Jonghoek Kim | Environmental Engineering | Research Excellence Award

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Prof. Jonghoek Kim | Environmental Engineering | Research Excellence Award

Professor | Sejong University | South Korea

Prof. Jonghoek Kim is an established researcher in robotics, autonomous systems, and intelligent sensing, with extensive contributions to robot path planning, target tracking, multi-agent systems, and optimal control. His research addresses complex environments such as underwater, aerial, and obstacle-rich domains, emphasizing robust localization, estimation, and cooperative control under uncertainty and non-line-of-sight conditions. A significant portion of his work focuses on sonar-based sensing, autonomous underwater vehicles, and distributed robotic networks, advancing both theoretical frameworks and practical algorithms. His publications span leading journals in robotics, control systems, signal processing, and marine engineering, reflecting sustained research productivity and interdisciplinary impact. Current research efforts include target tracking in challenging environments using sensor networks and maximum-range information. Through a combination of analytical modeling, algorithm development, and system-level validation, his work contributes to the advancement of resilient autonomous systems applicable to robotics, marine exploration, and intelligent transportation systems.

Citation Metrics (Scopus)

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Citations
989

Documents 124

h-index
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Top 5 Featured Publications

Damao Xu | Environmental Science and Engineering | Research Excellence Award

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Assoc. Prof. Dr. Damao Xu | Environmental Science and Engineering | Research Excellence Award

Deputy director | China University of Mining and Technology | China

Assoc. Prof. Dr. Damao Xu is an active researcher in the field of environmental and earth sciences, with a strong emphasis on soil and groundwater pollution, contaminant migration, and sustainable remediation technologies. The research portfolio centers on understanding the geochemical behaviors, environmental availability, and health risks of potentially toxic elements in contaminated soils, sediments, and industrial solid wastes. A significant body of work investigates the coupled effects of environmental processes such as freeze–thaw cycles, acidification, dry–wet alternation, and mineral–organic matter interactions on pollutant mobility and fate. Research contributions demonstrate advanced integration of mineralogical, geochemical, and environmental chemistry approaches to elucidate the mechanisms governing heavy metal release, bioaccessibility, and stabilization in smelter-impacted soils and solid waste dumping sites. Particular attention is given to lead, zinc, cadmium, arsenic, and multi-metal systems, providing mechanistic insights that support risk assessment and remediation decision-making. The work also extends to soil interface chemistry, ecological toxicity, environmental health effects, and the development and evaluation of functional materials for pollution control.

Majdi Benamara | Environmental Engineering | Breakthrough Research Award

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Dr. Majdi Benamara | Environmental Engineering | Breakthrough Research Award

Postdoc | University of Minho | Portugal

Dr. Majdi Benamara is a dedicated researcher in physics whose work spans advanced functional materials, nanostructured oxides, and energy‐related applications. With a publication record of 22 peer-reviewed articles, his contributions demonstrate strong expertise in semiconductor metal oxides, ferroelectric thin films, photocatalysts, and gas-sensing materials. His research consistently integrates experimental synthesis, structural and electrical characterization, and application-driven performance evaluation. Over the years, he has collaborated with multidisciplinary teams across Switzerland, Portugal, Belgium, Spain, and Tunisia, contributing to internationally relevant projects focused on sustainable materials and next-generation electronic devices. His recent appointment as a researcher at EMPA – Swiss Federal Laboratories for Materials Science and Technology reflects his growing impact in advanced materials engineering, particularly in building energy materials and hybrid oxide systems. Previous research experience at the University of Minho involved ferroelectricity in binary oxide thin films for high-performance capacitors, further solidifying his expertise in electronic materials and thin-film technologies. Earlier roles and internships at Materia Nova (Belgium), the University of Aveiro (Portugal), and the University of Sevilla (Spain) contributed to his strong technical foundation in sol–gel chemistry, supercritical drying, spark plasma sintering, pulsed laser deposition, and ion-beam sputtering. Dr. Benamara’s work has generated advances in gas sensors for environmental monitoring, visible-light photocatalysts for pollutant degradation, and doped oxide systems for electronic and dielectric applications. His collaborations with leading researchers and laboratories have strengthened his scientific visibility and enabled the development of innovative materials addressing global challenges in air quality, environmental remediation, and sustainable energy technologies. Through his consistent scholarly output and broad experimental capabilities, he continues to contribute significantly to the progress of materials science and applied physics on an international scale.

Profile: Google Scholar
Publications

1. Bembibre, A., Benamara, M., Hjiri, M., Gómez, E., Alamri, H. R., Dhahri, R., & others. (2022). Visible-light driven sonophotocatalytic removal of tetracycline using Ca-doped ZnO nanoparticles. Chemical Engineering Journal, 427, 132006.

2. Jaballah, S., Benamara, M., Dahman, H., Ly, A., Lahem, D., Debliquy, M., & El Mir, L. (2020). Effect of Mg-doping ZnO nanoparticles on detection of low ethanol concentrations. Materials Chemistry and Physics, 255, 123643.

3. Jaballah, S., Benamara, M., Dahman, H., Lahem, D., Debliquy, M., & El Mir, L. (2020). Formaldehyde sensing characteristics of calcium-doped zinc oxide nanoparticles-based gas sensor. Journal of Materials Science: Materials in Electronics, 31(11), 8230–8239.

4. Benamara, M., Gómez, E., Dhahri, R., & Serrà, A. (2021). Enhanced photocatalytic removal of cyanotoxins by Al-doped ZnO nanoparticles with visible-LED irradiation. Toxins, 13(1), 66.

5. Benamara, M., Massoudi, J., Dahman, H., Dhahri, E., El Mir, L., Ly, A., & others. (2020). High response to sub-ppm level of NO₂ with 50% RH of ZnO sensor obtained by an auto-combustion method. Journal of Materials Science: Materials in Electronics, 31(17), 14249–14260.

Ahmed Y. Hassebo | Smart Cities IoT Applications | Best Researcher Award

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Dr. Ahmed Y. Hassebo | Smart Cities IoT Applications | Best Researcher Award

Doctoral Lecturer | NYC College of Technology | United States

Dr. Ahmed Y. Hassebo, Ph.D., P.E., is an accomplished electrical engineering educator and researcher with over fourteen years of teaching experience across leading U.S. institutions, including the City University of New York (CUNY), Purdue University Northwest (PNW), and Wentworth Institute of Technology (WIT). Currently serving as a Doctoral Lecturer at NYC College of Technology–CUNY, Dr. Hassebo has made significant contributions in the domains of telecommunications, signal processing, smart cities, and Internet of Things (IoT)-based systems. His academic foundation is rooted in a Ph.D. and M.Phil. in Electrical Engineering from the City College of New York, supported by a strong research portfolio emphasizing the integration of 4G/5G communication infrastructures with mission-critical IoT and smart grid applications. He has authored a book, multiple book chapters, and several peer-reviewed journal and conference papers, earning multiple Best Paper and Best Presentation Awards from IEEE and ASEE conferences. His published works in Urban Science and IoT journals underscore his global perspective on smart city transformation and sustainable urban connectivity. Beyond research, Dr. Hassebo has mentored undergraduate and high school students in projects funded by NSF, NASA, and CUNY initiatives, fostering interdisciplinary learning in AI, robotics, and embedded systems. His active role as an IEEE reviewer, ASEE session chair, and committee member at CityTech demonstrates his leadership in both academic governance and scholarly service. Holding a Professional Engineer (PE) license in Electrical and Computer Engineering, he continues to pursue research excellence through grant proposals such as NSF Engineering Research Initiation (ERI) and CUNY GRTI initiatives. With over 8 years of research experience and a growing academic impact—reflected in multiple citations and collaborations—Dr. Hassebo exemplifies a commitment to advancing smart technologies that enhance urban sustainability, education, and global digital transformation.

Profile: Google Scholar
Publications:

Hassebo, A., Mohamed, A. A., Dorsinville, R., & Ali, M. A. (2018). 5G-based converged electric power grid and ICT infrastructure. 2018 IEEE 5G World Forum (5GWF), 33–37. 
(Cited by: 27)

Hassebo, A., Obaidat, M., & Ali, M. A. (2018). Commercial 4G LTE cellular networks for supporting emerging IoT applications. 2018 Advances in Science and Engineering Technology International Conferences (ASET). 
(Cited by: 24)

Hassebo, A. Y. (2018). Commercial 4G LTE cellular networks for supporting emerging mission-critical IoT applications [Master’s thesis, The City College of New York]. CUNY Academic Works.
(Cited by: 9)

Tealab, M., Hassebo, A., Dabour, A., & AbdelAziz, M. (2020). Smart cities digital transformation and 5G–ICT architecture. 2020 11th IEEE Annual Ubiquitous Computing, Electronics & Mobile Communication Conference (UEMCON). 
(Cited by: 13)

Hassebo, A. (2022). The road to 6G: Vision, drivers, trends, and challenges. 2022 IEEE 12th Annual Computing and Communication Workshop and Conference (CCWC). 
(Cited by: 12)

Hassebo, A., & Tealab, M. (2023). Global models of smart cities and potential IoT applications: A review. IoT, 4(3), 366–411. 
(Cited by: 85)

Fernando Garrido de Oliveira | Environmental Engineering | Best Researcher Award

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Dr. Fernando Garrido de Oliveira | Environmental Engineering | Best Researcher Award

Researcher | Federal University of Paraná | Brazil

Dr. Fernando Garrido de Oliveira’s research experience centers on environmental engineering, biotechnology, and ecology, with a strong focus on projects related to water quality monitoring, environmental risk assessment, and ecosystem sustainability. His professional journey demonstrates a clear trajectory toward the integration of applied research and environmental management. At the Federal University of Paraná, he has been engaged in projects emphasizing the monitoring and biomonitoring of freshwater resources, applying limnological and toxicological analyses to assess water quality and ecological impacts. His work combines laboratory experimentation and field analysis, contributing to improved methodologies in environmental monitoring. Previous roles at C.Vale Cooperativa Agroindustrial further strengthened his expertise in quality management systems, internal auditing, and environmental process control—skills that complement his scientific research by ensuring rigorous standards and compliance with environmental regulations. His collaborations with institutions such as ARDEFA and FAMAB provided hands-on experience in waste management, agrochemical packaging control, and the implementation of sustainability protocols in industrial and agricultural contexts. His research interests encompass environmental toxicology, bioprocess technology, sustainable water management, and the development of integrated environmental monitoring systems using biotechnology tools. He also exhibits a strong command of risk management, biosafety, and environmental auditing based on ISO 14001:2015 frameworks, as evidenced by his multiple certifications. With advanced skills in statistics, QGIS, and environmental modeling, Fernando effectively bridges theoretical knowledge with applied solutions for ecosystem conservation and industrial environmental performance. His multidisciplinary approach positions him to contribute meaningfully to innovative projects addressing global sustainability challenges through the synergy of ecological science, biotechnology, and environmental engineering.

Profile: Scopus | ORCID
Featured Publications:
  • Environmental assessment of three southern Brazilian rivers using an integrated biomarker response index in Hypostomus ancistroides applied to GIS. Environmental Research.

Nelson Rubens Nascimento Del’Antonio | Environmental Engineering | Best Researcher Award

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Prof. Dr. Nelson Rubens Nascimento Del’Antonio | Environmental Engineering | Best Researcher Award

Federal Institute of Education | Brazil

Prof. Dr. Nelson Rubens Nascimento Del’Antonio’s research focuses on environmental engineering with emphasis on water treatment, effluent management, and pulp and paper industry sustainability. His studies contribute significantly to improving industrial wastewater quality through the application of activated carbon and sequencing batch reactors in treating kraft pulp mill effluents. Nelson’s work explores the reduction of chronic toxicity and estrogenicity in pulp mill discharges, promoting environmentally safer industrial practices. His investigations into the influence of process variables—such as acid leaching of wood chips and maintenance shutdowns—highlight the relationship between production efficiency and environmental performance. Through multiple collaborations with experts like Cláudio Mudadu Silva and Jorge Luiz Colodette, Nelson integrates applied chemistry, hydrology, and industrial ecology to enhance effluent biodegradability and optimize pulp bleaching processes. His scholarly output in leading journals such as Chemosphere, Nordic Pulp & Paper Research Journal, and International Journal of Environmental Science and Technology demonstrates technical depth and practical impact in environmental sustainability. In addition to his research, Nelson’s professional experience includes teaching and technical leadership roles in environmental regulation, hydrological management, and industrial sanitation, providing him a holistic understanding of environmental systems and policy frameworks. His academic trajectory reflects a continuous commitment to developing eco-efficient technologies and advancing environmental quality standards within the forest-based and manufacturing sectors. Nelson Rubens Nascimento Del’Antonio has achieved substantial recognition through his multidisciplinary approach, integrating science, engineering, and environmental management to contribute toward sustainable industrial development and improved water resource protection.

Profile: ORCID
Featured Publications

Del’Antonio, N. R. N., Amaral, J. P., & Silva, C. M. (2025). Effect of adding powdered activated carbon in sequencing batch activated sludge reactors for treating pulp mill effluents. International Journal of Environmental Science and Technology.

Del’Antonio, N. R. N., Mounteer, A. H., da Silva, P. R., Monteiro, K. A., Furley, T. H., & Silva, C. M. (2025). Reduction of chronic toxicity and estrogenicity in kraft pulp mill effluents through the addition of powdered activated carbon (PAC) in sequencing batch activated sludge reactors (SBR). Chemosphere.

Del’Antonio, N. R. N., Silva, C. M., de Oliveira, K. D., Nascimento, B. A., & Amaral, J. P. F. (2025). Evaluation of the potential use of powdered activated carbon in the treatment of effluents from bleached kraft pulp mills. Nordic Pulp & Paper Research Journal.

Del’Antonio, N. R. N., Fioreze, M., Caliari, M., Amaral, J. P., & Silva, C. M. (2023). Effects of programmed maintenance shutdowns on effluent quality of a bleached kraft pulp mill. Nordic Pulp & Paper Research Journal.

Florentina Geanina Lupașcu – Environmental Chemistry – Best Researcher Award

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Florentina Geanina Lupascu - Environmental Chemistry - Best Researcher Award

Assist. Prof. Dr. at University of Medicine and Pharmacy Iasi, Romania

Florentina Geanina Lupașcu serves as a Lecturer PhD in Pharmaceutical Chemistry at the Faculty of Pharmacy, University of Medicine and Pharmacy “Grigore T. Popa” Iaşi. With a deep commitment to academic excellence and research innovation, contributions span across drug formulation, nanomaterials, and therapeutic delivery systems. With an interdisciplinary approach, numerous publications, and significant mentorship experience, the academic career reflects both dedication to teaching and pioneering pharmaceutical research. Involvement in national and international collaborations enhances the broader scientific community's progress, especially in areas related to nanotechnology and diabetic therapies.

Professional Profile

SCOPUSORCID

Education

Florentina Geanina Lupașcu completed undergraduate and doctoral studies in Pharmacy at the University of Medicine and Pharmacy “Grigore T. Popa” Iaşi. The doctoral focus was Pharmaceutical Chemistry. Further specialization includes two residency programs in Pharmaceutical Laboratory and General Pharmacy. This structured academic journey has laid a strong foundation for developing advanced research in pharmacological sciences, nanomedicine, and therapeutic formulations. International exposure through mobility internships in Belgium and workshops in Lisbon have further expanded scientific perspective and expertise.

Professional Experience

Since 2013, Florentina Geanina Lupașcu has held academic roles in the Department of Pharmaceutical Sciences, progressing from Assistant to Lecturer. Actively coordinates research projects and graduation theses, while contributing to curriculum development and student engagement. Additional roles include scientific coordination, PhD guidance, and organizing student workshops in cosmetics and relaxation products. A dynamic member of professional committees and networks, participation spans across national and international pharmacy, chemistry, and therapeutics associations. Editorial responsibilities and guest-editorships further demonstrate commitment to academic excellence and leadership in pharmaceutical science.

Research Interest

Florentina Geanina Lupașcu's research interests lie at the intersection of pharmaceutical chemistry, nanotechnology, and drug delivery. Current investigations explore chitosan-based carriers, polymer-drug systems, and optimized oral antidiabetic drug profiles. A strong emphasis is placed on therapeutic innovation, with specific applications in diabetes treatment. Participation in COST EU actions and international conferences supports a global approach to emerging pharmaceutical challenges. Through interdisciplinary work, the focus remains on enhancing the bioavailability, efficacy, and safety of therapeutic agents using advanced materials and formulation strategies.

Award And Honor

Recognition of scientific excellence has been a consistent feature of Florentina Geanina Lupașcu’s career. Notable honors include the “Best Paper Award” and “Best Oral Presentation” at major international conferences focused on chemistry and nanosciences. The originality of research results was highlighted during the Romanian National Pharmacy Congress in 2016. These accolades acknowledge both scientific innovation and the practical impact of research in therapeutic systems and nanomaterials. Continued recognition reinforces a reputation for excellence and thought leadership in pharmaceutical research.

Research Skill

Florentina Geanina Lupașcu demonstrates advanced skills in pharmaceutical formulation, drug delivery systems, and nanoparticle engineering. Proficiency in handling complex experimental techniques and data analysis tools has supported successful project outcomes and high-impact publications. Training includes specialized courses in experimental drug administration and monitoring cardiovascular conditions in laboratory settings. The ability to lead interdisciplinary teams and contribute to high-level scientific discussions marks a strong research aptitude. Collaborative projects and scientific editing further highlight analytical rigor and a versatile skill set in modern pharmaceutical sciences.

Publications

Florentina Geanina Lupașcu has authored 37 scientific articles, with 24 featured in ISI-indexed journals, including 7 as lead author. Contributions also include 8 academic books and active participation in over 90 national and international scientific events. The cumulative impact factor exceeds 72, and scientometric indicators reflect a significant academic presence: h-index 12 on Google Scholar and over 550 citations. Editorial responsibilities in high-impact journals and consistent contributions to conferences showcase an active engagement with the global scientific community and a dedication to the dissemination of impactful research.

Title: A State-of-the-Art Review on Recent Biomedical Application of Polysaccharide-Based Niosomes as Drug Delivery Systems

Journal: [Review article, Open Access]

Title: Characterisation and Validation of an Isoproterenol‑Induced Heart Failure Mouse Model

Journal: Farmacia (Open Access), 2025

Title: Binary and Ternary Inclusion Complexes of Niflumic Acid: Synthesis, Characterization, and Dissolution Profile

Journal: Pharmaceutics, 2024 (Open Access)

Conclusion

The academic and research career of Florentina Geanina Lupașcu is marked by innovation, dedication, and scholarly excellence. A clear focus on pharmaceutical chemistry and nanotechnology has resulted in impactful research contributions and meaningful mentorship. Through teaching, publications, and international collaboration, continues to influence the evolving landscape of drug delivery and pharmaceutical science. Recognized for originality and scientific leadership, the professional journey reflects a commitment to enhancing therapeutic outcomes and fostering the next generation of researchers in pharmacy and medical sciences.

Marie Giroudon – Civil and environmental engineering – Best Researcher Award

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Marie Giroudon - Civil and environmental engineering - Best Researcher Award

INSA Toulouse - France

AUTHOR PROFILE

GOOGLE SCHOLAR 

SCOPUS

🔬 SUMMARY

Marie Giroudon is a pioneering researcher in civil engineering, specializing in the sustainability and durability of cementitious materials under aggressive conditions. Grounded in both academic excellence and hands-on experimentation, the work contributes meaningfully to environmental engineering and sustainable construction. With a strong interdisciplinary approach, Marie bridges civil engineering with microbiological and biochemical phenomena, particularly in the context of biogas and anaerobic digestion infrastructures. The research explores how binders, additives, and natural aggregates behave in corrosive environments, aiming to develop low-carbon, bio-integrated materials that withstand biodeterioration. The innovative contributions have gained recognition across both scientific and industrial communities, notably in Europe. Presently working as Maître de Conférences at INSA Toulouse, the career reflects a continuous trajectory of academic distinction, impactful collaborations, and scientific leadership. With a solid publication record and active roles in international working groups, Marie continues to shape the future of sustainable and durable construction materials research globally.

📘 EARLY ACADEMIC PURSUITS

Marie Giroudon’s academic path reflects a steady ascent through top-tier institutions and rigorous programs in science and engineering. The journey began with a Bachelor's degree in Physics at Université Toulouse III Paul Sabatier, attained with distinction. The foundation in physics cultivated a strong analytical and technical perspective, later channeled into civil and geotechnical engineering. The academic development continued through a Master’s and Engineering diploma from UPSSITECH, marked by honors and international exposure through a semester at Polytechnique Montréal. The formal academic training culminated in a PhD in Civil Engineering from INSA Toulouse, successfully defended in January 2021. The thesis explored interactions between biowaste in anaerobic digestion and cement-based materials, laying the groundwork for future innovations in eco-resilient infrastructure. Throughout this formative period, Marie consistently demonstrated high aptitude, curiosity, and commitment to research excellence, supported by prestigious grants and supervision under renowned French experts in materials durability and sustainable construction.

🏗️ PROFESSIONAL ENDEAVORS

Marie Giroudon's professional experience showcases a seamless blend of research, teaching, and interdisciplinary project leadership. Currently serving as Maître de Conférences at INSA Toulouse within the Laboratoire Matériaux et Durabilité des Constructions (LMDC), the role integrates research on cementitious materials with pedagogy across subjects such as BIM, geotechnics, and prestressed concrete. Previously, Marie contributed to cutting-edge postdoctoral projects like WWT Concrete, targeting sustainable solutions for wastewater infrastructure. These roles followed a rich doctoral journey supported by ANR BIBENdOM, focusing on how cement-based materials react in biodeteriorative, anaerobic conditions. Each professional role has been guided by a strong commitment to innovation and sustainability. With active involvement in mentoring research students and coordinating academic collaborations across institutions like EPFL and Université Gustave Eiffel, the career reflects a mature scientific vision combined with practical leadership in environmental and construction material research. These roles reinforce Marie's expertise in applying fundamental science to real-world engineering challenges.

🧪 CONTRIBUTIONS AND RESEARCH FOCUS

The research of Marie Giroudon addresses critical challenges in environmental engineering by focusing on the durability of cementitious materials in chemically aggressive settings, particularly anaerobic digestion systems. By investigating alternative binders such as metakaolin geopolymers, blast-furnace slag cement, and calcium aluminate cement, the work contributes to lowering the environmental footprint of construction. Key innovations include identifying the biodeterioration kinetics and interaction mechanisms between organic matter and cement matrices. Marie's investigations into materials behavior under exposure to ammonium, organic acids, and fermentation byproducts are crucial for designing long-lasting bio-infrastructure. Collaborations with biotechnologists and environmental chemists have enriched these studies with multidisciplinary insights. Through over 15 peer-reviewed articles and numerous conference presentations, Marie has established a strong scientific presence in sustainable materials research. The work influences guidelines for agricultural and industrial infrastructure, particularly biogas plants, and contributes to European discussions on green civil engineering, forming the scientific basis for future innovations in eco-construction.

🏅 ACCOLADES AND RECOGNITION

Marie Giroudon has earned several recognitions that underscore both scientific excellence and community engagement. A prominent achievement includes winning the 3rd prize at the “Forum Jeunes Chercheurs” in Marne la Vallée for research on biodeterioration of cement materials—an acknowledgment of originality and societal relevance. As a dedicated member of international expert committees like RILEM TC 253-MCI and the French Civil Engineering Association’s “Bétons et Microorganismes” group, Marie contributes actively to shaping technical documentation and standards on microbial impacts on concrete. Participation in these expert networks reflects not only scientific credibility but also an enduring commitment to collaborative advancement. Furthermore, the invitation to contribute to state-of-the-art reports published by Springer, and repeated representation at top-tier conferences such as the International Congress on the Chemistry of Cement, highlight widespread recognition. These honors affirm Marie’s status as a rising leader in the domain of eco-resilient construction materials and sustainable civil infrastructure research.

🌍 IMPACT AND INFLUENCE

Marie Giroudon's research exerts tangible influence on both academic and applied sectors, particularly in the design and maintenance of biogas infrastructure and wastewater facilities. The interdisciplinary work directly informs environmental policy and engineering practices by providing evidence-based insights into material degradation in microbial and chemical environments. Collaborations with major public utilities like SIAAP and universities such as EPFL have fostered research-to-practice translation. The development of low-carbon, bio-integrated binders presents a promising direction in the global shift toward sustainable construction, aligning with EU climate goals. The work contributes significantly to reducing lifecycle emissions from concrete structures by substituting conventional Portland cement with geopolymer and aluminate alternatives. Moreover, Marie’s mentorship of graduate students ensures that this impact extends through a new generation of eco-conscious engineers. Through scholarly publications, cross-disciplinary research projects, and leadership in technical networks, the contributions continue to shape research trajectories, industrial protocols, and sustainability standards across Europe and beyond.

🧱 LEGACY AND FUTURE CONTRIBUTIONS

Marie Giroudon’s legacy lies in pioneering eco-durability within civil engineering and creating a research foundation that combines chemical resilience, microbial science, and materials engineering. The emerging expertise in micromechanical analysis and nanoindentation of cementitious composites paves the way for future breakthroughs in infrastructure diagnostics. Current recruitment for PhD and postdoctoral positions under Marie’s guidance signals a growing research lab ecosystem focused on innovative materials in leaching and bio-reactive environments. With active roles in scientific communities, the next decade is poised to see deeper exploration into LC3-type low-carbon materials, resistance modeling under multiaxial stress conditions, and long-term simulations of degradation pathways. Furthermore, the integration of sustainability into structural engineering curricula ensures lasting academic influence. With a track record of practical, publication-driven, and collaborative research, Marie’s future contributions will likely redefine durability standards for green buildings and bio-infrastructure, thereby reinforcing global efforts toward resilient, sustainable urban and rural development through advanced material science.

NOTABLE PUBLICATIONS

Title: Comparison of barley and lavender straws as bioaggregates in earth bricks
Authors: M. Giroudon, A. Laborel-Préneron, J.E. Aubert, C. Magniont
Journal: Construction and Building Materials, Vol. 202, pp. 254–265 (2019)

Title: Blast-furnace slag cement and metakaolin based geopolymer as construction materials for liquid anaerobic digestion structures: Interactions and biodeterioration mechanisms
Authors: M. Giroudon, M.P. Lavigne, C. Patapy, A. Bertron
Journal: Science of The Total Environment, Vol. 750, Article 141518 (2021)

Title: Cementitious materials in biogas systems: Biodeterioration mechanisms and kinetics in CEM I and CAC based materials
Authors: C. Voegel, M. Giroudon, A. Bertron, C. Patapy, P.L. Matthieu, T. Verdier, ...
Journal: Cement and Concrete Research, Vol. 124, Article 105815 (2019)

Title: Experimental assessment of bio-based earth bricks durability
Authors: A. Laborel-Préneron, M. Giroudon, J.E. Aubert, C. Magniont, P. Faria
Journal: IOP Conference Series: Materials Science and Engineering, Vol. 660 (1), Article 012069 (2019)

Title: Potential of low carbon materials facing biodeterioration in concrete biogas structures
Authors: M. Giroudon, C. Patapy, M. Peyre Lavigne, M. Andriamiandroso, R. Cartier, ...
Journal: Materials and Structures, Vol. 56 (4), Article 80 (2023)

Title: Insights into the local interaction mechanisms between fermenting broken maize and various binder materials for anaerobic digester structures
Authors: M. Giroudon, C. Perez, M.P. Lavigne, B. Erable, C. Lors, C. Patapy, A. Bertron
Journal: Journal of Environmental Management, Vol. 300, Article 113735 (2021)

Dr. shikha kumari – Environmental Microbiology – Women Researcher Award

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Dr. shikha kumari - Environmental Microbiology - Women Researcher Award

Career Point University - India

AUTHOR PROFILE

GOOGLE SCHOLAR

🌱 SUMMARY

Dr. shikha kumari is a dynamic academician and researcher in the domain of plant molecular biotechnology, known for her multidisciplinary expertise that spans bioinformatics, pharmaceutical sciences, microbiology, and molecular docking. with a strong foundation in bioinformatics and biotechnology, the academic career has been driven by a commitment to sustainable solutions for biological problems. the scholarly contributions encompass plant metabolite research, in silico drug discovery, antioxidant and antimicrobial evaluations, and environmental biotechnology. a blend of computational tools and wet-lab methods highlights a unique research style, aiming to bridge traditional knowledge with modern scientific inquiry for human and environmental health.

🧬 EARLY ACADEMIC PURSUITS

The academic journey began with a bachelor's and master's in bioinformatics from punjab university, marked by high distinction. the pursuit of excellence continued with a ph.d. in biotechnology from shoolini university, where the focus was on herbal lead characterization and bioactive compound isolation. the early years were characterized by a fascination with natural therapeutics, especially through high-performance analytical techniques like hplc and hptlc. this period laid the groundwork for interdisciplinary exploration, combining biology, chemistry, and computation. foundational studies helped build strong experimental and analytical skills, forming the basis for future scientific accomplishments and teaching excellence.

🔬 PROFESSIONAL ENDEAVORS

Currently serving as an assistant professor at career point university in hamirpur, dr. shikha kumari has also previously held academic positions at shoolini institute of life sciences. in addition to teaching core courses in microbiology, pharmaceutical analysis, and biotechnology, involvement spans organizing national conferences, workshops, and delivering expert lectures. significant mentorship has been extended through successful guidance of multiple phd scholars. with a strong teaching-research interface, the academic role integrates curriculum development, laboratory management, and administrative responsibilities, thereby enriching both student learning and institutional development across various life science disciplines.

🌿 CONTRIBUTIONS AND RESEARCH FOCUS

The research areas revolve around phytochemistry, antimicrobial resistance, environmental detoxification, and cancer therapeutics using medicinal plants. natural molecules derived from plants like terminalia, acorus calamus, rhododendron, and selaginella are central to the research. a distinctive strength lies in combining in vitro assays with in silico modeling for drug development. contributions to microbial degradation of pollutants and plastic waste valorization reflect a commitment to environmental sustainability. innovative work has also addressed nutritional immunology, especially during the covid-19 pandemic, blending molecular biology with public health. the work continues to expand toward plant-based drug discovery and eco-friendly bioactive formulations.

🏅 ACCOLADES AND RECOGNITION

Recognition comes in the form of multiple published patents in india, including innovations in drug delivery systems and antimicrobial synergy testing devices. over sixteen quality publications in reputed journals like plos one and south african journal of botany underscore the research impact. contributions to books and laboratory manuals reflect commitment to both academic and applied knowledge dissemination. active participation in international conferences, webinars, and workshops further highlights engagement with the global scientific community. awards and organizing roles in faculty development programs showcase leadership and dedication in advancing research capacity and education across institutions.

🌍 IMPACT AND INFLUENCE

Dr. shikha kumari’s work influences interdisciplinary fields, bridging molecular biology, computational chemistry, environmental science, and pharmacology. mentoring research scholars has nurtured future scientists with strong ethical and methodological training. innovations in herbal pharmacology offer sustainable solutions for modern health challenges. community impact is visible through educational outreach on nutrition, climate change, and public health. invited lectures and leadership roles in national events reinforce influence in shaping academic discourse. efforts in empowering local students and rural research initiatives reflect a grounded commitment to inclusive science. the integrated approach aims to improve both scientific progress and societal well-being.

📚 LEGACY AND FUTURE CONTRIBUTIONS

The legacy being shaped is that of a scientist-educator whose research aims to redefine natural therapeutics and environmental remediation. future work is expected to delve deeper into molecular docking of plant metabolites, green chemistry applications, and translational bioinformatics. expansion of patentable innovations, publication in high-impact journals, and cross-border collaborations will further elevate the research profile. the long-term vision includes establishing a center for plant-based drug discovery and nurturing a new generation of ethically grounded biotechnologists. through interdisciplinary knowledge, technical mentorship, and public engagement, a lasting contribution is being made to science, education, and sustainable development.

PUBLICATIONS

Title: Phytoconstituents of traditional Himalayan Herbs as potential inhibitors of Human Papillomavirus (HPV-18) for cervical cancer treatment: An In silico Approach
Authors: D. Salaria, R. Rolta, J. Mehta, O. Awofisayo, O.A. Fadare, B. Kaur, B. Kumar, ...
Journal: PLoS One, 17(3), e0265420, 2022


Title: Sequential fractionation by organic solvents enhances the antioxidant and antibacterial activity of ethanolic extracts of fruits and leaves of Terminalia bellerica from North India
Authors: S.R. Chandel, V. Kumar, S. Guleria, N. Sharma, A. Sourirajan, P.K. Khosla, ...
Journal: Pharmacognosy Journal, 11(1), 2019


Title: In vitro and in silico properties of Rhododendron arboreum against pathogenic bacterial isolates
Authors: J. Mehta, R. Rolta, D. Salaria, A. Ahmed, S.R. Chandel, H. Regassa, ...
Journal: South African Journal of Botany, 161, 711–719, 2023


Title: Comparative analysis of phytochemicals, antimicrobial and antioxidant activity of different species of Terminalia from Himachal Pradesh, India
Authors: V. Kumar, S.R. Chandel, S. Guleria, N. Sharma, A. Sourirajan, P.K. Khosla, ...
Journal: Vegetos, 34(3), 528–539, 2021


Title: Comparative antioxidant potential of leaves and Fruit Extracts of Terminalia bellerica Roxb from Himachal Pradesh
Authors: S.R. Chandel, K. Dev, P.K. Khosla
Journal: International Journal of Pharmaceutical Sciences Review and Research, 38(1), 2016


Title: Antimicrobial potential of phytocompounds of Acorus calamus: in silico approach
Authors: K. Shalini, S. Guleria, D. Salaria, R. Rolta, O.A. Fadare, J. Mehta, O. Awofisayo, ...
Journal: Journal of Biomolecular Structure and Dynamics, 42(5), 2726–2737, 2024

Eshetu – Environmental science – Best Researcher Award

Posted on by Civil Engineering Awards

Eshetu - Environmental science - Best Researcher Award

Dilla University - Ethiopia

AUTHOR PROFILE

ORCID

🌍 SUMMARY

Dr. Eshetu is a distinguished Associate Professor at Dilla University, Ethiopia, renowned for his academic and research excellence in land resource management and environmental studies. His current roles span across continents, including visiting research scholar appointments in China and Ethiopia, reflecting his global academic presence. A multifaceted professional, he contributes to education, research, consulting, and editorial responsibilities. As the Editor-in-Chief of the Ethiopian Journal of Environment and Development, his leadership in scholarly communication is notable. Dr. Eshetu's wide-reaching consultancy services include impact assessments, rural livelihoods, and agricultural transformation strategies. With over two decades of experience, he continues to shape sustainable development discourse through both practice and publication. His expertise not only influences academic thought but also contributes meaningfully to national policies and development initiatives. His academic rigor, collaborative spirit, and commitment to capacity building make him a vital asset in Africa’s pursuit of environmental and agricultural resilience.

🎓 EARLY ACADEMIC PURSUITS

Dr. Eshetu’s educational journey reflects a deep commitment to environmental stewardship and natural resource sustainability. He earned his Ph.D. in Land Resource Management from Nanjing Agricultural University, China, in 2017, where he was twice honored as an “Excellent International Student” due to his exceptional academic performance. His earlier studies include an MSc in Natural Resource and Environmental Studies and a BSc in Forestry, both from Hawassa University, Ethiopia. These foundational qualifications equipped him with theoretical and practical insights that would later inform his scholarly and applied work. His participation in international and national training programs has further expanded his expertise, preparing him to address pressing global challenges such as food insecurity, land degradation, and environmental governance. Through his academic trajectory, Dr. Eshetu has cultivated a rich blend of knowledge in interdisciplinary environmental sciences, making him well-positioned to contribute to academic advancement and sustainable policy development both locally and globally.

👨‍🏫 PROFESSIONAL ENDEAVORS

In his academic career, Dr. Eshetu has seamlessly integrated teaching, research, and leadership responsibilities. At Dilla University, he has served in multiple capacities including Head of the Department of Natural Resources Management, Research Communication and Dissemination Coordinator, and Thematic Research Leader. His role as Editor-in-Chief of a national academic journal further emphasizes his leadership in shaping the research landscape. In addition to his teaching duties, he has held visiting research positions at Adama Science and Technology University and Hawassa University, focusing on water resource use and environmental sustainability. His international engagement as a visiting scholar at Hunan University of Technology and Business in China showcases his global collaboration efforts. Moreover, his consultancy experience with ministries, NGOs, and private organizations illustrates his commitment to applying academic insights to real-world problems. His broad portfolio reflects a commitment to inclusive, interdisciplinary, and impact-driven scholarship across multiple domains.

🌱 CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Eshetu’s research primarily focuses on sustainable land resource management, rural livelihoods, and environmental governance. He has explored the intricate linkages between climate variability and food insecurity, agricultural transformation, and poverty reduction, emphasizing the need for integrated rural development approaches. His consulting expertise extends to Environmental Impact Assessments (EIA), agricultural policy analysis, and the transformation of vocational education in agriculture. He has led thematic research on natural resource management and ecotourism, offering valuable insights into how ecosystems can be sustainably harnessed for socio-economic development. Through his publications and academic engagement, he advocates for policy frameworks that support resilience in vulnerable communities. His interdisciplinary research merges ecological science, policy studies, and development theory, enabling practical interventions. With over twenty international peer-reviewed journal articles, Dr. Eshetu continues to bridge science and policy, championing innovations that address ecological challenges and contribute to Ethiopia’s and Africa’s broader development goals.

🏆 ACCOLADES AND RECOGNITION

Dr. Eshetu’s academic contributions have earned him several prestigious awards and honors. At Nanjing Agricultural University, he was twice recognized as an “Excellent International Student” for his stellar performance among international scholars. His outstanding work also earned him a Certificate of Expert Reviewer from the Academic Exchange Information Centre (AEIC), reflecting his role in advancing scholarly quality on a global stage. In Ethiopia, he received performance-based accolades at Alage ATVET College, celebrating his exceptional contribution to education and institutional excellence. As an active reviewer for international peer-reviewed journals, his critical assessments help uphold academic standards and integrity. His editorial leadership of the Ethiopian Journal of Environment and Development further affirms his influence in shaping the research landscape. These recognitions not only validate his academic and professional endeavors but also underscore the broader impact of his work in the environmental and agricultural sciences.

🔬 IMPACT AND INFLUENCE

Dr. Eshetu’s influence spans academia, government policy, and community development. His research informs policies on agricultural transformation, environmental governance, and rural livelihoods. Through collaborations with ministries such as the Ministry of Education and Ministry of Agriculture, he has contributed to impactful policy design and evaluation. His work supports Ethiopia’s broader development agenda, addressing issues of poverty, climate adaptation, and ecological sustainability. He champions science-based decision-making and advocates for integrating indigenous knowledge with modern environmental practices. His scholarly publications provide critical insight for stakeholders at national and international levels. Additionally, his involvement in training and mentoring young researchers ensures the continued development of expertise within the region. Dr. Eshetu’s influence lies in his ability to convert academic knowledge into actionable strategies, empowering communities and institutions to build resilience against environmental and socio-economic challenges.

📚 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Dr. Eshetu envisions further expanding his role in shaping sustainable development through research, policy advocacy, and mentorship. His legacy is already marked by his pivotal role in academic leadership, interdisciplinary research, and institutional capacity building. He aims to foster South-South and North-South research collaborations that bridge gaps in environmental science, rural development, and water management. As the Editor-in-Chief of a national journal, he continues to nurture emerging scholars and promote evidence-based discourse. Dr. Eshetu is also committed to translating research into policy reforms that address food security, climate resilience, and agricultural sustainability. His goal is to ensure that environmental management strategies are not only ecologically viable but also socioeconomically inclusive. By mentoring the next generation of environmental leaders and strengthening academic institutions, he aspires to leave a lasting legacy that transforms both the scholarly and practical dimensions of environmental governance in Ethiopia and beyond.

PUBLICATION

Title: Variation in Ecosystem Service Values in an Agroforestry Dominated Landscape in Ethiopia: Implications for Land Use and Conservation Policy

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Journal: Sustainability