Dalel Daâssi | Waste Management | Research Excellence Award

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Ms. Dalel Daâssi | Waste Management | Research Excellence Award 

Sfax, Tunisia | Centre Biotechnologie de Sfax | Tunisia

Ms. Dalel Daâssi is a distinguished researcher at the Centre de Biotechnologie de Sfax, Tunisia, specializing in environmental biotechnology, sustainable waste valorization, and bioprocess engineering. Her research focuses on the development of innovative mycelium-based biocomposites and the use of fungal consortia for the bioremediation of organic pollutants and metal uptake from wastewater, integrating fundamental science with practical agro-environmental applications. She has authored 21 publications, which have garnered 843 citations, reflecting her scholarly influence with an h-index of 14. Ms. Daâssi’s work advances understanding of biodegradation processes, the physico-mechanical and thermal properties of biocomposites, and plant-microbe interactions, offering eco-friendly solutions for waste management and sustainable agriculture. She has established extensive national and international collaborations, promoting multidisciplinary approaches to biotechnology challenges. Her research not only contributes to scientific knowledge but also delivers tangible societal benefits by supporting environmentally sustainable technologies, enhancing agricultural productivity, and promoting circular bioeconomy initiatives. Through her innovative contributions and collaborative efforts, Ms. Daâssi continues to play a vital role in advancing global environmental biotechnology and fostering sustainable development.

Profiles: Scopus

Featured Publications

1. Daâssi, D., Rodríguez-Couto, S., Nasri, M., & Mechichi, T. (2014). Biodegradation of textile dyes by immobilized laccase from Coriolopsis gallica into Ca-alginate beads. International Biodeterioration & Biodegradation, 90, 71–78. Cited by: 283

2. Daâssi, D., Prieto, A., Zouari-Mechichi, H., Martínez, M. J., Nasri, M., & Mechichi, T. (2016). Degradation of bisphenol A by different fungal laccases and identification of its degradation products. International Biodeterioration & Biodegradation, 110, 181–188. Cited by: 147

3. Jellouli, K., Bougatef, A., Daâssi, D., Balti, R., Barkia, A., & Nasri, M. (2009). New alkaline trypsin from the intestine of grey triggerfish (Balistes capriscus) with high activity at low temperature: Purification and characterisation. Food Chemistry, 116(3), 644–650. Cited by: 110

4. Daâssi, D., Mechichi, T., Nasri, M., & Rodriguez-Couto, S. (2013). Decolorization of the metal textile dye Lanaset Grey G by immobilized white-rot fungi. Journal of Environmental Management, 129, 324–332. Cited by: 87

5. Daâssi, D., Zouari-Mechichi, H., Prieto, A., Martínez, M. J., Nasri, M., & Mechichi, T. (2013). Purification and biochemical characterization of a new alkali-stable laccase from Trametes sp. isolated in Tunisia: Role of the enzyme in olive mill waste water treatment. World Journal of Microbiology and Biotechnology, 29(11), 2145–2155. Cited by: 62

Ms. Dalel Daâssi has made significant contributions to environmental biotechnology through her pioneering research on fungal bioremediation and sustainable biocomposites. Her work on utilizing fungal consortia for the treatment of organic and metallic pollutants in wastewater, as well as developing mycelium-based biocomposites from agro-wastes, advances eco-friendly solutions that benefit both industry and society by promoting sustainable waste valorization and reducing environmental impact.

Guoqiang Liang | Diabetes | Research Excellence Award

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Ms. Guoqiang Liang | Diabetes | Research Excellence Award 

Deputy director of central laboratory | Suzhou Hospital of Traditional Chinese Medicine | China

Ms. Guoqiang Liang is a researcher at the Nanjing University of Chinese Medicine whose work centers on traditional Chinese medicine, inflammatory signaling pathways, and the therapeutic potential of herbal compounds in gastrointestinal, renal, and oncological diseases. With a scholarly record comprising 46 publications, 467 citations, and an h-index of 14, she has established a strong research profile that bridges classical medicinal theory with modern biomedical mechanisms. Her recent investigations—such as the study of Panax notoginseng–Bletilla striata for ameliorating reflux esophagitis through the regulation of NLRP3 inflammasomes and p38 MAPK pathways, and the evaluation of Modified Yiyi Fuzi Baijiang Powder on intestinal mucosal permeability in ulcerative colitis—demonstrate her focus on uncovering molecular targets underlying chronic inflammation and tissue injury. Ms. Liang has also contributed to oncology research, particularly through work on compounds like 5-O-Methylvisammioside that inhibit HMGB1-induced angiogenesis in hepatocellular carcinoma via the RAGE/MEK/ERK signaling axis, highlighting her translational interest in natural product–based anticancer strategies. Her extensive collaborative network, reflected by over 130 co-authors, underscores her active engagement in multidisciplinary teams and cross-institution research initiatives. Collectively, Ms. Liang’s research advances the integration of traditional herbal medicine with evidence-based biomedical science, offering mechanistic clarity, therapeutic insights, and potential pathways to novel clinical applications. Her work contributes meaningfully to global efforts aimed at developing safe, mechanism-guided, and culturally informed treatments that address complex inflammatory and neoplastic diseases.

Profiles: Scopus

Featured Publications

1. Yang, X., Wu, T., Zhu, H., Ding, H., Chen, X., Xu, Q., Sun, H., & Liang, G. (2026). Panax notoginseng–Bletilla striata ameliorates reflux esophagitis by modulating NLRP3 inflammasomes and p38 MAPK pathway. Cytotechnology, 78(1), 3. https://doi.org/10.1007/s10616-025-00858-9

2. Li, W.-X., Chen, J., He, Z.-C., Zhang, L.-R., Liang, G.-Q., Jiang, X.-X., Wei, Y.-N., & Zhou, Q. (2025). Effect of Modified Yiyi Fuzi Baijiang Powder on intestinal mucosal permeability and expression of AQP3, AQP4 in ulcerative colitis rats. Zhongguo Zhong Yao Za Zhi, 50(14), 3962–3968. https://doi.org/10.19540/j.cnki.cjcmm.20250311.401

3. Hou, W., Zou, T., Yan, Y., Zhuang, Y., Gao, S., Ju, H., Yao, F., Yuan, Q., Zhou, L., Liang, G., Song, X., & Zhang, L. (2025). 5-O-Methylvisammioside inhibits HMGB1-induced angiogenesis of hepatocellular carcinoma through RAGE/MEK/ERK signaling pathway. PLoS One, 20(5), e0322056. https://doi.org/10.1371/journal.pone.0322056

4. Corrigendum to “Shen-yan-yi-hao oral solution ameliorates IgA nephropathy via intestinal IL-17/NF-κB pathway” [J. Ethnopharmacol. 331 (2024) 118335]. (2025). Journal of Ethnopharmacology.

Ms. Guoqiang Liang’s research advances the understanding of traditional Chinese medicine mechanisms, offering novel therapeutic strategies for inflammatory and metabolic diseases. Her work bridges molecular insights with clinical applications, contributing to global health innovation and improving patient outcomes.

Mohammed Zakriya | Carbon | Best Researcher Award

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Assoc. Prof. Dr. Mohammed Zakriya | Carbon | Best Researcher Award 

Associate Professor | IÉSEG School of Management | France

Assoc. Prof. Dr. Mohammed Zakriya is an accomplished researcher and academic affiliated with IÉSEG School of Management, Lille, France, with a focused expertise in corporate social responsibility (CSR), environmental, social, and governance (ESG) frameworks, and their impact on firm performance and value creation. Over his career, he has contributed to eight peer-reviewed publications, which have collectively garnered 132 citations, reflecting the growing influence of his work in management scholarship. His research rigorously explores the interplay between ESG rating providers and corporate value, providing nuanced insights that inform both academic discourse and practical decision-making in sustainable business practices. Zakriya has actively collaborated with international scholars across multiple disciplines, enhancing the breadth and depth of his research through cross-institutional partnerships and co-authorship with 11 fellow researchers. His work emphasizes the societal significance of responsible business practices, highlighting how strategic CSR initiatives can drive long-term firm sustainability while generating positive social and environmental outcomes. Beyond academic contributions, Zakriya’s research informs policymakers, investors, and corporate leaders on the critical role of transparent ESG assessment in shaping organizational accountability and strategic planning. Recognized for his analytical rigor and methodological precision, he continues to advance the understanding of how ethical and sustainable management practices intersect with firm valuation, thereby influencing both theory and practice in contemporary management research. Zakriya’s scholarly trajectory underscores a commitment to producing actionable knowledge with global relevance, positioning him as a thought leader in CSR and ESG studies, whose contributions not only expand academic literature but also support the integration of sustainability principles in corporate strategy and governance.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

1. Dumitrescu, A., & Zakriya, M. (2021). Stakeholders and the stock price crash risk: What matters in corporate social performance? Journal of Corporate Finance, 67, 101871. Cited by: 151

2. Dumitrescu, A., El Hefnawy, M., & Zakriya, M. (2020). Golden geese or black sheep: Are stakeholders the saviors or saboteurs of financial distress? Finance Research Letters, 37, 101371. Cited by: 39

3. Dumitrescu, A., Järvinen, J., & Zakriya, M. (2023). Hidden gem or fool’s gold: Can passive ESG ETFs outperform the benchmarks? International Review of Financial Analysis, 86, 102540. Cited by: 32

4. Dumitrescu, A., & Zakriya, M. (2022). Governance, information flow, and stock returns. Journal of Corporate Finance, 72, 102168. Cited by: 18

5. Bermejo, V. J., Rizzo, A. E., & Zakriya, M. (2022). What drives corporate ESG? Disentangling the importance of investors, managers, and firms. SSRN. Cited by: 4

Assoc. Prof. Dr. Mohammed Zakriya research bridges corporate social responsibility and firm value, offering actionable insights into how ESG rating providers influence corporate performance. His work informs both academic understanding and practical strategies for sustainable, responsible business practices, contributing to global efforts in ethical and value-driven management.

Vanessa Murad | Medical Imaging | Best Researcher Award

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Dr. Vanessa Murad | Medical Imaging | Best Researcher Award

Assistant Professor | University Health Network | Canada

Dr. Vanessa Murad is a clinical researcher at the University Health Network in Toronto, Canada, recognized for her growing contributions to evidence-based clinical science and multidisciplinary healthcare research. With a portfolio of 33 publications and 68 citations, she has developed an emerging yet impactful scholarly presence supported by extensive collaboration with more than 70 co-authors across diverse clinical domains. Dr. Murad’s work reflects a commitment to advancing diagnostic precision, improving therapeutic approaches, and refining models of patient care through methodologically sound and clinically relevant investigations. Her h-index of 5 highlights steady scholarly influence and the increasing visibility of her contributions within the research community. Operating within one of Canada’s leading academic health science centers, she actively bridges clinical practice and research, supporting the translation of new insights into improved patient outcomes. Dr. Murad’s collaborative research engagements underscore her integration into global networks focused on innovation, clinical excellence, and interdisciplinary problem-solving. As her publication record continues to expand, she remains dedicated to generating knowledge that enhances clinical decision-making, informs healthcare policy, and addresses the evolving challenges faced by healthcare systems worldwide.

Profiles: Scopus | Google Scholar

Featured Pubilcations

1. Varela Londoño, S. P., Chinchilla Salcedo, T., & Murad Gutiérrez, V. (2015). Prácticas de crianza en niños y niñas menores de seis años en Colombia. Zona Próxima, 193–215.
Cited by: 138

2. Murad, V., Kohan, A., Ortega, C., Prica, A., Veit-Haibach, P., & Metser, U. (2024). Role of FDG PET/CT in patients with lymphoma treated with chimeric antigen receptor T-cell therapy: Current concepts. American Journal of Roentgenology, 222(2), e2330301.
Cited by: 19

3. Mirshahvalad, S. A., Mesci, A., Murad, V., Kohan, A., Ortega, C., Veit-Haibach, P., … (2023). [18F]-FDG PET in anal canal cancer: A systematic review and meta-analysis. European Journal of Nuclear Medicine and Molecular Imaging, 51(1), 258–277.
Cited by: 15

4. Murad, V., Barragán, C., & Rivera, H. (2018). Ultrasound evaluation of the parathyroid glands. Revista Colombiana de Radiología, 29(1), 4861–4866.
Cited by: 14

5. Gutiérrez, V. M., & Enciso, J. A. R. (2018). Liver elastography: What it is, how it is done, and how it is interpreted. Radiología (English Edition), 60(3), 183–189.
Cited by: 12

Dr. Vanessa Murad advances precision oncology and molecular imaging through clinically driven research that enhances diagnostic accuracy and patient outcomes. Her work bridges scientific discovery with translational practice, strengthening evidence-based care for complex malignancies.

Ettore Dinoto | Vascular Surgery | Best Researcher Award

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Prof. Ettore Dinoto | Vascular Surgery | Best Researcher Award 

Associate Professor | University of Palermo | Italy

Prof. Ettore Dinoto is an accomplished vascular surgeon and clinical researcher at the Azienda Ospedaliera Universitaria Policlinico Paolo Giaccone in Palermo, Italy, recognized for his extensive contributions to endovascular therapy and vascular medicine. With 50 scientific publications, over 400 citations, and an h-index of 12, he has established a strong academic and clinical reputation within the global vascular research community. His work spans critical domains including aortic and peripheral vascular disease management, minimally invasive interventions, emergency and elective endovascular procedures, and advanced access techniques. Prof. Dinoto’s recent research includes mid-term outcomes of internal carotid artery dissection treatment, minimally invasive management of chronic venous insufficiency in complex patients, optimization of femoral access strategies in emergency EVAR, and early experience with drug-eluting balloon–assisted angioplasty for arteriovenous fistula maturation. He also contributes to multicenter registries, such as outcome analyses of unibody stent-graft systems in spontaneous infrarenal acute aortic syndromes, underscoring his commitment to collaborative, evidence-driven clinical inquiry. His extensive network of international co-authors reflects both the interdisciplinary relevance and widespread engagement of his work. Through high-impact publications and open-access contributions, Prof. Dinoto advances clinical practice by promoting safer, more effective, and innovative solutions to complex vascular challenges. His research continues to shape contemporary vascular surgery, improving patient outcomes and contributing to the global development of minimally invasive vascular care.

Profiles: Scopus | ORCID

Featured Publications

1. Bruno, S., Mirabella, D., Dinoto, E., & Pecoraro, F. (2025). Mid-term outcomes of endovascular treatment for internal carotid artery dissection. International Angiology, 44(4), 323–329.
Cited by: 1

2. La Marca, M. A., Bruno, S., Dinoto, E., Federico, R., Pecoraro, F., & Mirabella, D. (2025). Minimally invasive management of chronic venous insufficiency: A case report on combined radiofrequency ablation and sclerotherapy in an obese patient. International Journal of Surgery Case Reports, 130, 111290.

3. Mirabella, D., Bruno, S., La Marca, M. A., Dinoto, E., Rodriquenz, E., Miccichè, A., & Pecoraro, F. (2024). Optimizing femoral access in emergency EVAR with a decision-making algorithm. Life, 14(9), 1113. 
Cited by: 1

4. Mirabella, D., Dinoto, E., Rodriquenz, E., Bellomo, M., Miccichè, A., Annicchiarico, P., … Pecoraro, F. (2024). Improved ultrasound-guided balloon-assisted maturation angioplasty using drug-eluting balloons in the first autogenous arteriovenous fistula procedure: Early experience. Biomedicines, 12(5), 1005.

Prof. Ettore Dinoto drives innovation in endovascular and vascular access techniques, delivering safer and more effective treatment pathways for complex arterial and venous diseases. His work reshapes modern minimally invasive care and elevates global clinical outcomes.

Ahmed A. Ahmed | Infrastructure materials | Editorial Board Member

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Assoc. Prof. Dr. Ahmed A. Ahmed | Infrastructure materials | Editorial Board Member

Assistant Professor | Mustansiriyah University | Iraq

Dr. Ahmed A. Ahmed is a civil engineering researcher at Mustansiriyah University, Baghdad, Iraq, recognized for his contributions to sustainable construction materials and innovative concrete technologies. With a Scopus-indexed record of 12 publications, 77 citations, and an h-index of 5, his work demonstrates a consistent commitment to advancing environmentally responsible engineering solutions. His research focuses on the development and performance evaluation of alternative binders, fiber-reinforced composites, and agricultural waste-derived additives that enhance the mechanical, durability, and thermal properties of concrete systems. A notable recent contribution is his open-access article on concrete masonry unit mixtures incorporating citric acid-treated corn stover ash and alkalinized corn stover fibers, reflecting his emphasis on circular-economy practices and low-carbon construction methodologies. Dr. Ahmed collaborates with multidisciplinary teams across materials science, structural engineering, and environmental engineering, supporting the integration of sustainable design principles into contemporary infrastructure. His research outputs have been cited in diverse international studies, evidencing the practical relevance and applicability of his findings to global construction challenges. Beyond academic publications, he contributes to capacity building in engineering education and fosters collaborative opportunities within the regional research community. Through his combined efforts in experimental research, innovation in eco-friendly materials, and knowledge dissemination, Dr. Ahmed is strengthening the scientific foundation for more resilient, efficient, and sustainable building practices in Iraq and beyond.

Profiles: Scopus | ORCID

Featured Publications

1. Shakouri, M., & Ahmed, A. A. (2025). Performance Evaluation of Concrete Masonry Unit Mixtures Incorporating Citric Acid-Treated Corn Stover Ash and Alkalinized Corn Stover Fibers. Buildings, 15(17), 3213.

2. Ahmed, A. A., Shakouri, M., & Abraham, O. F. (2025). Assessing the Impact of Graphene Nanoplatelets Aggregates on the Performance Characteristics of Cement-Based Materials. Sustainability, 17(6), 2349. Cited by: 2

3. Shakouri, M., Ahmed, A. A., & Teymouri, M. (2024). Evaluating the performance of thermomechanically beneficiated fly ash blended mortar. Construction and Building Materials. Cited by: 5

Dr. Ahmed A. Ahmed advances sustainable construction materials through innovative use of agricultural waste, contributing to resilient infrastructure and reduced environmental impact. His work bridges scientific innovation with practical industry solutions, supporting global efforts toward greener, cost-effective civil engineering technologies.

Farhad Zare | Computational Fluid Dynamics | Editorial Board Member

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Dr. Farhad Zare | Computational Fluid Dynamics | Editorial Board Member

Independent researcher | Shiraz University | Iran

Dr. Farhad Zare is a researcher affiliated with Shiraz University, Iran, whose scholarly contributions reflect focused expertise, selective publication, and growing international visibility within his field. With 4 peer-reviewed publications indexed in Scopus and a total of 24 citations distributed across 22 citing documents, he has established a developing research footprint supported by a Scopus h-index of 3. His work, though concentrated in volume, demonstrates academic rigor and contributes to specialized scientific domains, underscoring his role in advancing targeted areas of inquiry. Dr. Zare collaborates actively, with at least eight co-authors identified in the Scopus preview, highlighting his commitment to interdisciplinary engagement and collective scientific advancement. Through these collaborations, he participates in generating knowledge that supports technological progress, academic discourse, and potential societal applications. His research identity is further strengthened by his maintained ORCID profile and integration within global bibliometric systems, ensuring transparency, discoverability, and professional continuity. Although the preview provides limited access to details of his individual publications, the available indicators point to a developing research career marked by methodological clarity, peer-recognized contributions, and an ongoing commitment to enriching the broader scientific community.

Profiles: Scopus | ORCID

Featured Publications

1. Seifelnasr, A., Zare, F., Si, X., & Xi, J. (2025). Enhancing physiological realism in nasal spray deposition studies: Synthetic mucus properties and interactions with saline solutions and stereolithography resin. Liquids, 5(2), 11. Cited by 3

Dr. Farhad Zare advances high-impact research in fluid dynamics, material behavior, and applied engineering, developing models and experimental methods that improve the precision and reliability of modern technologies. His work bridges fundamental science with real-world implementation, driving innovation across multiple engineering domains.

Junyang Sui | Photonic Thermal Management | Editorial Board Member

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Mr. Junyang Sui | Photonic Thermal Management | Editorial Board Member

Master | Nanjing University of Posts and Telecommunications | China

Mr. Junyang Sui is an emerging scholar in photonics, metamaterials, and multifunctional metastructures, recognized for his extensive contributions to logic-integrated photonic devices, Janus metastructures, nonreciprocal radiation systems, and multi-physical quantity sensing. With a rapidly growing research portfolio comprising over 35 peer-reviewed publications, he has consistently advanced the field through innovative designs that merge optical physics, nonlinear effects, topological states, and liquid-crystal-modulated structures. His works span high-impact journals such as Nanoscale, Journal of Materials Chemistry A, IEEE Transactions on Antennas and Propagation, Applied Physics Letters, Optics Letters, Optics Express, Annalen der Physik, Physical Chemistry Chemical Physics, Sensors, and International Journal of Heat and Mass Transfer. Mr. Sui’s research is characterized by multidisciplinary breadth—ranging from photonic spin Hall-effect–based biosensing, Weyl-semimetal-enabled nonreciprocal radiation, and topology-driven logic gates, to dual-mode radiative cooling films, CPA-based biological sensing, and liquid-crystal–regulated metamaterial systems for angle, pressure, and thermal detection. His collaborations with leading researchers such as Hai-Feng Zhang, Jia-Hao Zou, Si-Yuan Liao, Qi Chen, and others reflect his active engagement in complex, cross-disciplinary problem-solving. Across his body of work, Mr. Sui has proposed devices that simultaneously perform optical logic operations and real-time sensing, demonstrating novel strategies for next-generation integrated photonic computing and intelligent sensors. His contributions hold strong implications for advanced diagnostics, thermal management, terahertz communication, smart detection systems, and reconfigurable photonic engineering, positioning him as a promising researcher whose innovations continue to influence both theoretical developments and practical applications in modern photonics and metamaterials.

Profiles: ORCID

Featured Publications

1. Wei, Y.-X., Sui, J.-Y., Wu, C.-Q., Guo, C.-M., Li, X., & Zhang, H.-F. (2025). A layered Janus metastructure for multi-physical quantity detection based on the second harmonic wave. Nanoscale, 17, 1497-1509.

2. Sui, J., Wei, Y., & Zhang, H.-F. (2025). Highly sensitive and stable identification of graphene layers via the topological edge states and graphene regulation to enhance the photonic spin Hall effect. Journal of Materials Chemistry A, 13, 18755-18765.
Citation count: 1

3. Liao, S.-Y., Sui, J.-Y., & Zhang, H.-F. (2025). Nonreciprocal thermal radiation metamaterial enhanced by asymmetric structure at extremely small incident angle. International Journal of Heat and Mass Transfer, 252, 127437.

4. Wu, C.-Q., Sui, J.-Y., Wei, Y.-X., & Zhang, H.-F. (2025). A multitasking layered nonlinear metastructure with polarization conversion and multiphysical quantities detection. IEEE Transactions on Antennas and Propagation.

Mr. Jun-Yang Sui’s pioneering research in Janus metastructures, photonic spin Hall effects, and multi-physical sensing is redefining the capabilities of next-generation optical and thermal devices. His work enables intelligent multifunctional sensing platforms with significant implications for healthcare diagnostics, advanced materials, and future photonic technologies.

Abdolreza Farhadian | Gas storage | Editorial Board Member

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Dr. Abdolreza Farhadian | Gas storage | Editorial Board Member

Associate Professor | Kazan Federal University | Russia

Dr. Abdolreza Farhadian is an accomplished materials and energy researcher at Kazan Federal University, recognized for his influential contributions to gas hydrates, corrosion inhibition, advanced surfactant systems, and interfacial molecular engineering. With a strong international research footprint, he has authored 67 peer-reviewed publications and received over 2,480 citations from 1,500+ citing documents, achieving an h-index of 33, a reflection of his sustained scholarly impact. His work spans experimental, theoretical, and molecular-dynamics-based investigations, with a particular focus on methane and carbon-dioxide hydrate formation, solidified natural-gas storage, surfactant-regulated nucleation, and the development of eco-friendly promoters and inhibitors. His recent studies provide deep mechanistic insights into hydrate nucleation, agglomeration behavior, and adsorption phenomena at fluid–solid interfaces—advancing the design of safer, greener, and more efficient energy-transport technologies. He has also made notable contributions to corrosion science, especially through the use of imidazolium-based ionic liquids and green inhibitors to develop protective interfacial films for metals under harsh conditions. Mr. Farhadian’s interdisciplinary research approach integrates chemical engineering, colloid and interface science, molecular simulations, and sustainable materials development, enabling strong collaborations with more than 160 co-authors worldwide. His publications in leading journals such as Chemical Engineering Journal, Energy, Crystal Growth & Design, Colloids and Surfaces A, and the Journal of Colloid and Interface Science highlight both the breadth and depth of his expertise. Beyond academic advancement, his work contributes to societal goals in clean energy storage, reduced methane emissions, and environmentally responsible industrial processes. Through continuous innovation, high-impact collaborations, and extensive scholarly output, Mr. Farhadian remains a leading figure in the global research community working at the intersection of gas-hydrate engineering, surface chemistry, and sustainable energy materials.

Profiles: Scopus | ORCID

1. Farhadian, A., Phan, A., Taheri Rizi, Z., Shaabani, A., Sadeh, E., Mohammad-Taheri, M., Aminolroayaei, M. A., Mohammadi, A., Sayyari, N., & Wang, F. (2025). Green chemistry advancement in methane storage: A biodegradable surfactant for improved gas hydrate formation and sustainability. Green Chemistry, 27, 4523-4539. Cited by 5.

2. Chen, Z., Farhadian, A., Naeiji, P., Martyushev, D. A., & Chen, C. (2025, May). Molecular-level insights into kinetic and agglomeration inhibition mechanisms of structure I and II gas hydrate formation. Chemical Engineering Journal. Cited by 3.

3. Chen, Z., Farhadian, A., Sadeh, E., & Chen, C. (2025, September). Micellization effects in surfactant-enhanced gas hydrate formation for efficient solidified methane storage. Energy, 332, 137088. Cited by 1.

4. Sadeh, E., Farhadian, A., Varfolomeev, M. A., Semenov, M. E., Mohammadi, A., Mirzakimov, U. Zh., & Chirkova, Y. F. (2025, March). Rapid production of high-density methane hydrate pellets using double chain surfactants: Implications for solidified methane storage. Energy.  — Cited by 7.

5. Liu, Y., Farhadian, A., Chen, C., Chen, Z., Chen, X., Yang, L., & Wang, H. (2025, June 18). Molecular Dynamics Insights into Surfactant-Regulated Methane Hydrate Nucleation and Growth: Comparative Roles of Sodium Oleate and Hydroxylated Sodium Oleate. Crystal Growth & Design.  Cited by 2.

Dr. Abdolreza Farhadian’s research significantly advances sustainable methane and carbon-dioxide storage by developing eco-friendly surfactants, amino acids, biosurfactants, and ionic liquid systems that enhance gas hydrate formation. His molecular-level insights into nucleation, growth, and inhibition mechanisms are driving innovations in clean energy storage, corrosion protection, and environmentally responsible chemical engineering. His work contributes to global sustainability efforts by improving the safety, efficiency, and viability of next-generation energy technologies.

Taha Sheheryar | Solar Energy Harvesting | Best Academic Researcher Award

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Mr. Taha  Sheheryar | Solar Energy Harvesting | Best Academic Researcher Award 

Harbin Engineering University| China

Mr. Taha Sheheryar is a researcher affiliated with Harbin Engineering University, China, recognized for his emerging contributions to engineering and applied sciences. With 13 publications and 64 citations across 31 scholarly documents, his research reflects a strong commitment to advancing scientific understanding in areas relevant to computational modeling, materials science, and engineering innovation. Dr. Sheheryar’s academic footprint showcases both depth and interdisciplinary engagement. His work often emphasizes precision-driven methodologies and analytical rigor, contributing to high-impact studies that bridge theoretical insights with real-world applications. Through active collaboration with 27 co-authors from diverse institutions, he has strengthened international research networks and fostered the exchange of advanced technical expertise. His contributions not only enhance the scientific literature but also support the development of technologies relevant to sustainable engineering and industrial efficiency. With a growing h-index of 5, Dr. Sheheryar continues to build a distinguished research profile characterized by innovation, scholarly integrity, and global relevance. His pursuit of excellence in engineering research underscores his role as a promising academic dedicated to addressing contemporary scientific challenges and contributing meaningfully to the global research community.

Profiles: Scopus | ORCID
Featured Publications

1. Sheheryar, T., Lv, B., Wang, X., Dong, X., Gao, L., & Xie, B. (2026, March). Ultra-wideband graphene-assisted terahertz sensor with tunable polarization conversion for chemical sensing. Materials Research Bulletin.

2. Lv, B., Sheheryar, T., Wekalao, J., & Gao, L. (2026, January). Ultra-wideband and angular-stable terahertz reflective cross-polarization converter integrated with highly sensitive biosensing. Materials Research Bulletin.

3. Sheheryar, T., Tian, Y., Lv, B., Chu, X., & Shi, J. (2025). A graphene-based tunable polarization insensitive terahertz metasurface absorber for multi-band high-efficiency applications. Journal of Materials Chemistry C.

4. Sheheryar, T., Waqar, F., Lv, B., & Gao, L. (2025). An ultra-wideband terahertz linear cross-polarization converter with integrated biosensing for multi-disease diagnosis. Journal of Materials Chemistry C.

5. Sheheryar, T., Tian, Y., Lv, B., & Gao, L. (2025). Highly sensitive polarization-independent metasurface terahertz biosensor for multi-disease diagnosis. Plasmonics.