Zhiming Mi | Environmental Biotechnology | Best Researcher Award

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Dr. Zhiming Mi | Environmental Biotechnology | Best Researcher Award

Lecturer at East China University of Technology | China

Dr. Zhiming Mi is a lecturer and accomplished researcher in applied chemistry whose expertise lies in the field of functional polymer membranes and specialized polymers. He has established himself as a promising academic and a dedicated innovator, contributing to both theoretical understanding and industrial application of polymer-based materials. With a focus on interdisciplinary research that spans chemistry, materials science, and environmental applications, his work combines innovation, sustainability, and technological progress. His career demonstrates a strong balance between academic research, practical problem-solving, and student mentorship.

Profile

Orcid

Education

Dr. Zhiming Mi earned his doctorate in applied chemistry, where he built a strong foundation in polymer synthesis, advanced membrane design, and material characterization. His academic journey provided him with extensive training in both experimental and applied research, preparing him for contributions to nuclear materials, environmental remediation, and high-performance polymers. His educational background not only enriched his technical expertise but also shaped his perspective as a mentor and educator, guiding students toward innovative approaches in chemistry and material science.

Experience

As a faculty member at Donghua University of Technology, Dr. Zhiming Mi has cultivated a career that integrates teaching, research, and industry collaboration. He has hosted multiple projects involving school–enterprise cooperation as well as scientific foundation projects supported by provincial science and technology departments. His experience extends beyond academia through the successful development of nationally authorized invention patents and collaborative partnerships with industry, bridging the gap between laboratory research and practical applications. By supervising master’s students and leading innovative projects, he has created a strong academic presence while addressing real-world industrial and environmental challenges.

Research Interest

The research interests of Dr. Zhiming Mi focus on the application of functional polymer membranes in the enrichment and separation of radioactive isotopes, alongside the synthesis and use of specialized polymers. His work emphasizes the development of advanced materials for high-frequency communication substrates and ultra-high-strength 3D printing resins, reflecting a dual focus on environmental safety and technological advancement. By targeting problems such as uranium recovery from wastewater and seawater, efficient water purification, and sustainable energy applications, his research aligns with global priorities for clean energy, safe environments, and next-generation materials. His approach integrates chemical innovation with engineering applications, ensuring that his work addresses both scientific discovery and practical implementation.

Award

Dr. Zhiming Mi has been recognized with multiple awards in innovation and entrepreneurship competitions, underscoring his ability to translate complex scientific concepts into impactful solutions. His achievements are complemented by numerous authorized invention patents, which reflect his commitment to creating novel functional materials and advancing polymer membrane technology. These honors not only highlight his academic productivity but also affirm his role as an innovator contributing meaningful advances to applied chemistry and related industries.

Publication Top Notes

Title: Preparation of high-permeance polyester nanofiltration membranes utilizing biobased phloretin derivatives for antibiotic separation
Year: 2025

Title: UV-assisted fabrication of crosslinked polyacrylic acid membranes embedding phytic acid moiety for efficient uranium enrichment
Year: 2025

Title: Novel robust hierarchical porous membrane for uranium enrichment: fabrication, degradation behavior, and uranium sorption performance
Year: 2024

Title: Facile fabrication of a modified polyamide acid porous membrane for uranium enrichment in wastewater
Year: 2023

Title: Quaternary ammonium salts modification preparing charged Janus nanofiltration membrane for the simultaneous separation of divalent anions and cations
Year: 2023

Title: Polyamidoxime grafting on ultrahigh-strength cellulose-based jute fabrics for effectively extracting uranium from seawater
Year: 2022

Title: Polyamidoxime grafting on ultrahigh-strength cellulose-based jute fabrics for effectively extracting uranium from seawater
Year: 2021

Conclusion

In conclusion, Dr. Zhiming Mi is an academic who has successfully combined research, innovation, and education to build a meaningful career in applied chemistry. His expertise in polymer membranes and functional materials addresses critical global challenges while advancing the scientific community’s understanding of sustainable energy and environmental protection. With a strong record of publications, patents, awards, and collaborative projects, he continues to influence the development of high-performance polymers and their practical applications. As both a mentor and innovator, his work demonstrates the profound impact that dedicated research can have on science, technology, and society.

Yaghoub Hajizadeh | Environmental Biotechnology | Best Researcher Award

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Prof. Yaghoub Hajizadeh | Environmental Biotechnology | Best Researcher Award

Professor at Tabriz University of Medical Sciences | Iran

Prof. Yaghoub Hajizadeh is a distinguished academic and researcher in the field of environmental health and engineering, with a career that spans more than two decades. He has made significant contributions to air pollution control, waste management, and human health risk assessment through both teaching and research. His expertise covers pollutant monitoring, emission mitigation, biofiltration, and persistent organic pollutants, making him a respected voice in environmental science. Throughout his career, Prof. Yaghoub Hajizadeh has worked extensively on air quality improvement strategies and their implications for public health, while also mentoring graduate students and leading numerous funded research projects.

Profile

Scopus | Google scholar

Education

Prof. Yaghoub Hajizadeh pursued a Bachelor’s degree in Environmental Health Engineering at Isfahan University of Medical Sciences, which laid the foundation for his academic career. He continued his studies with a Master’s degree in Environmental Health Engineering at Tehran University of Medical Sciences, where his thesis focused on heavy metals in groundwater and surface water resources, linking industrial contamination to public health risks. He later advanced his expertise by completing a Ph.D. in Environmental Engineering at the University of Leeds, UK. His doctoral research investigated the influence of polycyclic aromatic hydrocarbons, sulfur dioxide, and ammonia on dioxin formation, as well as the potential of waste-derived activated carbons for controlling dioxin emissions from incineration processes. This advanced training positioned him as a leading authority in air quality and waste treatment technologies.

Experience

Prof. Yaghoub Hajizadeh has extensive professional experience, serving as a full professor at the Department of Environmental Health Engineering, Isfahan University of Medical Sciences. Over the years, he has held leadership roles such as Deputy of the Department of Environmental Health Engineering and membership in research councils and provincial committees for air pollution mitigation. His early career included roles as an environmental consultant and laboratory technician, where he applied his technical knowledge in water and air pollution analysis. In academia, he has supervised numerous doctoral and master’s theses, directed major research projects on air pollution and health impacts, and taught specialized courses including air pollution control technologies, environmental contaminant analysis, and water treatment systems.

Research Interest

Prof. Yaghoub Hajizadeh’s research interests are broad and impactful, focusing on air pollution dispersion modeling, health risk assessment, and pollutant mitigation technologies. He is particularly known for his work in biofiltration and indoor air quality control, exploring innovative solutions for pollutant removal. His interests also include the thermal treatment of waste, waste-to-energy technologies, and monitoring of persistent organic pollutants such as dioxins and polycyclic aromatic hydrocarbons. Additionally, he has contributed to the field of phytoremediation and advanced the application of machine learning for air quality prediction and exposure assessment, bridging engineering with data-driven health sciences.

Award

Prof. Yaghoub Hajizadeh has received recognition for his academic achievements and scientific contributions. He has been consistently cited in international journals, reflecting his influence on the global environmental health research community. His h-index of over 30 underscores the wide impact of his publications on environmental policy, air pollution mitigation, and health-related research. Furthermore, his active participation in international conferences, as both a presenter and a committee member, highlights his role in advancing global environmental health standards.

Publication Top Notes

Prof. Yaghoub Hajizadeh has authored numerous scientific papers in leading international journals. Selected examples include:

Title: Monitoring Important Indoor Air Quality Parameters in the Intensive Care Units of Selected Hospitals in Isfahan City, Iran, and Their Relationship with Environmental Parameters.
Year: 2025

Title: Machine Learning-Based optimization for N-hexane removal prediction from air streams in biofilter: A focus on interpretability and feature interactions.
Year: 2025

Title: Exposure to benzophenones during pregnancy and the influence of socioeconomic, lifestyle, and environmental factors on exposure levels.
Year: 2025

Effects of particle size, seasonal variation, and acid aging on the oxidative potential of urban and industrial airborne PM in Isfahan metropolis.
Year: 2025

Accumulation of heavy metals in the leaves of different tree species and its association with the levels of atmospheric PM2.5-bond heavy metals in Isfahan.
Year: 2025

Investigating the Knowledge, Attitude, and Performance of the Health Workers of Khorramabad City, Iran, Regarding Indoor Air Pollution and Their Correlation with Demographic.
Year: 2025

Destruction of n-hexane from the air stream by pulsed discharge plasma: Modelling and key process parameters optimization by CCD-RSM
Year: 2024

Conclusion

In conclusion, Prof. Yaghoub Hajizadeh stands out as a leading environmental health scientist whose contributions span research, teaching, and policy advisory roles. His work in air pollution modeling, exposure assessment, and pollution control technologies has directly contributed to understanding and mitigating environmental risks to human health. Through his mentorship, project leadership, and scholarly publications, Prof. Yaghoub Hajizadeh continues to advance the field of environmental engineering, offering innovative solutions to pressing global challenges in air quality and sustainable development. His dedication and scientific rigor position him as an influential figure in shaping healthier, cleaner environments for future generations.

Huihui Chen | Environmental Biotechnology | Best Researcher Award

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Huihui Chen | Environmental Biotechnology | Best Researcher Award

Associate Professor at Shanghai University | China

Ms. Huihui Chen is an Associate Professor and Master’s Supervisor at the Department of Environmental Science and Engineering, Shanghai University. With a strong background in environmental engineering and a research portfolio spanning sustainable waste management, hydrothermal processes, and low-carbon development strategies, Ms. Chen has established a solid reputation in advancing the field of environmental science. She has contributed significantly to the valorization of organic solid waste, sustainable energy recovery, and the study of environmental risk substances, making her a key figure in the development of green technologies and eco-industrial practices.

Profile

Scopus

Education

Ms. Huihui Chen received her Bachelor’s and Master’s degrees in Environmental Engineering from Kunming University of Science and Technology, where she was directly admitted into the master’s program due to her academic excellence. She then pursued her doctoral studies at Fudan University, earning a Ph.D. in Environmental Engineering. Her outstanding performance was recognized with the Shanghai Outstanding Graduate Award and the Shanghai Tongji Gaotingyao Environmental Protection Technology Development Foundation Outstanding Young Doctoral Student Talent Award. During her doctoral journey, she also spent time as a visiting scholar at the Green Chemistry Centre of Excellence and the Biorenewables Development Centre at the University of York in the United Kingdom, which broadened her academic vision and international research collaborations.

Experience

Ms. Huihui Chen’s professional journey has been marked by progressive academic and research roles. Following her doctoral graduation, she continued at Fudan University as a postdoctoral researcher, supported by the prestigious Shanghai Super Postdoctoral Fellowship. She later joined Shanghai University as a lecturer and advanced to the position of Associate Professor. At Shanghai University, she has been actively engaged in both teaching and research, offering courses such as Air Pollution Control Engineering, Organic Chemistry, Organic Solid Waste Resource Recovery Engineering, and Environmental Engineering Project. Beyond her teaching contributions, Ms. Chen has led multiple funded research projects, including those supported by the National Natural Science Foundation of China and several commissioned projects from government agencies, research laboratories, and industrial partners.

Research Interest

Ms. Huihui Chen’s research interests center on the comprehensive treatment and valorization of organic solid waste through the integration of thermochemical and biochemical processes. Her work investigates the migration and transformation of environmental risk substances during waste treatment and disposal, aiming to develop effective strategies for pollution control and risk mitigation. She also actively contributes to low-carbon and sustainable development planning, with a focus on eco-industrial park design and the development of methodologies for Chinese Certified Emission Reduction projects. Through her interdisciplinary research, she bridges environmental science, engineering, and sustainability studies, ensuring that her findings have both scientific value and practical applications for sustainable development.

Awards

Throughout her academic career, Ms. Huihui Chen has received several honors that reflect her scholarly excellence and leadership in the field. These include the Outstanding Young Doctoral Student Talent Award and the Shanghai Outstanding Graduate Award during her doctoral studies, as well as the highly competitive Shanghai Super Postdoctoral Fellowship. Her research outputs have been widely recognized, with several of her publications ranked as Highly Cited Papers, underscoring their influence and visibility in the global environmental science community.

Publications Top Notes

Ms. Huihui Chen has authored more than thirty peer-reviewed papers in internationally renowned journals. Selected publications include:

Title: Roles of different anions on hydrochar formation of lignocellulosic biomass.
Year: 2025

Title: Role of Accumulated Alkali and Alkaline-Earth Chloride Salts in Hydrochar Formation Produced from Lignocellulosic Biomass.
Year: 2023

Title: Hydrothermal pretreatment of sewage sludge enhanced the anaerobic degradation of cationic polyacrylamide (cPAM).
Year: 2021

Title: Mesophilic and thermophilic anaerobic digestion of aqueous phase generated from hydrothermal liquefaction of cornstalk: Molecular and metabolic insights.
Year: 2020

Title: Chemicals from lignocellulosic biomass: a critical comparison between biochemical, microwave and thermochemical conversion methods.
Year: 2020

Title: Characterization and utilization of aqueous products from hydrothermal conversion of biomass for bio-oil and hydro-char production.
Year: 2019

Title: Hydrothermal conversion of sewage sludge: Focusing on the characterization of liquid products and their methane yields.
Year: 2019

Conclusion

In summary, Ms. Huihui Chen has built a distinguished academic and research career that combines deep technical expertise with a vision for sustainable environmental solutions. Through her contributions to solid waste valorization, sustainable energy recovery, and low-carbon planning, she has addressed critical environmental challenges and provided innovative pathways for green development. Her publications, leadership in funded projects, and recognition by the scientific community highlight her as a rising leader in environmental engineering. With her ongoing research and commitment to education, Ms. Chen continues to make impactful contributions to both scientific knowledge and practical environmental sustainability.