Research Assistant at Zhejiang Gongshang University, China
Xin Zhang is a dedicated environmental scientist and engineer whose work centers on sustainable nutrient recovery, waste valorization, and advanced electrochemical treatment methods. With a career that bridges China and the United States, she combines strong academic training with practical experience in both research institutions and industry. Her achievements span innovative phosphorus recovery techniques, development of catalytic materials, and applications in anaerobic digestion and biochar technologies. Her strong interdisciplinary background and focus on practical environmental challenges make her an exemplary candidate for recognition in the field of sustainable environmental engineering.
Profile
Scopus
EDUCATION
Dr. Xin Zhang received her Ph.D. in Bioproducts and Biosystems Science Engineering and Management from the University of Minnesota in September 2018, where she specialized in phosphorus removal and recovery from animal manure using electrocoagulation. Her doctoral research provided innovative insights into nutrient management and agricultural sustainability. She earned her B.S. in Bioengineering from Beijing University of Chemical Technology in June 2014, completing a thesis on superabsorbent hydrogel materials. Her educational trajectory highlights a consistent dedication to merging biochemical and environmental technologies for real-world impact.
EXPERIENCE
Xin Zhang currently serves as a Research Assistant at Zhejiang Gongshang University in the School of Environmental Science and Engineering, a position she has held since August 2022. She previously completed a postdoctoral fellowship at Zhejiang University from 2019 to 2022, focusing on bioresource engineering and anaerobic digestion. Earlier, she worked at the Cargill R&D Center in the United States (2018–2019), where she participated in industrial research projects involving manure treatment and phosphorus recovery. Her experience includes collaborations on government-funded and industry-sponsored research, spanning various roles from laboratory innovation to engineering demonstration.
RESEARCH INTEREST
Dr. Zhang’s research revolves around nutrient recovery, phosphorus solubilization by microorganisms, development of electrochemical treatment technologies, and enhancement of anaerobic digestion using hydrochar. She has led and participated in numerous research projects, including those funded by the National Natural Science Foundation of China and provincial innovation centers. Her recent investigations explore the synthesis and modification of metal-doped hydrochar, organic acid mechanisms in phosphorus solubilization, and sulfide oxidation using electrochemical methods. Her work reflects a consistent focus on translating environmental challenges into scientifically sound, technologically feasible solutions.
AWARD
Xin Zhang has received numerous prestigious accolades throughout her academic and professional career. She was awarded the Second Award for Science and Technology by the China Association of Urban Environmental Sanitation in December 2024. In 2016, she was the runner-up in the Dow Sustainability Innovation Student Challenge Award and was honored for her outstanding oral presentation at the Annual International Meeting in Orlando, ranking among the top four of 90 presenters. Notably, she won the Nutrient Recycling Challenge organized by the U.S. EPA, placing in the top four out of 75 participants for her proposal on nutrient-concentrated biosolids.
PUBLICATION
Xin Zhang has published a range of influential peer-reviewed articles. Among them:
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Chemical Engineering Journal (2022): “Effective anodic sulfide removal catalyzed by single nickel atoms on nitrogen-doped graphene,” cited by numerous studies in catalyst design.
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Biosystems Engineering (2022): “A pilot-scale study of electrocoagulation on phosphorus removal,” recognized for bridging lab-scale results to industry application.
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Applied Surface Science (2023): “Enhanced electro-activity of nickel phosphide by pre-treatment,” advancing H₂S removal technologies.
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Rhizosphere (2023): “Screening of phosphorus solubilizing fungi,” which supports bio-based phosphorus management in agriculture.
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Inorganic Chemistry (2024): “Synthesis of hydrogen peroxide in neutral media by iron-doped nickel phosphide,” extending her work into green catalysis.
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Separation and Purification Technology (2018): “Electrocoagulation effects on phosphorus and settling from swine manure.”
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Journal of Environmental Engineering (2020): “Electrocoagulation of dairy manure using low-carbon steel electrodes for phosphorus removal.”
These publications have garnered substantial citations, attesting to their scientific and practical value.=
CONCLUSION
Given Xin Zhang’s outstanding academic background, extensive research portfolio, leadership in funded projects, high-quality publications, patent contributions, and multiple prestigious honors, he is highly deserving of the Best Researcher Award. His work not only advances scientific knowledge but also offers tangible solutions to environmental sustainability, fulfilling the highest standards of excellence in research