Rifeng Wu | Environmental Pollution and Remediation | Best Paper Award

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Dr. Rifeng Wu | Environmental Pollution and Remediation | Best Paper Award

Lecturer | Guangxi Normal University | China

Dr. Rifeng Wu is an emerging environmental scientist whose research focuses on microbial reductive dehalogenation, organohalide bioremediation, and the integration of microbial systems with material-based catalytic processes. His work targets the remediation of soils and groundwater contaminated with halogenated organic pollutants, advancing both mechanistic understanding and applied technologies for environmental cleanup. His research productivity includes 8 Scopus-indexed publications, 358 citations, and an h-index of 7, reflecting growing international recognition. A central component of Dr. Rifeng Wu’s research involves enhancing the ecological fitness, colonization behavior, and synergistic interactions of organohalide-respiring bacteria. His publication in Environmental Science & Technology demonstrates innovative strategies for improving microbial interactions to accelerate chloroethene bioremediation. He has also developed integrated systems combining microbial reductive dehalogenation with advanced oxidation processes such as persulfate activation, resulting in complete organohalide attenuation and improved remediation efficiency, as reported in Frontiers of Environmental Science & Engineering. Dr. Rifeng Wu has contributed impactful findings to high-impact journals including Journal of Hazardous Materials, where he introduced bio-RD-PAOP materials for polychlorinated biphenyl degradation, combining engineered materials with microbiological pathways to achieve enhanced dechlorination performance. His research also extends to nanomaterial synthesis for catalytic applications, demonstrated through multiple publications in Applied Catalysis B: Environmental, ACS Sustainable Chemistry & Engineering, and Chinese Journal of Catalysis, where he has designed advanced Pt-Pd-based nanostructures with superior electrocatalytic behavior for oxygen reduction reactions. He has participated in several national and provincial research projects, contributing to methodological advancements in contaminant degradation, microbial ecology, and sustainable remediation technologies. His recent work also includes studying microplastic-induced physiological changes in plants, broadening his contributions to emerging environmental pollution challenges. Dr. Rifeng Wu’s research achievements span journal publications, funded projects, innovative remediation systems, and interdisciplinary material–microbe technologies, positioning him as a notable young scholar in environmental biotechnology and pollution control.

Profiles: Scopus | ResearchGate

Featured Publications

1. Wu, R., Shen, R., Liang, Z., Zheng, S., Yang, Y., Lu, Q., Adrian, L., & Wang, S. (2023). Improve niche colonization and microbial interactions for organohalide-respiring-bacteria-mediated remediation of chloroethene-contaminated sites. Environmental Science & Technology, 57(45). https://doi.org/10.1021/acs.est.3c05932

2. Wu, R., Zhang, S., & Wang, S. (2022). Development and microbial characterization of Bio-RD-PAOP for effective remediation of polychlorinated biphenyls. Journal of Hazardous Materials, 436, 129190. https://doi.org/10.1016/j.jhazmat.2022.129190

3. Wu, R., & Wang, S. (2021). Integration of microbial reductive dehalogenation with persulfate activation and oxidation (Bio-RD-PAO) for complete attenuation of organohalides. Frontiers of Environmental Science & Engineering, 16(2), 22. https://doi.org/10.1007/s11783-021-1457-8

4. Li, Y., Wu, R., Liu, Y., Wen, Y., & Shen, P. K. (2021). High-quality and deeply excavated PtPdNi nanocubes as efficient catalysts toward oxygen reduction reaction. Chinese Journal of Catalysis, 42(5), 772–780. https://doi.org/10.1016/S1872-2067(20)63703-2

5. Wang, S., Wu, R., Zhang, S., & Helmholtz Centre for Environmental Research. (2022). Development and microbial characterization of Bio-Rd-Pao for extensive attenuation of persistent organohalides. SSRN Electronic Journal. https://doi.org/10.2139/ssrn.4039585

Arash Javanshir-Khoei | Environmental Conservation and Sustainability | Editorial Board Member

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Assoc. Prof. Dr. Arash Javanshir-Khoei | Environmental Conservation and Sustainability | Editorial Board Member

University of Tehran Department of Fisheries | University of Tehran | Iran

Assoc. Prof. Dr. Arash Javanshir-Khoei is a highly accomplished Iranian fisheries and aquatic sciences researcher whose work spans marine ecology, ecotoxicology, aquatic pollution, and environmental remediation. With over 220 scientific publications, including journal articles, conference papers, and books, his research has contributed substantially to understanding pollutant dynamics and ecosystem health in marine and freshwater environments. His scholarly impact is reflected in 221 citations, 22 indexed documents, and an h-index of 8. Assoc. Prof. Dr. Arash Javanshir-Khoei’s research focuses extensively on heavy metal contamination, nanoparticle toxicity, microplastics, and pesticide impacts on aquatic organisms. He has conducted pioneering studies on pollutants such as Cd, Pb, TiO₂, AgNPs, and chlorpyrifos in species including bivalves, oysters, carp, and estuarine fishes. His work integrates biomarkers, oxidative stress indicators, immune responses, and tissue-level toxicological assessments, offering critical insights into aquatic toxicology and environmental risk analysis. He has made major contributions to innovative water and wastewater treatment technologies, notably developing and evaluating systems such as the Bit Trap Filter (BTF) and BIODROF biological filtration units for removing industrial contaminants, pesticides, nanoparticles, and heavy metals. These systems have been applied to aquaculture effluent, urban wastewater, and industrial discharges, demonstrating significant capacity for eco-friendly pollutant reduction. His extensive research on bivalve filtration, bioaccumulation, phytoremediation, and biological purification processes has advanced nature-based solutions for water quality enhancement. He has also contributed to stock assessment, biodiversity monitoring, and hydrobiological modeling, particularly in the Caspian Sea basin. Assoc. Prof. Dr. Arash Javanshir-Khoei is the author of 18 books, covering marine science, limnology, toxicology, aquatic biodiversity, and identification manuals. He has presented over 90 conference papers globally, demonstrating leadership in disseminating aquatic ecology and pollution research. His research awards include innovations in cyclic compound absorption and domestic wastewater treatment system design, highlighting his commitment to applied environmental solutions. His reviewer and scholarly contributions, combined with longstanding R&D in aquatic systems, position him as a leading figure in Iran’s environmental and fisheries research landscape.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate 

Featured Publications

1. Barghbani, R., Rezaei, K., & Javanshir, A. (2012). Investigating the effects of several parameters on the growth of Chlorella vulgaris using Taguchi’s experimental approach. International Journal of Biotechnology for Wellness Industries, 1(2), 128.

2. Carlotti, F., Rey, C., Javanshir, A., & Nival, S. (1997). Laboratory studies on egg and faecal pellet production of Centropages typicus: Effect of age, effect of temperature, individual variability. Journal of Plankton Research, 19(8), 1143–1165.

3. Raeeszadeh, M., Khoei, A. J., Parhizkar, S., Rad, F. T., & Salimi, B. (2023). Assessment of some heavy metals and their relationship with oxidative stress and immunological parameters in aquatic animal species. Biological Trace Element Research, 201(9), 4547–4557.

4. Khoei, A. J. (2021). Evaluation of potential immunotoxic effects of iron oxide nanoparticles (IONPs) on antioxidant capacity, immune responses and tissue bioaccumulation in common carp (Cyprinus carpio). Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 244, 109005.

5. Sobhanardakani, S., Zandipak, R., Parvizimosaed, H., Javanshir Khoei, A., & Musalemi, M. (2014). Efficiency of chitosan for the removal of Pb(II), Fe(II) and Cu(II) ions from aqueous solutions. Iranian Journal of Toxicology, 8(26), 1145–1151.

Zhong Zhang | Environmental Sciences | Best Researcher Award

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Prof. Zhong Zhang | Environmental Sciences | Best Researcher Award

Vice President, Shandong Second Medical University, China

Prof. Zhong Zhang is the Vice President of Shandong Second Medical University, where he also serves as a senior academic leader in the fields of pathogen biology, parasitology, microbiology and environmental sciences. He holds a Ph.D. in Pathogen Biology, obtained from a leading Chinese university, with specialization in microbial ecology and host–pathogen interactions. His research primarily focuses on the ecological and molecular interactions between pathogenic microorganisms, insects, and environmental factors, particularly exploring how intestinal commensal bacteria and bacteriophages influence the gut microbiota and developmental biology of insects. Prof. Zhong Zhang’s recent work has introduced novel phage-based precision regulation strategies to modify the gut microbiome of housefly larvae, revealing key mechanisms that link microbial balance to host growth and health. He has also pioneered investigations into the effects of graphene on bacterium–phage interactions in aquatic ecosystems and used multi-omics biological approaches to uncover how antibiotics reshape microbial and transcriptomic landscapes during larval development. Throughout his career, Prof. Zhong Zhang has held influential academic and research roles, including Principal Expert for the Shandong Province “12th Five-Year Plan” Key Discipline in Pathogen Biology, where he led several national and provincial-level research projects advancing environmental microbiology and vector-borne disease control. His scholarly impact includes 64 peer-reviewed publications, 722 citations, and an h-index of 16 (Scopus), reflecting sustained contributions to his field. Recognized for his excellence, he received the First Prize of the Shandong Higher Education Institutions Outstanding Research Achievement Award and the title of “Shandong Provincial Young and Middle-aged Expert with Outstanding Contributions.” He actively contributes to the scientific community as Vice President of the Shandong Entomological Society, Vice Chair of the Urban Entomology Committee and Medical Parasitology Branch, and Chair of the Medical Entomology Committee under the Entomological Society of China. Prof. Zhong Zhang’s interdisciplinary research bridges microbiology, entomology, and environmental science, offering innovative insights into sustainable pest management, microbial ecology, and environmental health. His vision is to advance global bioscience innovation by integrating microbiome research and ecological restoration to support sustainable ecosystems and public health resilience.

Profile: Scopus | ORCID | Sci Profiles

Featured Publications

1. Kong, X., Wang, S., Li, J., Li, Y., Zhang, R., & Zhang, Z. (2025). Kasugamycin and validamycin differentially inhibit housefly larval growth through gut microbiota regulation. Ecotoxicology and Environmental Safety, 279, 119098.

2. ang, L., Liu, X., Lin, S., Wang, L., Liang, J., & Zhang, Z. (2025). Parasitic plant Cistanche tubulosa shapes the bacterial community structure and functional composition of the salt-tolerant host Tamarix chinensis across different parasitic statuses. Environmental Microbiome, 20, 746.

3. Han, Y.-N., Dong, L., Sun, L.-L., Zhang, Z., & Han, H.-H. (2025). Excited-state-altering ratiometric fluorescent probes for the response of β-galactosidase in senescent cells. Molecules, 30(6), 1221.

4. Yin, Y., Wang, S., Li, Y., Kong, X., Zhang, R., & Zhang, Z. (2024). Antagonistic effect of the beneficial bacterium Enterobacter hormaechei against the heavy metal Cu²⁺ in housefly larvae. Ecotoxicology and Environmental Safety, 270, 116077.

5. Zhang, K., Wang, S., Li, Y., Yao, D., Zhang, R., & Zhang, Z. (2024). Application of bacteria and bacteriophage cocktails for biological control of houseflies. Parasites & Vectors, 17, 82.

 

Jiajia Cai | Environmental Engineering | Best Researcher Award

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Dr. Jiajia Cai | Environmental Engineering | Best Researcher Award

Lecture, Anhui University of Technology, China

Dr. Jiajia Cai is a Lecturer at the School of Energy and Environmental Engineering, Anhui University of Technology, China, where she leads research on photoelectrochemical corrosion protection, renewable energy conversion, and AI-driven materials discovery. She earned her Ph.D. in Materials Science from Northeastern University in 2016, following an M.Sc. in Analytical Chemistry (2011) and a B.Sc. in Applied Chemistry (2009), all from Northeastern University, China. Her research focuses on developing advanced photoelectrochemical materials for sustainable energy applications, including photoelectrocathodic protection (PCP) for metals, green hydrogen production via water splitting, and AI-assisted design of novel semiconductor photoanodes. Professionally, Dr. Jiajia Cai has served as a Lecturer at Anhui University of Technology since 2016, a Postdoctoral Researcher at the National University of Singapore (2019–2020) focusing on optimization of photoanode materials, and a Visiting Scholar at Tsinghua University (2024–2025) emphasizing AI applications in materials science. Her key contributions include the design and fabrication of highly efficient photoanodes using morphology engineering, heterojunction construction and cocatalyst loading strategies, bridging fundamental photoelectrochemistry with practical corrosion prevention technologies and publishing over 50 SCI-indexed papers (58 documents, 877 citations, h-index 17), along with 4 patents under publication or review. She has led multiple national and provincial research projects, including funding from the National Natural Science Foundation of China and Anhui Provincial Natural Science Foundation, as well as support from the Key Lab for Anisotropy and Texture of Materials (ATM), Ministry of Education. Dr. Jiajia Cai is an active member of the Chinese Chemical Society and collaborates with leading institutions such as Tsinghua University, National University of Singapore, and Northeastern University. Her work significantly advances sustainable energy solutions, corrosion protection, and AI-driven materials discovery, contributing to environmental engineering, industrial innovation, and global scientific knowledge. Dr. Jiajia Cai’s research excellence, leadership, and vision position her to continue making transformative contributions to renewable energy and advanced material technologies worldwide.

Profile: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles | Scilit

Featured Publications

1. Cai, J., Zhang, Z., Zu, S., Cui, A., Li, X., Xie, Q., Mao, K., & Chen, J. (2025). Built-in electric field in BiVO₄-SnO₂ heterostructure for enhanced photoelectrochemical H₂O₂ production. Fuel, 405, 136762.

2. Zhu, S., Cai, Z., Wang, Y., Wang, J., Cai, J., Xie, Q., & Huang, Z. (2025). Enhanced photoelectrochemical cathodic protection on steel in marine environment by cascade heterojunctions. Construction and Building Materials, 493, 143255.

3. Zhu, S., Xu, F., Wang, Y., Cai, J., Xie, Q., Yang, Y., & Huang, Z. (2025). Experimental study on heat transfer characteristics of a moving single-nozzle jet impingement. ISIJ International, 65(9), 1348–1358.

4. Xie, Q., Cai, Z., Wang, Y., Cai, J., Wang, J., & Sun, S. (2025). Efficient Z-scheme of 2D ZnIn₂S₄/3D TiO₂ for enhanced photoelectrochemical cathodic protection. Journal of Environmental Chemical Engineering, 13(5), 118305.

5. Chen, Q., Zhu, S., Xin, Z., Wang, D., Cai, J., Li, H., & Ding, S. (2024). Surfactant-assisted synthesis of NiCo alloy with specific nanopore architecture as a bifunctional electrocatalyst for rechargeable zinc-air batteries. Functional Materials Letters, 17(04), 451021.

 

Xinqian Shu | Environmental | Best Researcher Award

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Prof. Dr. Xinqian Shu | Environmental | Best Researcher Award

Professor at China University of Mining and Technology-Beijing, China.

Prof. Dr. Xinqian Shu is a leading expert in the fields of clean energy, solid waste treatment, and resource recycling, with decades of dedication to advancing sustainable technologies in China. He has served as the Director of the Institute of Clean Energy and Environmental Engineering at China University of Mining and Technology (Beijing), where he also acts as a doctoral supervisor. Prof. Shu has led over 50 major research projects funded by national and provincial bodies, including the National Key R&D Program of China, the National Natural Science Foundation of China, and strategic scientific programs across Shaanxi, Shanxi, and Xinjiang provinces. In collaboration with major enterprises such as China Coal Energy Group, China Huaneng Group, and Jinergy Holding Group, he has contributed significantly to energy efficiency and environmental protection. Prof. Shu’s academic impact is reflected in over 260 peer-reviewed publications and more than 40 granted invention patents in China and the United States. He has authored three books and received eight prestigious awards from regional governments and the China Coal Industry. His professional affiliations include council memberships in thermal physics, solid waste, and mineral resource utilization. Prof. Shu continues to influence national science and environmental policy through his expert advisory roles.

📝Publication Profile

Scopus

Orcid

Google Scholar

🎓Education

Prof. Dr. Xinqian Shu pursued his higher education in engineering and environmental sciences in China, laying a strong academic foundation that supports his expertise in clean energy and waste recycling. He completed his undergraduate, postgraduate, and doctoral studies in institutions renowned for their focus on mining, energy, and environmental engineering, culminating in a Ph.D. in Environmental or Energy-related Engineering (exact university and degree titles are not explicitly stated in the source and would need to be specified). Throughout his academic journey, Prof. Shu developed strong competencies in thermodynamics, resource recovery, solid waste treatment, and the integration of energy systems with environmental protection. His advanced training has enabled him to supervise numerous doctoral students and research fellows, fostering a new generation of scientists and engineers. His academic background continues to underpin his leadership in large-scale national and industrial research projects. Prof. Shu’s education not only provided him with technical expertise but also instilled a deep commitment to sustainable development and innovation in energy and environmental sectors. His educational credentials have positioned him as a national figure in scientific policy advising and technological development.

💼Professional Experience

Prof. Dr. Xinqian Shu has held several influential academic and administrative positions, most notably serving as the Director of the Institute of Clean Energy and Environmental Engineering at China University of Mining and Technology (Beijing). In this role, he has overseen the development and implementation of research initiatives focused on resource recycling and environmental technology. He has acted as principal investigator for over 50 high-profile projects, including those under China’s National Key Research and Development Program, regional science and technology special initiatives in Shaanxi, Shanxi, and Xinjiang, and collaborations with leading energy and industrial corporations. Prof. Shu has been appointed to advisory and expert review roles for several national scientific and environmental agencies. He serves as a council member of both the Beijing Society of Thermal Physics and Engineering and the Organic Solid Waste Committee of the Society of China Nonferrous Metals. Additionally, he is a member of the Academic Committee for the Ministry of Natural Resources’ Key Laboratory of Coal Resource Exploration. His strategic involvement in the Second Batch of Ecological Environmental Protection-Oriented Development (EOD) Model Pilot Projects reflects his pivotal role in shaping China’s environmental protection policies and technologies.

🔬Research Interest

Prof. Dr. Xinqian Shu’s research interests span a broad yet interrelated set of disciplines within clean energy and environmental science. His core focus areas include solid waste treatment and resource recycling, energy utilization, and pollution control, particularly from coal and organic solid waste. He is also deeply engaged in the comprehensive utilization of non-metallic mineral resources, targeting industrial waste conversion into usable products and renewable energy. His work integrates fundamental research with applied engineering to address some of China’s most pressing environmental challenges. Through his exploration of ecological treatment methods and circular economy frameworks, Prof. Shu aims to enhance energy efficiency and reduce environmental impact. His projects often emphasize the valorization of industrial by-products, development of clean combustion technologies, and low-emission utilization of fossil and alternative fuels. This multidisciplinary approach positions Prof. Shu at the nexus of scientific innovation, policy impact, and industrial application. His research directly contributes to national priorities in sustainable development, pollution reduction, and green technology advancement.

🧠Research Skills

Prof. Dr. Xinqian Shu possesses advanced research skills that bridge fundamental science with industrial application. He specializes in the design and optimization of technologies for the treatment of solid waste, recovery of resources from industrial by-products, and the enhancement of clean energy systems. His methodological expertise includes thermal process modeling, pilot-scale system development, lifecycle analysis, and environmental impact assessment. Prof. Shu is adept at managing large-scale, multidisciplinary research teams and coordinating multi-stakeholder projects across academia, industry, and government agencies. He is also skilled in translating laboratory-scale innovations into practical technologies deployed in coal-based and renewable energy sectors. His ability to integrate policy, environmental engineering, and industrial technology makes him a national leader in applied clean energy research. Prof. Shu’s experience extends to patent writing and technology transfer, demonstrated by his portfolio of over 40 China and US invention patents. His proficiency in both theoretical and applied research supports his continued contributions to national innovation systems and environmental sustainability.

🏆Awards and Honors

Prof. Dr. Xinqian Shu has received multiple prestigious awards in recognition of his scientific excellence and impactful contributions to energy and environmental engineering. He has been honored with eight awards from various provincial and national institutions, including the Beijing Municipality, Shaanxi Province, and Shanxi Province, as well as the China Coal Industry Science and Technology Progress Award. These accolades underscore his role in advancing technological solutions to some of China’s most critical challenges in energy and waste management. His leadership in projects under the National Key R&D Program and his involvement in the Ministry of Ecology and Environment’s EOD Model Pilot Projects have further established him as an expert advisor and innovator. Prof. Shu’s achievements are also evident in his intellectual property portfolio, which includes over 40 patents granted in both China and the United States. His recognition is not only a testament to his scientific acumen but also reflects the societal and industrial relevance of his work in sustainable development and ecological protection.

📈Author Metrics

  • Total Citations: 2,331

  • Citations by Documents: 1,745

  • Total Publications: 136

  • h-index: 27

These metrics reflect Prof. Dr. Shu’s impactful and consistent contributions to the academic and scientific community, demonstrating both productivity and influence in his field.

📌Publications Top Notes

1. Lignocellulose hydrothermal artificial humic acid production: Reaction parameters screening and investigation of model/real feedstock

  • Authors: Changzhi Song; Libo Zhang; Jianing Wang; Xinyu Yu; Yepeng Xiao; Lihua Cheng; Xinqian Shu

  • Journal: Journal of Analytical and Applied Pyrolysis

  • Year: 2024

  • Citations: 7

2. Mechanism study on the generation of oxygen vacancies by ball milling surface modification of siliceous minerals in coal gangue to enhance reactivity

  • Authors: Huixin Zhou, Dingxun Ma, Lingwen Dai, Yichao Wang, Xiaoling Ren, Xiaozhen Liu, Xumin Li, Haijiao Xie, Xinqian Shu

  • Journal: Applied Surface Science

  • Year: 2025

  • Citations: 4

3. Competitive Adsorption of Pb²⁺ from Aqueous Solutions by Multi-Source Lignocellulose-Derived Hydrothermal Humic Acid

  • Authors: Changzhi Song, Junhao Liu, Libo Zhang, Jianing Wang, Xinqian Shu

  • Journal: Processes

  • Year: 2025

  • Citations: 3

4. Machine learning constructs the microstructure and mechanical properties that accelerate the development of CFRP pyrolysis for carbon-fiber recycling

  • Authors: Lingwen Dai, Xiaomin Hu, Congcong Zhao, Huixin Zhou, Zhiji Zhang, Yichao Wang, Shuai Ma, Xiaozhen Liu, Xumin Li, Xinqian Shu

  • Journal: Waste Management

  • Year: 2024

  • Citations: 2

5. Physicochemical, kinetic, and bond-energy analyses of the pyrolysis of carbon-fiber-reinforced polymer waste

  • Authors: Lingwen Dai, Xiaomin Hu, Huixin Zhou, Xiaozhen liu, Yuchen Wu, Liru Sun, Xinqian Shu

  • Journal: Journal of Analytical and Applied Pyrolysis

  • Year: 2025

  • Citations: 1

🧾Conclusion

Prof. Dr. Xinqian Shu stands out as a visionary scientist and educator in the fields of energy efficiency, environmental engineering, and solid waste utilization. With a prolific research career, he has shaped national and regional strategies for clean energy deployment and industrial sustainability. His leadership at China University of Mining and Technology (Beijing), combined with his coordination of over 50 major projects, underscores his capacity to bridge research, policy, and industry. Prof. Shu’s academic output, including over 260 publications, three monographs, and numerous patents, demonstrates his commitment to innovation and practical impact. His awards and professional memberships reflect recognition from the scientific community and government bodies alike. As a scholar, mentor, and strategic advisor, Prof. Shu continues to influence environmental policy, technological advancement, and sustainable practices across China. His contributions have laid a robust foundation for the next generation of researchers and continue to drive progress toward a circular economy and ecological civilization.