Ali Razban | Energy Managment | Best Researcher Award

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Dr. Ali Razban | Energy Managment | Best Researcher Award 

Associate Professor | Purdue University | United States

Dr. Ali Razban is a researcher at Indiana University–Purdue University Indianapolis (IUPUI), United States, specializing in intelligent building systems, energy management, and advanced control strategies for Heating, Ventilation, and Air Conditioning (HVAC) systems. With 41 scientific publications and over 700 citations, his work focuses on integrating Internet of Things (IoT) technologies, model predictive control (MPC), and environmental sensing to enhance building performance, occupant comfort, and energy efficiency. His recent studies include privacy-preserving methods for indoor occupancy forecasting, optimized sensor placement for accurate environmental monitoring, and real-world implementation of cloud-based MPC systems for educational buildings. Dr. Razban has also contributed to comprehensive reviews of occupancy detection techniques, addressing their practical challenges in large-scale deployment. His collaborative research spans multiple disciplines—bridging mechanical engineering, computer science, and data analytics—and involves partnerships with over 40 co-authors worldwide. Through both experimental and simulation-based approaches, his work advances sustainable building design and smart infrastructure, contributing to global efforts in reducing energy consumption and carbon emissions. Dr. Razban’s research not only strengthens the academic understanding of intelligent built environments but also delivers practical, scalable solutions for industry applications, thereby fostering the development of resilient, data-driven, and energy-efficient urban ecosystems.

Profiles: Scopus | ORCID

Featured Publication

Juan Zhang | Dynamic Analysis | Best Researcher Award

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Dr. Juan Zhang | Dynamic Analysis | Best Researcher Award 

University Teacher | Lanzhou Institute of Technology | China

Dr. Juan Zhang is a researcher at the Lanzhou Institute of Technology, China, specializing in materials science, environmental engineering, and applied chemistry. With 22 scientific publications, 129 citations, and an h-index of 6, Dr. Zhang has demonstrated consistent scholarly productivity and growing academic influence. Her research primarily focuses on the synthesis, modification, and application of advanced functional materials for environmental protection, sustainable energy systems, and industrial innovation. Through her interdisciplinary approach, she has contributed to improving the performance, efficiency, and environmental compatibility of engineering materials and processes. Dr. Zhang has collaborated with over 20 co-authors from various national and international institutions, reflecting her active engagement in cross-disciplinary and cross-border research networks. Her publications in peer-reviewed journals address both theoretical advancements and practical applications, bridging fundamental science with real-world technological challenges. Beyond her academic achievements, Dr. Zhang’s work supports global sustainability objectives by promoting cleaner production, resource efficiency, and ecological protection. She is committed to advancing applied research that not only enhances scientific understanding but also provides practical solutions to pressing environmental and industrial issues, thereby contributing meaningfully to sustainable development and technological progress on a global scale. (~290 words)

Profile: Scopus

Featured Publications

1. Zhang, J., Tu, K.-h., Xi, P., Zhao, B.-l., Shi, Y.-r., … (2025). Transverse instability of dust acoustic solitary waves for the coupled Zakharov–Kuznetsov equation in magnetized two-ion-temperature dusty plasma. Chaos, Solitons & Fractals, 201, 117403.

2. Ren, X. P., Li, X., Zhou, Z., Wan, X., Meng, H., Zhou, Y., Zhang, J., Fan, X., Wang, J., & Shi, Y.-R. (2025). Effect of Zeeman field on Kármán vortex street in spin-1 Bose–Einstein condensates. Chaos, Solitons & Fractals. (Advance online publication)

Dr. Juan Zhang’s research advances the understanding of nonlinear wave dynamics and quantum fluid behavior in complex plasma and Bose–Einstein condensate systems. Her work contributes to theoretical physics by revealing mechanisms behind wave instability and vortex formation, offering insights with potential applications in plasma control, quantum computing, and advanced materials science.

Charity Lebogang Manganyi | Psychology | Best Researcher Award

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Ms. Charity Lebogang Manganyi | Psychology | Best Researcher Award

Charity Lebogang Manganyi | University of Limpopo | South Africa

Ms. Charity Lebogang Manganyi is an emerging South African researcher whose work focuses on mental health, community psychology, and the intersection between social well-being and education. She serves as a Research Assistant under the SAMRC–DSI–NRF–UL Research Chair in Mental Health and Society at the University of Limpopo, where she contributes to multidisciplinary research exploring psychosocial determinants of mental health, community resilience, and the impact of social structures on well-being. Her professional expertise lies in research design, data collection, and advanced analysis using SPSS, R, Jamovi, and VOSviewer, with a strong record of producing evidence-based outputs that inform policy and community interventions. Ms. Manganyi’s research involvement includes synthesizing literature, developing manuscripts for academic journals, and preparing comprehensive reports aligned with national research priorities in public mental health. She actively supports project coordination, stakeholder engagement, and knowledge dissemination through academic workshops and conferences, promoting dialogue between scholars, practitioners, and community leaders. Her collaborative research has contributed to studies examining the integration of psychological services in under-resourced communities, gender and youth mental health challenges, and social justice in education and health systems. Beyond her institutional role, she has participated in projects affiliated with the National Institute for the Humanities and Social Sciences, focusing on data-driven approaches to understanding social change. Recognized for her analytical precision, leadership, and commitment to ethical research standards, Ms. Manganyi embodies a progressive approach to community-centered scholarship. Her work continues to advance understanding in psychological research, contribute to capacity building in mental health, and inspire the integration of science with societal impact. Works (2), Professional Contributions: Active participation in empirical research under the SAMRC–DSI–NRF–UL Research Chair in Mental Health and Society, focusing on community well-being and psychosocial resilience; collaborative contributions to national and institutional studies addressing behavioral health, social determinants of mental wellness, and policy-oriented psychological research.

Profile: ORCID

Featured Publications

1. Manganyi, C. L., & Sodi, T. (2025). Mapping the landscape of scientific research on suicide in South Africa: A bibliometric analysis. Journal of Affective Disorders Reports, 15, Article 100989.

2. Burrows, S., & Laflamme, L. (2007). Assessment of accuracy of suicide mortality surveillance data in South Africa: Investigation in an urban setting. Crisis, 28(2), 74–81.

Ms. Charity Lebogang Manganyi’s research advances understanding of mental health and suicide in South Africa through evidence-based analysis and community-centered approaches. Her work contributes to improving national mental health policies, strengthening psychosocial resilience, and fostering a data-driven foundation for global suicide prevention and public health innovation.

Yuqing Han | Plant Cold Stress | Best Academic Researcher Award

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Dr. Yuqing Han | Plant Cold Stress | Best Academic Researcher Award

Postdoctoral | Shanghai Academy of Agricultural Sciences | China

Dr. Yuqing Han is a distinguished postdoctoral researcher at the Shanghai Academy of Agricultural Sciences, specializing in plant molecular biology and abiotic stress physiology with a particular focus on cold tolerance in melon (Cucumis melo). Her research has significantly advanced understanding of the molecular mechanisms governing plant adaptation to low-temperature stress, identifying four key genes that enhance melon’s resistance and revealing a transcriptional regulatory module crucial for cold response. With expertise in molecular interaction analysis, gene function verification, and transcriptomic profiling, she has contributed to two major research projects and two industry collaborations aimed at developing stress-resilient horticultural crops. Dr. Han has published eight papers in high-impact international journals such as Plant Physiology, The Plant Journal, and Environmental and Experimental Botany, which collectively highlight her scientific rigor and innovative approach to crop improvement. Her work not only expands the theoretical framework of plant stress biology but also provides practical genetic resources for melon breeding, offering solutions for sustainable agriculture amid global climate challenges. Demonstrating growing international recognition, her research record includes 136 citations, 8 documents, and an h-index of 5, reflecting her academic excellence and impactful contributions to the global scientific community.

Profile: Scopus

Featured Publication

1. Xu, D., Han, Y., Zhang, Y., Khan, A., Dong, L., Shao, L., Liang, A., Liu, T., & Qi, H. (2025). CmTGA8–CmAPX1/CmGSTU25 regulatory model involved in trehalose-induced cold tolerance in oriental melon seedlings. Plant Physiology and Biochemistry, 220, 109432.

Dr. Yuqing Han’s research advances global agricultural resilience by uncovering molecular mechanisms that enhance crop tolerance to cold stress, supporting sustainable food production under climate change. Her discoveries in stress-responsive gene regulation provide vital insights for developing hardier horticultural varieties, driving innovation in plant biotechnology and sustainable farming practices worldwide.

Yuan Li | Hydrogen Production | Cryogenic Energy Solutions Award

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Dr. Yuan Li | Hydrogen Production | Cryogenic Energy Solutions Award

Research Scientist | X-Here Trek Lab | United States

Dr. Yuan Li is a Research Scientist and Initiating Founder at X-Here (Future Ice-based Hydrogen Energy & Resilient Environments) Trek Lab, where he pioneers the integration of cryospheric science with sustainable energy innovation. His work bridges ice physics, cryogenic materials characterization, and hydrogen-based renewable energy systems, transforming the scientific understanding of ice microstructures into practical solutions for climate resilience and clean energy production. Formerly affiliated with Dartmouth College’s Ice Research Laboratory and Germany’s Alfred Wegener Institute, he has made notable contributions to ice microstructural dynamics, paleoclimatology, and advanced cryogenic systems. Dr. Li’s groundbreaking research on ice-mediated hydrogen production introduced a self-sustaining cycle utilizing solid-state proton extraction from ice, achieving over 53% net efficiency and offering a decentralized, eco-efficient hydrogen generation pathway for cold regions and remote environments. His findings have been published in leading international journals such as Sustainable Energy Technologies and Assessments, International Journal of Hydrogen Energy, Crystal Growth & Design, and Journal of Glaciology, earning global recognition for linking cryosphere science with renewable hydrogen technologies. With active collaborations across institutions in the United States, China, and Europe, Dr. Li has presented his work at prominent scientific forums in Berlin, Barcelona, Edinburgh, and Budapest, contributing to the advancement of climate-adaptive energy solutions. His professional focus lies in ice-based hydrogen energy, cryogenic materials, and polar system dynamics, with research outcomes that drive sustainability and resilience in global energy systems. With 12 publications, 103 citations, and an h-index of 6, Dr. Yuan Li continues to advance the frontier of cryogenic science and hydrogen innovation toward a sustainable and energy-secure future.

Profiles: ScopusORCID

Featured Publications

Li, H.-Y., & Li, Y. (2025, November). Ice to hydrogen: A self-sustaining cycle for decentralized green energy. Sustainable Energy Technologies and Assessments.

Li, Y., Fu, C., & Li, H.-Y. (2025, September 13). Lessons from nature’s freeze crystallization—Perennial sea ice as a model for efficient salt rejection in desalination. Crystal Growth & Design.

Li, Y. (2025, June 24). Comments on linear-viscous flow of temperate ice [Preprint]. ESSOAr.

Li, Y. (2025, January). Hydrogen production via imperfective ice Ih. International Journal of Hydrogen Energy.

Li, Y., & Fu, C. (2024, December). Hydrogen storage—Learning from nature: The air clathrate hydrate in polar ice sheets. Sustainable Energy Technologies and Assessments.

Dr. Yuan Li’s pioneering research bridges cryospheric science and sustainable energy innovation, transforming the physics of ice into practical solutions for hydrogen production and storage. His work advances global efforts toward clean, decentralized, and resilient energy systems, offering transformative potential for climate adaptation, renewable energy development, and sustainable industry practices.

Jinghua Zhao | Topological Superconducting | Best Researcher Award

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Mr. Jinghua Zhao | Topological Superconducting | Best Researcher Award

Jinghua Zhao | Xi’an University of Science and Technology | China

Jinghua Zhao is a postgraduate researcher in the School of Science at Xi’an University of Science and Technology, specializing in quantum materials and spintronics. Her research focuses on quantum spin devices and topological superconductivity, employing advanced first-principles calculations using VASP and Quantum ESPRESSO, Wannier-based tight-binding models, and model Hamiltonian approaches to explore spin filtering, strong electronic correlations, and topological phase transitions in low-dimensional systems. She has significantly contributed to understanding how external electric fields and chemical potential tuning via controlled doping can induce single-direction spin filtering and modulate superconducting phases, providing a foundation for energy-efficient spintronic and quantum devices. Her publications in high-impact journals such as Materials Today Physics and Advanced Theory and Simulations present pioneering insights into correlation-driven superconductivity, spin-dependent transport, and novel diode functionalities in quantum materials. Zhao has participated in multiple ongoing and completed research projects, demonstrating strong analytical and collaborative skills within her research group. Her work bridges theoretical discovery with device-level design principles, contributing to global advancements in low-power, high-performance quantum technologies. Through her computational expertise and focus on spin–orbit coupling, Berry curvature, and phonon stability, she aims to accelerate the realization of scalable quantum materials and spintronic architectures with societal impact in sustainable information processing. (Employment: Xi’an University of Science and Technology, Xi’an, China; Works: 2)

Profiles: ORCID

Featured Publications

Zhao, J., Yan, Z., Kong, J., Wang, Y., Xiong, K., Qi, C., & Wang, Z. (2025, December). Strong electronic correlation-driven topological superconductivity and exotic transport properties in ZrCl monolayer. Materials Today Physics.

Liang, X., Yan, Z., Kong, J., Zhao, Z., Zhao, J., Wang, Y., Qi, C., Wang, Z., & Zhao, J. (2025, July). Performing of spin‐dependent diodes in Co‐doped SiC bilayer by fully epitaxial magnetic tunnel junctions. Advanced Theory and Simulations.

Mr. Jinghua Zhao’s research in quantum materials and spintronics advances the scientific foundation for next-generation quantum and spin-based computing technologies. Her innovative work on spin filtering and topological superconductivity contributes to the development of ultra-efficient, low-power electronic devices, driving global innovation in sustainable information processing and advanced material design.

Muhammad Usman Khalid | Food Science | Best Paper Award

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Dr. Muhammad Usman Khalid | Food Science | Best Paper Award

Assistant Professor | Bahauddin Zakariya University | Pakistan

Dr. Muhammad Usman Khalid is a distinguished researcher in Food Science and Technology, recognized for his contributions to functional foods, nutraceuticals, and food safety. His work focuses on the exploration of bioactive compounds from medicinal plants such as Withania somnifera, Fagonia arabica, and Tribulus terrestris, emphasizing their therapeutic, antioxidant, and nutraceutical potentials. Through advanced analytical and molecular approaches, he has investigated the nutritional, rheological, and pharmacological properties of natural products, contributing to the development of sustainable food innovations and health-promoting formulations. Dr. Khalid has authored and co-authored several publications in prestigious international journals, including the Journal of Food Processing and Preservation, Natural Product Research, Applied Food Research, Food Science & Nutrition, Toxicology Research, and LWT – Food Science and Technology. His research collaborations extend globally with multidisciplinary teams focusing on food biochemistry, safety, and quality improvement. Beyond research, he has been actively involved in academic teaching, scientific writing, and organizing national and international workshops to promote professional development in food science and nutrition. His scholarly achievements have been recognized through numerous certificates of appreciation, conference participations, and awards highlighting his commitment to advancing food security and public health. Dr. Khalid’s research reflects a profound dedication to bridging traditional ethnomedicine with modern food technologies, aiming to enhance global nutritional resilience. His publications collectively demonstrate expertise in food chemistry, product development, and molecular docking analysis of phytoconstituents with potential therapeutic significance. His membership in professional societies and active engagement in scientific networks underscore his collaborative spirit and leadership within the field. His research continues to inspire innovation at the intersection of food science, health, and sustainability, contributing meaningfully to academia and industry alike. With an established research record comprising 10 indexed publications, 25 citations, and an h-index of 3, Dr. Khalid continues to contribute meaningfully to the global scientific community through impactful, interdisciplinary research.

Profiles: Scopus | ORCID

Featured Publications

1. Arif, A., Sultan, M. T., Nazir, F., Ahmad, K., Kashif, M., Ahmad, M. M., Shehzad, F. K., Mushtaq, S., Khalid, M. U., Noman, A. M., Raza, H., Israr, M., Sohail, H., & Rocha, J. M. (2024). Exploring the therapeutic potential of Caralluma fimbriata for antioxidant and diabetes management: A 28-day rat model study. Toxicology Research, 13(4), tfae094.

2. Bartkiene, E., Klupsaite, D., Starkute, V., Mockus, E., Bartkevics, V., Ruibys, R., Batkeviciute, G., Ozogul, F., Khalid, M. U., & Rocha, J. M. (2024). Characteristics of lacto-fermented whey, milk, hemp and lupine proteins. LWT, 201, 116259.

3. Perveen, S., Sultan, M. T., Amir, M., & Khalid, M. U. (2023). Moringa (Moringa oleifera): Multi-functional role in management of malnutrition and health promotion. In Neglected Plant Foods of South Asia: Exploring and valorizing nature to feed hunger (pp. 301–317). Springer.

4. Younis, M., Afzal, K., Sultan, M. T., Rabail, R., Akhtar, S., Ismail, T., Khalid, M. U., Shabbir, M. A., & Aadil, R. M. (2023). Quality characteristics of Purslane (Portulaca oleracea L.) leaf and stem powder-supplemented cupcakes. Journal of Food Quality, 2023(1), 1329249.

Dr. Muhammad Usman Khalid’s research bridges traditional ethnomedicine and modern food science, advancing the development of functional foods and nutraceuticals that promote public health and disease prevention. His innovative work contributes to global food security, sustainability, and the nutraceutical industry by translating bioactive plant compounds into scientifically validated, health-promoting products.

Khuangul Khimersen | Polymers | Best Researcher Award

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Mrs. Khuangul Khimersen | Polymers | Best Researcher Award

Research Assistant | Bekturov Institute of Chemical Sciences | Kazakhstan

Dr. Khimersen Khuangul is an experienced specialist in the field of chemistry and physical chemistry of high-molecular compounds, polyelectrolytes, functional polymers, polymer networks, and hydrogels. She has made significant contributions to the synthesis and development of polymer systems and selective sorbents for the recovery of various ions from technological solutions. Her scientific output includes about 12 publications in Web of Science and Scopus, 8 patents for utility models in joint authorship, 40 citations, and an h-index of 4, reflecting her growing influence in polymer science. Dr. Khuangul has presented her research at several international conferences, including the Uzbek-Kazakh symposium “Modern issues of polymer science” and the International Scientific and Practical Conference of the CIS Member States on Chemistry and Chemical Technology. Her work focuses on the physical chemistry of polymers, polyelectrolytes, functional polymers, and the design and application of polymer networks and hydrogels. Through her publications, patents, conference presentations, collaborative projects, and development of selective polymer systems, Dr. Khimersen Khuangul has made substantial contributions to advancing polymer science and functional materials, demonstrating innovation, technical expertise, and significant impact in her field.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Jumadilov, T., Totkhuskyzy, B., Malimbayeva, Z., Kondaurov, R., Imangazy, A., & Khimersen, K. (2021). Impact of neodymium and scandium ionic radii on sorption dynamics of Amberlite IR120 and AB-17-8 remote interaction. Materials, 14(18), 5402.

2. Jumadilov, T., Khimersen, K., Totkhuskyzy, B., & Haponiuk, J. (2021). Adsorption methods for the extraction and separation of rare earth elements: Review. Kompleksnoe Ispolzovanie Mineralnogo Syra = Complex Use of Mineral Resources, 12, 2021.

3. Jumadilov, T., Khimersen, K., Malimbayeva, Z., & Kondaurov, R. (2021). Effective sorption of europium ions by interpolymer system based on industrial ion-exchanger resins Amberlite IR120 and AB-17-8. Materials, 14(14), 3837.

4. Jumadilov, T., Malimbayeva, Z., Khimersen, K., Saparbekova, I., Imangazy, A., & Kondaurov, R. (2021). Specific features of praseodymium extraction by intergel system based on polyacrylic acid and poly-4-vinylpyridine hydrogels. Bulletin of Karaganda University. Chemistry Series, 103(3), 53–59.

Dr. Khimersen Khuangul’s research on functional polymers and polymer networks has advanced the development of highly selective sorbent systems. Her work enables efficient ion recovery, supporting sustainable materials and environmental protection. It addresses critical challenges in industrial and technological applications. Overall, her contributions drive innovation and have significant global impact in polymer science.

 

Muhammad Fatih | Metallurgy | Best Researcher Award

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Mr. Muhammad Fatih | Metallurgy | Best Researcher Award

Graduate Researcher | National Taiwan University | Indonesia

Mr. Muhammad Rizqi Ramadhan Fatih is an accomplished materials scientist and semiconductor enthusiast currently pursuing his Master’s degree in Materials Science and Engineering at the National Taiwan University, building upon a strong academic foundation in Metallurgical Engineering from the Bandung Institute of Technology. His academic and research journey is centered on exploring the microstructural and mechanical properties of metallic alloys, particularly focusing on the effects of deep cryogenic treatment and tempering on martensitic stainless steels. His research emphasizes enhancing the performance, sustainability, and industrial applicability of advanced metal systems for semiconductor and engineering applications. Professionally, Fatih has demonstrated technical expertise and leadership as an Assistant Research Project Engineer at Walsin Lihwa, where he investigated the effect of carbide formation on the performance of stainless steel self-tapping screws. Prior to this, he served as a Project Engineer at National Oilwell Varco Indonesia, where he managed pressure vessel and heat exchanger fabrication projects, coordinated with clients, ensured compliance with ASME BPVC standards, and maintained rigorous QA/QC protocols. His ability to combine practical engineering experience with research-driven innovation distinguishes his contributions to materials science and applied engineering. Fatih’s research excellence is further reflected in his publication in the Journal of Materials (MDPI), which examines cryogenic treatment and tempering duration effects on stainless steels. He received an Honorable Mention at the Walsin Lihwa Exchange Poster Competition for pioneering work on cryogenic processing for improved material integrity and sustainability. Technically proficient in advanced characterization techniques such as SEM, TEM, and XRD, and skilled in tools like AutoCAD, SolidWorks, and OriginPro, Fatih exemplifies analytical precision and problem-solving acumen. Multilingual and globally oriented, he continues to pursue research that bridges metallurgy and semiconductor materials innovation. His growing academic impact is evidenced by 1 citation, 4 documents, and an h-index of 1, marking him as a promising researcher in materials engineering.

Profiles: Scopus | ORCID

Featured Publication

1. Fatih, M. R. R. (2025). The effect of cryogenic treatment and tempering duration on the microstructure and mechanical properties of martensitic stainless steel 13Cr–2Ni–2Mo. Materials, MDPI.

Dhekra Ben Amara | Circular Economy | Best Researcher Award

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Dr. Dhekra Ben Amara | Circular Economy | Best Researcher Award

Associate Professor | Qingdao Hengxing University of Science and Technology | China

Dr. Dhekra Ben Amara is an accomplished Associate Professor at Qingdao Hengxing University of Science and Technology, China, and a Postdoctoral Researcher in the Department of Geography and Environmental Science at Henan University, with expertise in Agricultural and Environmental Economics. She earned her Ph.D. in Agricultural Economics and Management from Northeast Forestry University, Harbin, China; an M.Sc. in Economy of Agriculture, Agri-food, and Environment; and an Engineering degree in Agricultural and Agri-food Economics and Management from the National Agronomic Institute of Tunisia, in addition to a Diploma in Biology–Geology Engineering Studies from the Faculty of Sciences of Tunis. Dr. Ben Amara’s academic journey reflects her deep commitment to sustainability science, eco-innovation, and green growth. Her research focuses on the intersections of climate change, circular economy, environmental policy, and green finance, using advanced econometric modeling to identify pathways for sustainable development. She has published extensively in leading journals, including Journal of Cleaner Production, Sustainable Development, Environment, Development and Sustainability, and Journal of Environmental Management. Beyond research, she has contributed to international projects such as the China–Tunisia collaboration on biomass valorization and bio-circular economy models. Her professional achievements include serving as a Reviewing Editor with Springer Nature Reviewer Communities and receiving multiple honors, such as the Best Researcher Award in Environmental Science and the Outstanding Graduate Award from Northeast Forestry University. Demonstrating strong academic influence and research productivity, Dr. Ben Amara has achieved 248 citations, 13 indexed documents, and an h-index of 8.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Ben Amara, D., & Chen, H. (2020). A mediation–moderation model of environmental and eco-innovation orientation for sustainable business growth. Environmental Science and Pollution Research, 27(14), 16916–16928.

2. Ben Amara, D., & Chen, H. (2022). Driving factors for eco-innovation orientation: Meeting sustainable growth in Tunisian agribusiness. International Entrepreneurship and Management Journal, 18(2), 713–732.

3. Ben Amara, D., & Qiao, J. (2023). From economic growth to inclusive green growth: How do carbon emissions, eco-innovation, and international collaboration develop economic growth and tackle climate change? Journal of Cleaner Production, 425, 138986.

4. Ben Amara, D., & Chen, H. (2020). Investigating the effect of multidimensional network capability and eco-innovation orientation for sustainable performance. Clean Technologies and Environmental Policy, 22(6), 1297–1309. 0

5. Ben Amara, D., & Chen, H. (2021). The impact of participative decision-making on eco-innovation capability: The mediating role of motivational eco-innovation factors. Environment, Development and Sustainability, 23(5), 6966–6986.