries | Best Researcher Award

Mr. Zilong Zhuang | Batteries | Best Researcher Award 

PhD student at University of Wisconsin-Madison, United States

Zilong Zhuang is a dedicated researcher and a Ph.D. student in Mechanical Engineering at the University of Wisconsin-Madison. With a solid academic background and extensive research experience in electrochemistry, materials science, and mechanical engineering, he has developed significant expertise in hydrogen production, battery technology, and energy storage. His research focuses on advancing the performance and efficiency of lithium-ion batteries and hydrogen energy systems. Zhuang’s commitment to innovative solutions in energy storage and his contributions to developing novel materials have earned him recognition in the field of electrochemical energy research.

Profile

Google Scholar

Education

Zilong Zhuang’s educational journey began with a Bachelor of Engineering degree in Resource Recycling Science and Engineering from Hunan Normal University in 2017, where he ranked among the top students in his class. He pursued a Master of Engineering in Materials Science at the Changsha Research Institute of Mining and Metallurgy, completing it in 2020 with a GPA of 3.62/4.00. During his master’s studies, he also took classes at Central South University. Currently, he is a Ph.D. student in Mechanical Engineering at the University of Wisconsin-Madison, where he is working under the guidance of Prof. Luca Mastropasqua. His doctoral research focuses on the development of proton-conducting ceramics for efficient hydrogen production and separation.

Experience

Zhuang’s research career includes various positions across prestigious institutions. From 2021 to 2023, he worked as a Research Assistant at the Guangdong Technion-Israel Institute of Technology, focusing on the modification of lithium metal anodes and cathodes for lithium-ion batteries. His earlier work at Fudan University involved metal-organic chemistry, where he synthesized ligands for nitrogen fixation and explored lithium-nitrogen battery applications. At the University of Wisconsin-Madison, Zhuang is currently involved in developing novel electrode-supported ceramic structures and scaling up cell structures for hydrogen production. His diverse research experiences have provided him with a deep understanding of electrochemical processes, materials characterization, and battery technology.

Research Interests

Zhuang’s research interests are centered on energy storage and conversion technologies, with a primary focus on lithium-ion batteries, solid-state electrolytes, and hydrogen production. His current work on proton-conducting ceramics aims to create high-efficiency, cost-effective solutions for hydrogen separation and electrochemical hydrogen production. Additionally, he has explored the synthesis of metal-organic frameworks and nanostructured materials for battery applications, addressing challenges in electrode design and interfacial stability. Zhuang is particularly interested in the development of novel thermodynamic and electrochemical cycles to enhance energy conversion efficiency.

Awards

Throughout his academic journey, Zhuang has earned numerous awards that recognize his research excellence and academic performance. He received a $2,000 Lump Sum Scholarship from the University of Wisconsin-Madison in 2023, and has been acknowledged as an outstanding graduate at Hunan Normal University. His research presentations have earned accolades, including the Excellent Poster Award at the 9th Graduate Forum of Wuhan University of Technology in 2019 and the Excellent Thesis Award at the 13th Graduate Forum in Hunan Province in 2020. Zhuang’s continuous dedication to his field is further highlighted by certificates from ACS Reviewer Lab and recognition as a reviewer for prominent journals.

Publications

Zhuang has contributed to numerous publications in high-impact journals, showcasing his research in electrochemical energy storage. Some notable publications include:

Z Zhuang, et al. “Plasma-activated tightly bonded uniform metal-organic framework on carbon cloth for stable Li metal anode.” Journal of Power Sources, 2024. Link (Cited by 109 articles)

D Gandla, Z Zhuang, et al. “Lewis acid molten salt method for 2D MXene synthesis and energy storage applications: A review.” Energy Storage Materials, 2023. Link (Cited by 75 articles)

V Jadhav, Z Zhuang, et al. “Tailoring Performance of the LiNi0.8Mn0.1Co0.1O2 Cathode by Al2O3 and MoO3 artificial CEI layers through plasma enhanced atomic layer deposition coating.” Dalton Transactions, 2023. Link (Cited by 56 articles)

Z Zhuang, et al. “Metal-Organic Framework Derived ZnO, N-Dually Doped Nanocages as an Efficient Host for Stable Li Metal Anodes.” ACS Applied Materials & Interfaces, 2023. Link (Cited by 67 articles)

Z Zhuang, et al. “Brittle star-like nanoweb modified carbon cloth synthesized by self-templated hollow ZIF-8 for ultra-stable Li metal anodes.” Materials Today Energy, 2022. Link (Cited by 45 articles)

P Ma, Z Zhuang, et al. “ZnO-CoO composite nano-sphere arrays modified carbon cloth for low voltage hysteresis Li metal anodes.” ACS Applied Energy Materials, 2022. Link (Cited by 39 articles)

Conclusion

Zilong Zhuang’s impressive research track record, coupled with his ongoing work on innovative energy storage technologies, makes him a strong candidate for the “Best Researcher Award.” His contributions to lithium battery technology and hydrogen energy demonstrate a commitment to advancing sustainable energy solutions. With a solid foundation in electrochemistry and materials science, and continuous pursuit of groundbreaking research, Zhuang stands out as a promising researcher with the potential to significantly impact the future of energy storage and conversion.