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

Krystyna Pyrzynska | Environmental Pollution and Remediation | Best Researcher Award

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Prof. Krystyna Pyrzynska | Environmental Pollution and Remediation | Best Researcher Award

Faculty of Chemistry | University of Warsaw | Poland

Prof. Krystyna Pyrzynska is a leading analytical chemist whose research has significantly advanced chromatographic science, environmental analytics, and the development of modern sorbent-based separation technologies. With 10,597 citations, 203 publications, and an h-index of 52, she is widely recognized for her influential contributions to metal ion speciation, phytochemical analysis, and sorbent innovation. Her work integrates fundamental analytical chemistry with applied environmental and food science, generating high-impact findings across multidisciplinary domains. Her research focuses on solid sorbents for metal preconcentration, including carbon nanostructures, porphyrin-based materials, nanomaterials for chromium remediation, and plant-extract-derived nanoparticles. She has extensively investigated metal speciation, especially in complex environmental matrices, contributing key methodologies for improved sensitivity, selectivity, and environmental monitoring reliability. Her publications in Molecules, Materials, Analytica Chimica Acta, Microchimica Acta, and Food Chemistry reflect sustained impact in top-tier journals. A prominent area of her work includes chromatographic analysis of phenolic compounds, polyphenols, and antioxidants, with substantial contributions to the extraction, quantification, and functional evaluation of phytochemicals in food and agricultural by-products. Recent studies on selenium-enriched tea, chlorogenic acids from coffee wastes, and ferulic acid extraction highlight her leadership in nutraceutical analytics and sustainable bioresource utilization. Her impactful reviews and research articles on selenium species, radioisotopes for theranostics, and environmental remediation demonstrate breadth in both environmental and biomedical analytical chemistry. She has produced influential works on photocatalytic degradation of pharmaceuticals, green synthesis of selenium nanoparticles, and advanced sorbent technologies, many of which have become highly cited references in the field. Prof. Krystyna Pyrzynska’s research portfolio also reflects strong collaborative practice, with over 56 co-authors, notable interdisciplinary partnerships, and contributions to international and domestic scientific networks. She frequently publishes open-access work, enhancing global accessibility to analytical chemistry advancements. Overall, Prof. Krystyna Pyrzynska stands as a leading figure in analytical and environmental chemistry, known for her innovations in separation techniques, sustainable extraction, metal ion analytics, and value-added utilization of natural bioresources.

Profiles: Scopus | ORCID | ResearchGate | Sci Profiles | Research.com | Academia | Scilit

Featured Publications

1. Pyrzyńska, K. (2020). Nanomaterials in speciation analysis of metals and metalloids. Talanta, 120784. https://doi.org/10.1016/j.talanta.2020.120784

2. Sentkowska, A., & Pyrzyńska, K. (2020). Selenium in plant foods: Speciation analysis, bioavailability, and factors affecting composition. Critical Reviews in Food Science and Nutrition. https://doi.org/10.1080/10408398.2020.1758027

3. Piwowarczyk, S., Sentkowska, A., & Pyrzyńska, K. (2020). Simultaneous determination of vitamin B6 and catechins in dietary supplements by ZIC-HILIC chromatography and their antioxidant interactions. European Food Research and Technology. https://doi.org/10.1007/s00217-020-03516-w

4. Sentkowska, A., & Pyrzyńska, K. (2019). Evaluation of the antioxidant interactions between green tea polyphenols and nonsteroidal anti-inflammatory drugs. Open Chemistry Journal, 6, 47–52. https://doi.org/10.2174/1874842201906010047

5. Dróżdż, P., & Pyrzyńska, K. (2019). Extracts from pine and oak barks: Phenolics, minerals and antioxidant potential. International Journal of Environmental Analytical Chemistry. https://doi.org/10.1080/03067319.2019.1668381