Abu Feyisa Meka | Industrial Biotechnology | Best Researcher Award

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Dr. Abu Feyisa Meka | Industrial Biotechnology | Best Researcher Award

Addis Ababa Science and Technology University, Ethiopia

Dr. Yuanyuan Zhang, M.D., Ph.D., is an Associate Professor at the Wake Forest Institute for Regenerative Medicine, where she plays a leading role in advancing tissue engineering and regenerative urology. With over four decades of experience in clinical and academic medicine, Dr. Zhang’s work bridges basic research and clinical application, particularly in the area of regenerative therapies for urological conditions. She is internationally recognized for her pioneering contributions to bladder tissue engineering, urologic biomaterials, and pediatric urology. Her multidisciplinary background—spanning China, New Zealand, Switzerland, and the United States—has equipped her with a global perspective and deep clinical insight, positioning her as a thought leader in translational medicine.

Profile

Scopus

Education

Dr. Zhang began her medical education in China, earning her M.D. equivalent in Medicine from Jiangxi Medical College, Nanchang University, in 1982. She furthered her education with an M.S. in Biological Sciences from the same institution in 1989, focusing on the protective effects of ginsenosides on renal ischemia. Her academic journey culminated in a Ph.D. in Biomedicine from the University of Lausanne in Switzerland in 2001, where she studied co-culture techniques for bladder tissue engineering under the mentorship of Dr. Peter Frey. Her training laid the foundation for a distinguished career in translational regenerative medicine.

Experience

Her extensive clinical training includes urology residency and fellowships in endourology and renal transplantation in leading hospitals across China, including Jiangxi Medical College and the Shanghai First People’s Hospital. Between 1993 and 1995, she gained international exposure as a Fellow in Renal Transplant/Urology and Nephrology at the University of Otago in New Zealand. She later pursued postdoctoral training at the University of Oklahoma Health Sciences Center, further cementing her commitment to pediatric urology and tissue engineering research.

Research

Professionally, Dr. Zhang has held a range of academic positions, beginning as an Assistant Professor and Attending Urologist at Jiangxi Medical College in China. Her research and teaching roles expanded in Europe and the United States, notably at the University of Lausanne and the University of Oklahoma. Since 2006, she has been affiliated with the Wake Forest Institute for Regenerative Medicine, where she was promoted to Associate Professor in 2018. Her leadership and academic service include active grant reviewing roles for NIH (NIDDK), the Sick Kids Foundation (Canada), and ZonMw (Netherlands), reflecting her international reputation and expertise in regenerative urology.

Research

Dr. Zhang’s research interests lie at the intersection of urology, tissue engineering, and regenerative medicine. She is particularly focused on the development of engineered urinary tract tissues and bladder augmentation techniques using biomaterials and stem cells. Her work has had significant implications for pediatric patients with congenital urologic disorders and those requiring bladder reconstruction. Her commitment to translational research is evident in her successful integration of basic science into preclinical and clinical applications, contributing to innovations in scaffold design, cell culture, and organ regeneration.

Awards

Over the years, Dr. Zhang has received recognition for her outstanding contributions. She has been invited to review research proposals for several prominent funding agencies, a testament to her standing in the biomedical research community. Her nominations for competitive national and international grant panels highlight her scientific integrity and leadership in the field of regenerative urology and biomaterials.

Publications

Dr. Zhang has authored numerous peer-reviewed publications, several of which are widely cited. Selected notable publications include:

  1. Zhang Y. et al. (2008). “Tissue engineering of bladder constructs: A comparative study of urothelial cell sources.” Biomaterials, 29(25), 2825–2830. Cited by 412 articles.

  2. Zhang Y. et al. (2011). “A strategy for bladder tissue regeneration using autologous stem cells.” PNAS, 108(28), 11782–11787. Cited by 365 articles.

  3. Zhang Y. et al. (2005). “Urothelial differentiation of human bone marrow-derived stem cells on collagen scaffolds.” Journal of Urology, 173(6), 2046–2050. Cited by 297 articles.

  4. Zhang Y. et al. (2006). “Smooth muscle cell differentiation from bone marrow stem cells for bladder tissue engineering.” Tissue Engineering, 12(7), 1899–1910. Cited by 253 articles.

  5. Zhang Y. et al. (2010). “Engineered bladder tissues from stem cells for functional reconstruction.” Stem Cells and Development, 19(11), 1665–1675. Cited by 228 articles.

  6. Zhang Y. et al. (2014). “Development of a pre-vascularized scaffold for bladder regeneration.” Acta Biomaterialia, 10(7), 2763–2773. Cited by 180 articles.

  7. Zhang Y. et al. (2017). “Biomimetic approaches in bladder tissue regeneration: Current challenges and future perspectives.” Advanced Healthcare Materials, 6(3), 1600734. Cited by 142 articles.

Conclusion

In conclusion, Dr. Yuanyuan Zhang’s career exemplifies the integration of clinical excellence, innovative research, and academic leadership. Her dedication to improving patient outcomes through regenerative strategies has positioned her as a pivotal figure in the field of tissue engineering and urologic regeneration. Her work continues to influence the development of next-generation therapies and to inspire collaborative, cross-disciplinary innovations in biomedical science.

Ulises Durán | Environmental Biotechnology | Outstanding Scientist Award

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Dr. Ulises Durán | Environmental Biotechnology | Outstanding Scientist Award

Full Professor at Universidad Autónoma Metropolitana campus Iztapalapa, Mexico

Ulises Durán Hinojosa is a distinguished environmental biotechnology researcher with over fifteen years of dedicated academic and investigative contributions to the fields of anaerobic digestion, wastewater treatment, and organic waste bioconversion. Currently serving as a Full Professor at the Universidad Autónoma Metropolitana, campus Iztapalapa, he has earned national recognition as a leading scholar and innovator in microbial-driven environmental technologies. His work stands at the interface of applied microbiology and sustainable environmental engineering, focusing on the microbial, biochemical, and technological dynamics of organic waste treatment and resource recovery systems. He is consistently sought out as a principal investigator and collaborator in national and international projects that advance scientific understanding and address critical challenges in energy recovery and pollution reduction.

Profile

Scopus

Education

Dr. Durán’s academic journey is deeply rooted in the Universidad Autónoma Metropolitana, where he completed his BSc in Biochemical Engineering, MSc in Biotechnology, and PhD in Environmental Engineering. This academic continuity reflects his commitment to institutional growth and knowledge development. His training encompasses a multidisciplinary approach that bridges engineering, biotechnology, and environmental science, allowing him to develop a strong foundation for tackling complex environmental challenges through biological and chemical innovation.

Experience

Professionally, Durán has developed a robust research portfolio that integrates experimental science with practical environmental applications. He has led or collaborated in eight funded research projects focusing on sludge valorization, decentralized biowaste treatment systems, and electrochemical treatment methods. His editorial involvement includes serving as a guest editor for a 2025 special issue on “Biotechnology and Materials for Wastewater Treatment” in Applied Sciences and reviewing for high-impact journals such as Bioresource Technology, Environmental Technology, and the Journal of Water Process Engineering. His professional standing is further reinforced by his designation as a National Researcher, an acknowledgment of excellence in scientific output and impact in Mexico.

Research

Durán’s research interests are centered on anaerobic digestion and methanogenesis, with particular emphasis on hybrid biological reactor systems and the use of electrochemical pretreatments for enhanced sludge degradation. He is also known for his work on microbial community dynamics using metagenomics tools, enabling deeper insights into how environmental stressors, such as antibiotics, influence microbial ecology and reactor performance. His contributions to wastewater biotechnology extend to the optimization of microbial consortia for improved methane yield and pollutant removal, reinforcing his status as a pioneer in sustainable waste management practices.

Awards

In recognition of his pioneering work, Ulises Durán was nominated in 2025 for the International Award in Environmental Biotechnology Research. This nomination highlights his leadership in developing technologies that contribute to circular economy principles, energy recovery, and environmental resilience. His capacity to integrate academic research with practical applications has led to meaningful outcomes in public health and environmental sustainability.

Publications

Durán has authored or co-authored 18 JCR-indexed publications, with 12 appearing in Q1 journals. He has served as first or corresponding author in eight of these, demonstrating both scientific leadership and originality. Selected key publications include:

  1. Durán U., et al. (2025). “Microbial community shifts by antibiotic exposure in swine wastewater,” Journal of Water Process Engineering, IF: 6.3 – cited by 5 articles.

  2. Mendoza-Tinoco T.P., Durán U., et al. (2024). “Water electrolysis in anaerobic digestion,” Bioresource Technology, IF: 9.7 – cited by 12 articles.

  3. Ochoa-Hernández M.E., Durán U., et al. (2023). “Active microbiota in UASB and hybrid reactors,” Journal of Environmental Management, IF: 8.0 – cited by 10 articles.

  4. Durán U., et al. (2022). “Methanogenic inhibition by antibiotics,” Environmental Technology & Innovation, IF: 6.7 – cited by 8 articles.

  5. Durán U., et al. (2010). “Vinyl acetate in acetoclastic methanogenesis,” Bioresource Technology, IF: 9.7 – cited by 42 articles.

  6. Durán U., et al. (2019). “New technologies for emerging micropollutant removal,” in Topics on Water Contaminants and Pollution, Clave Editorial – cited by 7 articles.

  7. Durán U., et al. (2017). “Solid-State Fermentation for Lignocellulase Production,” in Fermentation Processes, InTech – cited by 15 articles.

Conclusion

In conclusion, Ulises Durán Hinojosa exemplifies the caliber of researcher deserving of international recognition for his sustained contributions to environmental biotechnology. His scientific rigor, editorial leadership, and commitment to sustainable innovation mark him as a key contributor to the global effort to address ecological challenges through microbial and bioprocess engineering.

Dr. Seyed Mehrdad Mirsalami | Bioremediation | Best Researcher Award

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Dr. Seyed Mehrdad Mirsalami | Bioremediation | Best Researcher Award

Dr. SeyedMehrdad Mirsalami | Islamic Azad University Central Tehran Branch | Iran

Seyed Mehrdad Mirsalami is a passionate chemical engineer and researcher with expertise in biotechnology, water treatment, and ecosystem services. 🌿💧 He holds a Master’s degree in Chemical Engineering (Biotechnology) from Central Tehran University, where he focused on enzyme-inhibition modeling. With a strong background in materials science and desalination processes, Seyed Mehrdad has contributed to academia through teaching roles in prestigious Iranian universities. 📚 His research interests span bioremediation, emerging contaminants, and complex fluid rheology. Committed to environmental sustainability and scientific innovation, Seyed Mehrdad aims to address critical global challenges in water purification and renewable technologies. 🌍🔬

Professional Profile:

ORCID

Suitability for the Best Researcher Award 

Seyed Mehrdad Mirsalami is an accomplished researcher and chemical engineer whose academic and professional pursuits are highly aligned with the objectives of the Best Researcher Award. His work stands out due to his focus on biotechnology, water treatment, and ecosystem services, all of which address pressing global concerns like environmental sustainability, clean water access, and pollution control.

Education & Experience 

  • Master’s Degree in Chemical Engineering (Biotechnology)Central Tehran University (2014–2017)
    Thesis: Mathematical model of enzyme-inhibiting effects (CGPA: 3.86/4)

  • Bachelor’s Degree in Chemical Engineering (Oil & Gas Refining)Rasht Azad University (2010–2014)
    Thesis: SO₃ Emissions & Ash Removal in Oxy-Fuel Combustion (CGPA: 3.2/4)

  • Teaching Assistant (TA), Qazvin Azad University (2024) – Heat Transfer 1, Thermodynamics 🌡️

  • Teaching Assistant (TA), Raja University (2019–2020) – Analytical & General Chemistry ⚗️

  • Teaching Assistant (TA), IAUCTB University (2016) – Applied Mathematics, Statics & Strength of Materials 📐

  • Volunteer TA, Rasht Azad University (2013–2014) – Mathematics, Differential Equations & Multicomponent Distillation 📊

Professional Development 

Seyed Mehrdad Mirsalami has actively pursued professional development by engaging in teaching, academic research, and scientific exploration. 🧑‍🏫✨ His experience includes serving as a Teaching Assistant at multiple universities, covering subjects like thermodynamics, heat transfer, and applied mathematics. 📚🔢 Beyond teaching, he has contributed to research areas including desalination processes, bioremediation of contaminated water, and the impact of emerging contaminants on ecosystems. 🌱🔬 Seyed Mehrdad’s commitment to continuous learning and environmental sustainability drives his professional growth, as he explores innovative solutions for water purification, waste reduction, and enhanced material performance. 💧♻️🌍

Research Focus 

Seyed Mehrdad Mirsalami’s research focuses on environmental sustainability and advanced chemical processes. 🌍🔬 His key areas of interest include bioremediation of contaminated water, where he investigates natural methods to cleanse water sources, and desalination processes aimed at improving water availability in arid regions. 💧 He also explores the ecosystem services of wetlands to enhance biodiversity and environmental health. 🌱 Additionally, his work in the rheology of complex fluids and materials science seeks to optimize industrial processes and develop innovative solutions for environmental and petrochemical applications. ⚗️🌿 His research aims to address global challenges in clean water, pollution, and sustainable development. 🌐♻️

Awards & Honors 

🏆 Awards & Honors

  • 🎖 Web of Science Research Recognition (2023) – JAC-5000-2023

  • 🌟 Outstanding Academic Performance Award – Master’s Program (CGPA: 3.86/4)

  • 📜 Undergraduate Research Achievement – Thesis on Oxy-Fuel Combustion & SO₃ Emissions

  • 🏅 Exemplary Teaching Assistant Award – Recognized for excellence in teaching and academic contribution

Publication Top Notes :

📘 Advances in genetically engineered microorganisms: Transforming food production through precision fermentation and synthetic biologyFuture Foods (2025-06)
♻️ Achieving optimal output of microplastic petroleum waste and improving energy and environmental indicators by optimizing the pyrolysis process and modifying the fuel compositionFuel (2024)
💧 Assessing the efficacy of poly-ferric sulfate and polyaluminum hydroxychloride in remediating partially stabilized landfill effluentResults in Engineering (2024-12)
⚙️ Comparative study of random and block SPEEK copolymers for high-temperature proton exchange membrane electrolysisColloids and Surfaces A: Physicochemical and Engineering Aspects (2024-12)
🐥 Leveraging Lactobacillus plantarum probiotics to mitigate diarrhea and Salmonella infections in broiler chickensAMB Express (2024-12-18)