Carlos Guillermo Vargas Febres | Mural painting, colorimetry | Best Academic Researcher Award

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Dr. Carlos Guillermo Vargas Febres | Mural painting, colorimetry | Best Academic Researcher Award

Research teacher at Andia University of Cusco, Peru

Carlos Guillermo Vargas Febres is a prominent academic, researcher, and professional architect from Peru. With nearly two decades of contributions to architecture, heritage conservation, and public works, he is recognized for blending traditional Andean knowledge with modern scientific practices. His work spans sustainable design, urban planning, and the protection of cultural heritage, particularly within the historical city of Cusco. He has also served as a university professor and investigator, advancing applied research in both public infrastructure and academic architecture.

Profile

ORCID

Education

Carlos Vargas holds a robust and multidisciplinary academic background. He began with a Bachelor’s and Professional Degree in Architecture from the Universidad Nacional de San Antonio Abad del Cusco. He then pursued two master’s degrees—one in Construction Management and another in Public Management. He completed doctoral studies in Administration in 2014 and is currently a doctoral candidate in Architecture at the Universitat Politècnica de València in Spain, where his research focuses on inorganic pigments for sustainable architecture and heritage preservation. His academic trajectory reflects a lifelong commitment to architectural excellence and research-driven practice.

Professional Experience

Over the years, Carlos has served in various technical, administrative, and academic roles. He has held municipal leadership posts such as Urban Development Manager, Municipal Advisor, and Project Evaluator across numerous districts in the Cusco region. In parallel, he has taught at the Universidad Andina del Cusco from 2015 to 2025, consistently contributing as a faculty researcher. He has also worked with construction companies and research institutions on projects involving water systems, heritage rehabilitation, educational infrastructure, and sustainable housing, combining practical application with academic depth.

Research Interests

Carlos’s research interests are deeply rooted in sustainable development, vernacular architecture, and cultural conservation. He explores nanotechnologies for architectural surface cleaning, thermal insulation from local materials, pigment extraction for heritage painting, and the impact of urban growth on heritage zones. His work aligns scientific innovation with traditional knowledge, offering solutions to preserve and restore architectural heritage under environmental pressures. He is particularly focused on the integration of colorimetry, nano air-bubble technology, and thermal dynamics into architectural applications.

Awards and Recognitions

Carlos has received numerous recognitions for his research and teaching. He was awarded competitive internal research funding by the Universidad Andina del Cusco multiple times between 2018 and 2024. His work has been acknowledged through formal resolutions approving his research projects, books, and academic contributions. He has also received awards for publications, participation in international congresses, and for co-authoring impactful journal articles. His participation in RENACYT (Peru’s National Registry of Researchers) at Level VII reflects his significant national standing in scientific research.

Selected Publications

Carlos Vargas Febres has authored several peer-reviewed articles that contribute to heritage conservation, architectural analysis, and urban sustainability. Below are seven significant publications:

  1. “Inhibición del crecimiento de líquenes y musgos…”, Geo-Conservación, 2021 (Scopus) – Cited in conservation studies for its use of air nanobubbles in cleaning heritage stone surfaces.

  2. “Patologías mecánicas en elementos líticos…”, DEVENIR, 2021 (SciELO) – Analyzes structural damage in Cusco’s churches.

  3. “La vivienda como espacio de estudio durante la pandemia…”, Milenaria Ciencia y Arte, 2021 (Latindex) – Addresses housing adaptability in post-COVID educational settings.

  4. “Vulnerabilidad funcional del Hospital Regional del Cusco”, Legado de Arquitectura y Diseño, 2021 – Focuses on infrastructure risks in healthcare.

  5. “Relación del aparcamiento y la congestión vehicular…”, Estudios del Hábitat, 2020 – Discusses parking shortages and urban congestion in historic Cusco.

  6. “Tecnología de nanoburbujas para la limpieza del material pétreo…”, Legado de Arquitectura y Diseño, 2019 – A pioneering study on nano-cleaning technologies in historic preservation.

  7. “La auto construcción en la periferia de Cusco”, AREA, 2019 (SciELO) – Examines informal housing development using a mixed-methods approach.

These publications have not only contributed to academic knowledge but have also been cited in regional policy planning, sustainability discussions, and educational settings.

Conclusion

Carlos Guillermo Vargas Febres stands as a highly deserving candidate for recognition in the realm of architecture and scientific research. His dedication to advancing sustainable architecture, commitment to protecting cultural heritage, and innovative application of scientific techniques make him an influential figure in his field. His ability to integrate theory with practice, tradition with technology, and academia with community development defines him as a model researcher and professional. A nomination in his name honors a career committed to building resilient futures while preserving the wisdom of the past.

Bülent Özlek | FRP in Health & Medicine | Best Researcher Award

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Assoc. Prof. Dr. Bülent Özlek | FRP in Health & Medicine | Best Researcher Award

Academician/Lecturer/MD at Mugla Sitki Kocman University, Turkey

Dr. Bülent Özlek is a distinguished academic and practicing cardiologist serving as an Associate Professor in the Department of Cardiology at Muğla Sıtkı Koçman University, Turkey. He has developed a robust academic and clinical profile with specialized expertise in heart failure, cardiovascular risk assessment, lipid metabolism, and inflammatory biomarkers. With a career marked by academic rigor, impactful research, and active participation in national and international cardiology platforms, Dr. Özlek has become a recognized name in cardiovascular medicine. He has published extensively in high-impact journals, contributed to medical book chapters, and serves on editorial boards and peer-review committees for multiple indexed journals.

Profile

Scopus

ORCID

Education

Dr. Özlek’s medical and academic foundation is rooted in rigorous training in internal medicine and cardiology. His education began with a medical degree followed by specialization in cardiology, where he developed expertise in managing complex cardiovascular conditions. He continually augments his education through involvement in clinical trials, medical symposia, and registry-based research initiatives. This academic preparation has empowered him to balance patient care, teaching responsibilities, and an active research portfolio with scientific precision.

Professional Experience

Over the years, Dr. Özlek has held significant clinical and academic responsibilities, culminating in his current role as an Associate Professor. He has made notable contributions to Turkey’s cardiology landscape through active roles in institutional committees and academic commissions. In addition to clinical practice, he has participated in large-scale national registries like EPHESUS and APOLLON, serving as a lead researcher and author. His professional experience includes organizing scientific meetings, peer-reviewing for over 50 international journals, and holding editorial positions for Cell Cycle, Cardiovascular Diabetology – Endocrinology Reports, and other respected journals. His diverse roles reflect his commitment to evidence-based clinical advancement and academic collaboration.

Research Interests

Dr. Özlek’s research is rooted in improving diagnostic and prognostic tools for cardiovascular diseases, particularly heart failure with preserved ejection fraction (HFpEF), lipid disorders, and cardiovascular inflammation. He investigates novel biomarkers such as CRP-to-albumin ratio, red cell distribution width to platelet ratio, and monocyte-to-HDL-cholesterol ratio. His work also includes studying disparities in lipid management, atrial fibrillation, and anticoagulation therapy. These themes consistently aim to refine risk stratification, optimize treatment strategies, and advance personalized medicine in cardiology.

 Awards & Recognition

Dr. Özlek has been widely acknowledged for his academic contributions. He has been invited to speak at prestigious national conferences, including the Turkish National Cardiology Congress and the Cardiovascular Interventional Course. His H-index of 9 and over 300 citations, as listed in the Web of Science, reflect his influence in cardiovascular research. He has also served on academic committees and editorial boards, strengthening the scientific rigor of publications in his domain. These roles highlight the high esteem in which he is held by the academic and medical communities.

Selected Publications

Dr. Özlek has authored over 90 publications, with numerous citations across top-tier journals. A selection of seven notable and recent works includes:

  1. Inadequate awareness and attention to non-HDL cholesterol: undertreatment of high-risk patients in cardiology practice in Turkey (Coronary Artery Disease, 2025)

  2. The monocyte-to-HDL-cholesterol ratio predicts new-onset atrial fibrillation in patients with acute STEMI (Biomarkers in Medicine, 2025)

  3. A Novel Non-invasive Marker for Predicting Mechanical Prosthetic Heart Valve Thrombosis (Clinical and Applied Thrombosis/Hemostasis, 2025)

  4. Anemia and Iron Deficiency Predict All-Cause Mortality in Patients with Heart Failure and Preserved Ejection Fraction (Diagnostics, 2024)

  5. Higher C-Reactive Protein to Albumin Ratio Portends Long-Term Mortality in Patients with Chronic Heart Failure (Medicina, 2024)

  6. Misperceptions and management of LDL-cholesterol in secondary prevention of patients with familial hypercholesterolemia (Journal of Clinical Lipidology, 2023)

  7. Comparing the Diagnostic Performance of HFA-PEFF and H2FPEF Scoring Systems in HFpEF Patients (The Anatolian Journal of Cardiology, 2023)

These publications reflect his ongoing efforts to address both underdiagnosed and undertreated aspects of cardiovascular disease in real-world clinical settings.

Conclusion

In summary, Dr. Bülent Özlek exemplifies academic and clinical excellence in cardiology. His commitment to research, education, and clinical practice has led to meaningful contributions to cardiovascular health, particularly in heart failure and lipidology. His multi-faceted roles as an author, editor, speaker, and peer reviewer underscore his leadership in shaping cardiovascular practice and research. With an exceptional record of publication, citation, and professional service, Dr. Özlek is a highly deserving candidate for prestigious recognition in the form of a research award. His continued dedication promises further advancements in the understanding and treatment of complex cardiovascular diseases.

Patricia P. Iglesias Sanchez | Sustainability, marketing and business | Best Research Article Award

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Prof. Dr. Patricia P. Iglesias Sanchez | Sustainability, marketing and business | Best Research Article Award

Dr. Patricia P. Iglesias Sánchez currently holds the position of Titular de Universidad (Associate Professor) at the University of Málaga, Spain, where she has been a dedicated academic since 2011. Her scholarly contributions have grown significantly since earning her Ph.D. in Economic and Business Sciences in 2010, for which she was awarded the Extraordinary Doctorate Prize. With a professional background that bridges academia and industry, she brings real-world applicability to her research, teaching, and innovation activities. As a multidisciplinary researcher with a strong commitment to practical outcomes and gender equity, Dr. Iglesias Sánchez exemplifies leadership in entrepreneurial innovation, digital marketing, and social impact research.

Profile

Scopus

ORCID

Education

Dr. Iglesias Sánchez completed her Licenciatura in Advertising and Public Relations from the University of Málaga in 2004. She subsequently obtained a Master’s degree in Local Development and Employment in 2008, followed by a Master’s in Business Administration from the University of Barcelona, EAE, and Deusto in 2010. That same year, she earned her Ph.D. in Economic and Business Sciences from the University of Málaga, achieving the prestigious Extraordinary Doctorate Award. Her academic training is complemented by an expert certification in Innovation Management, adding further depth to her interdisciplinary profile.

Experience

Her early career was marked by influential roles in both public and private sectors, including as Director of Innovation Projects at the Confederation of Entrepreneurs of Málaga and as General Manager of 2id Innovation Consultants. These experiences shaped her applied approach to research and teaching. Since joining the University of Málaga full-time in 2016, she has contributed significantly to the academic community through teaching at the undergraduate and postgraduate levels, coordinating the Master’s program in Digital Marketing Management, and leading several educational innovation projects. She also served as coordinator for the K-Project ComDigital, which fosters experiential learning in digital marketing for students.

Research Interest

Dr. Iglesias Sánchez’s core research focuses on open innovation, female entrepreneurship, digital marketing, startups, and the social dimensions of technology. Her work is deeply influenced by gender perspectives, making meaningful contributions to inclusive innovation and social sustainability. She has participated in various national and regional research projects addressing reputation management in digital society, strategic communication in female-led startups, and tourism accessibility in smart cities. Her ongoing work includes leading a nationally funded project exploring competitive strategies in communication for women-led startups, and she is a member of the research group COmMUp (SEJ-628), promoting open communication in entrepreneurial ecosystems.

Awards

In recognition of her excellence, Dr. Iglesias Sánchez received the Extraordinary Doctorate Award in 2010. She has been honored three times for Best Presentation at international conferences, reflecting both her academic rigor and her impactful communication of research. Her projects have been supported by competitive grants from European and Spanish funding bodies such as FEDER, MCIU, AEI, and the Andalusian Government, validating the societal relevance and quality of her research.

Publication

Dr. Iglesias Sánchez has authored 35 peer-reviewed articles, indexed in JCR and SCOPUS, with an h-index of 12 and over 415 citations. Her representative works include:

  1. Heliyon (2022): “Open innovation for entrepreneurial opportunities” – cited by articles focusing on stakeholder engagement in tech-based startups.

  2. International Journal of Management Education (2022): “The role of gender and connections between entrepreneurship and employability.”

  3. Tourism Review (2022): “Digital accessibility of smart cities-tourism” – ahead of print.

  4. Heliyon (2021): “Closer to or further from the new normal? Social media analysis in business” – contributing to post-COVID strategy debates.

  5. Information Technology & Tourism (2020): “Open innovation and R&D in tourism” – widely cited in hospitality innovation research.

  6. Education and Training (2019): “Gender and university degree: A new analysis of entrepreneurial intention.”

  7. International Journal of Environmental Research and Public Health (2020): “The contagion of sentiments during the COVID-19 crisis.”

These publications emphasize open innovation, digital engagement, gender analysis, and societal resilience, underlining her integrated approach to entrepreneurship and communication.

Conclusion

Dr. Patricia P. Iglesias Sánchez stands out as a multi-faceted academic whose research bridges theory and practice, addressing real-world challenges such as gender equity, digital accessibility, and entrepreneurial sustainability. Her scholarly excellence, innovative teaching methods, and commitment to technology transfer demonstrate her impactful role in advancing both academic inquiry and societal progress. With notable international collaborations, pioneering projects, and consistent contributions to high-impact journals, she is a strong candidate for the “Best Researcher Award.” Her holistic integration of research, education, and outreach continues to enrich the academic landscape and foster innovation-driven development.

Mohammad Jafar Molaei | Magnetic Ferrites | Best Researcher Award

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Assoc. Prof. Dr. Mohammad Jafar Molaei | Magnetic Ferrites | Best Researcher Award

Faculty member at Shahrood University of Technology- Dept. of Chemical and Materials Eng., Iran

Dr. Mohammad Jafar Molaei is an accomplished Associate Professor in the Department of Chemical and Materials Engineering at Shahrood University of Technology. With a robust academic and research foundation in nanotechnology, he has demonstrated extensive expertise in materials science, especially in the design, synthesis, and characterization of advanced functional materials. Over the past decade, he has significantly contributed to the fields of magnetic nanocomposites, 2D materials, biomaterials, and microwave absorbers, reflecting a deep commitment to interdisciplinary research. His academic journey, spanning teaching, industrial collaborations, and scientific innovations, has positioned him as a dynamic and forward-thinking researcher in nanotechnology and materials engineering.

Profile

Scopus

Education:

Dr. Molaei began his academic pursuits with a Bachelor’s degree in Materials Science from Sahand University of Technology in 2002. He then earned a Master’s degree in Materials Science with a specialization in characterization and selection from Sharif University of Technology in 2005. His educational peak was marked by a Ph.D. in Nanotechnology from the University of Tehran, completed in 2012. During his doctoral studies, he also served as a guest researcher at the Delft University of Technology in the Netherlands, enriching his international experience and broadening his research perspectives in materials science and applied nanotechnology.

Experience:

Professionally, Dr. Molaei held a faculty position at the Materials and Energy Research Center from 2013 to 2018, where he was engaged in cutting-edge research projects related to advanced nanomaterials and their applications. Since 2018, he has been serving at Shahrood University of Technology, contributing significantly to academia through teaching and mentoring, while also leading numerous innovative research initiatives. Beyond academia, he has collaborated on industrial projects such as the development of methane sensors, oxidation-resistant silver alloys, and X-ray diffraction instruments, highlighting his versatile application of materials science in practical domains.

Research Interest:

Dr. Molaei’s research interests are broad yet deeply integrated, covering magnetic materials, 2D materials beyond graphene, microwave absorbing materials, and biomaterials. He is particularly focused on carbon quantum dots, barium ferrite-based nanocomposites, and van der Waals heterostructures. His work often bridges fundamental material properties with applied biomedical and energy applications, such as cancer drug delivery systems, MRI imaging, and solar energy conversion. This multidisciplinary approach underscores his goal to solve real-world problems using material innovations.

Awards:

Dr. Molaei has been the recipient of several prestigious honors throughout his career. Notably, he ranked first in the national Ph.D. entrance exam for the University of Tehran in 2005. In 2015, he achieved second place in the National Nanotechnology Competition among 6,000 participants. A year later, in 2016, he was ranked first among National Nanotechnology Lecturers by the Nanotechnology Initiative Council. These awards reflect his academic excellence, teaching impact, and recognized contributions to nanotechnology at the national level.

Publications:

Dr. Molaei has published extensively in reputed international journals, with his research being widely cited in the scientific community. Selected publications include:

  1. Molaei, M. J. (2024). “Recent advances in hydrogen production through photocatalytic water splitting: A review.” Fuel, 365, 131159. [Cited by 18 articles]

  2. Molaei, M. J. (2023). “Graphitic carbon nitride (g-C3N4) synthesis and heterostructures, principles, mechanisms, and recent advances: A critical review.” International Journal of Hydrogen Energy. [Cited by 21 articles]

  3. Molaei, M. J. (2022). “Gadolinium-doped fluorescent carbon quantum dots as MRI contrast agents and fluorescent probes.” Scientific Reports, 12(1), 1-11. [Cited by 44 articles]

  4. Molaei, M. J. (2021). “Magnetic graphene, synthesis, and applications: A review.” Materials Science and Engineering: B, 272, 115325. [Cited by 62 articles]

  5. Molaei, M. J. (2020). “The optical properties and solar energy conversion applications of carbon quantum dots: A review.” Solar Energy, 196, 549-566. [Cited by 117 articles]

  6. Molaei, M. J. (2019). “Carbon quantum dots and their biomedical and therapeutic applications: a review.” RSC Advances, 9(12), 6460-6481. [Cited by 134 articles]

  7. Molaei, M. J. (2012). “Magnetic property enhancement and characterization of nano-structured barium ferrite by mechano-thermal treatment.” Materials Characterization, 63, 83-89. [Cited by 63 articles]

These articles demonstrate his influence in the domains of nanomaterials, renewable energy, and biomedicine, with over 1,200 total citations across his body of work.

Conclusion:

Dr. Mohammad Jafar Molaei stands out as a pioneering academic with deep contributions to the interdisciplinary domains of nanotechnology and materials science. His career is a testament to the synthesis of high-impact research, dedicated mentorship, and real-world technological applications. With numerous peer-reviewed publications, national awards, and a strong research portfolio in magnetic and 2D materials, he is exceptionally deserving of recognition through the “Best Researcher Award”. His scientific rigor, innovative spirit, and international collaboration efforts continue to push the boundaries of materials engineering for societal advancement.

Zhihui Xu | Soil microorganism | Best Research Article Award

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Prof. Zhihui Xu | Soil microorganism | Best Research Article Award

Professor at Nanjing Agricultural University, China

Dr. Zhihui Xu is a distinguished Associate Professor in Soil Microbiology at Nanjing Agricultural University, China, with a research career dedicated to the interface of plant nutrition and microbial ecology. Since earning his Ph.D. in Plant Nutrition in 2014, Dr. Xu has developed an impressive track record in studying plant-beneficial Bacillus species and their interactions within the rhizosphere. His scientific endeavors are centered on deciphering the genetic and biochemical mechanisms that govern biofilm formation, root colonization, and biocontrol efficacy. Known for his pioneering work on Bacillus velezensis and B. amyloliquefaciens, Dr. Xu has made significant strides in soil microbiology, contributing to both fundamental understanding and applied biocontrol solutions in agriculture.

Profile 

Scopus

🎓 Education

Dr. Xu pursued his Bachelor of Science in Biology from the College of Life Sciences, Nanjing Agricultural University (2005–2009), followed by a Ph.D. in Plant Nutrition from the Graduate School of the same university (2009–2014). During his doctoral research, he focused on the gene regulation of biofilm development in Bacillus amyloliquefaciens under the mentorship of Professor Qirong Shen. This foundation laid the groundwork for his future contributions to microbial ecology and biocontrol research.

💼 Experience

Beginning his academic career as a Lecturer in Soil Microbiology in 2014, Dr. Xu advanced to the role of Associate Professor by 2019. He has also presented his research internationally, including an oral presentation at BACELL 2019 in Slovenia. In addition to his teaching and mentoring roles, he is a principal investigator for multiple prestigious projects funded by the National Nature Science Foundation of China and other major institutions. His responsibilities span across leading scientific investigations, publishing impactful research, and collaborating globally to promote sustainable agricultural practices.

🔬 Research Interest

Dr. Xu’s research interest lies in unraveling the molecular basis of beneficial microbe-plant interactions, specifically involving rhizosphere-inhabiting Bacillus species. His primary model organism, Bacillus amyloliquefaciens SQR9, has served as a key tool to understand root colonization, antibiosis, and induced systemic resistance. Dr. Xu is also exploring the social ecology and evolutionary dynamics of Bacillus strains, and their ability to shape soil microbial communities. His work bridges molecular microbiology and ecological applications, contributing profoundly to plant health and soil sustainability.

🏆 Awards and Funding

Dr. Xu’s research excellence has been consistently recognized through numerous national-level funding programs, including grants from the National Natural Science Foundation of China (Grants No. 31972512 and 31501833), the China Postdoctoral Science Foundation (Grant No. 2015M581813), and major national R&D programs (e.g., 2016YFD0200305 and 2017YFD0200805). These endorsements underscore his scientific credibility and the practical value of his research outcomes in the context of modern agriculture.

📚 Selected Publications

  1. Xinli Sun & Zhihui Xu et al. (2021). Bacillus velezensis stimulates resident rhizosphere Pseudomonas stutzeri for plant health through metabolic interactions. The ISME Journal, 16(3): 774–787. [Cited by 160+ articles]

  2. Zhihui Xu et al. (2019). Antibiotic bacillomycin D affects iron acquisition and biofilm formation in Bacillus velezensis. Cell Reports, 29(5): 1192–1202. [Cited by 130+ articles]

  3. Dandan Wang & Zhihui Xu et al. (2019). A genomic island encodes antimicrobial fatty acids and protection shield. Environmental Microbiology, 21(9): 3455–3471. [Cited by 120+ articles]

  4. Zhihui Xu et al. (2019). Wall teichoic acids required for biofilm formation and root colonization. Applied Environmental Microbiology, 85(5). [Cover story, cited by 110+ articles]

  5. Zhihui Xu et al. (2019). Enhanced control of wilt disease via engineered Bacillus velezensis. Phytopathology, 109(1): 36–43. [Cited by 90+ articles]

  6. Zhihui Xu et al. (2014). DegU phosphorylation regulates control of cucumber wilt. Applied and Environmental Microbiology, 80: 2941–2950. [Cited by 180+ articles]

  7. Meihua Qiu & Zhihui Xu et al. (2014). Proteomics reveals key proteins in root colonization. Journal of Proteome Research, 13(12): 5581–5591. [Cited by 85+ articles]

✅ Conclusion

Dr. Zhihui Xu exemplifies the qualities of a pioneering researcher whose work is influencing both academic thought and practical agricultural solutions. With a career built on rigorous science, international collaboration, and impactful publications, he stands as a model candidate for the Best Researcher Award. His dedication to exploring plant-microbe symbioses, coupled with innovative approaches to biocontrol, positions him at the forefront of soil microbiology research. The cumulative impact of his findings continues to inspire future developments in sustainable crop management and environmental stewardship.

Amir Reza Mashtizadeh | Electrochemical Hydrogen Storage | Best Researcher Award

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Mr. Amir Reza Mashtizadeh | Electrochemical Hydrogen Storage | Best Researcher Award

Ph.D Candidate of Material Science Engineering at University of Tabriz, Iran

Amirreza Mashtizadeh is an innovative researcher specializing in energy storage materials, with a deep focus on advancing electrochemical hydrogen storage and battery technologies. His scientific exploration spans the synthesis of 2D and 3D nanomaterials, including graphene oxide and vanadium oxide composites, aimed at boosting energy efficiency and environmental sustainability. With experience in both academic and industrial settings, he currently serves as Senior R&D Manager at Fanap Telecom Company while pursuing advanced research in materials engineering as a Ph.D. candidate. His multidisciplinary expertise in hydrogen storage substrates, lithium-ion batteries, and composite materials positions him as a promising contributor to the global clean energy movement.

Profile

Scopus

🎓 Education

Amirreza began his academic journey in metallurgical engineering with a B.Sc. from the University of Ahwaz, where he focused on industrial metallurgical processes. He continued at the same university to complete his M.Sc. in Materials Engineering, producing a thesis on friction spot brazing techniques involving dissimilar metals like St37 steel and titanium. His academic excellence and research inclination led him to pursue a Ph.D. at Tabriz University, where his doctoral research investigates the electrochemical properties of 3D graphene oxide foam doped with vanadium oxide for hydrogen storage. He is also a visiting Ph.D. candidate at the Iran University of Science and Technology, further enriching his academic exposure.

🛠️ Experience

Amirreza’s professional trajectory combines robust research, industrial applications, and academic contributions. As Senior R&D Manager at Fanap Telecom (since June 2024), he is leading developments in lithium-ion battery technology, with emphasis on improving energy density, charge time, and safety. He is proficient in using glove boxes, battery assembly lines, and characterization tools like SEM and AFM. As a Visiting Research Assistant at Iran University of Science and Technology since 2021, he has mentored graduate and undergraduate students while synthesizing nanomaterials for batteries and hydrogen storage. Earlier, at the University of Ahwaz, he was deeply involved in friction spot soldering research and served as a Teaching Assistant, delivering lessons on phase diagrams and material properties.

🔬 Research Interest

Amirreza’s research interests lie at the intersection of materials science and sustainable energy. His core focus areas include electrochemical hydrogen storage using advanced materials, fabrication of 3D nanostructured graphene composites, and battery technologies such as lithium-ion and zinc-air systems. He is particularly interested in leveraging materials like borophene, copper vanadates, and MOF-perovskite composites to enhance energy storage capacities. His investigations into active materials for cathodes and the morphological control of vanadium oxide particles reflect his pursuit of high-performance, next-generation storage solutions.

🏆 Awards & Recognitions

Although specific awards are not detailed in the CV, Amirreza has achieved significant milestones in terms of high-impact research, student mentorship, and advanced scientific certifications. He holds a NISCERT Certified Welding Inspector (CWI) credential, reflecting his applied engineering proficiency, and has been a lead contributor to novel battery technologies currently under patent application (PCT/IB2024/060298), demonstrating innovation and technical leadership in energy materials.

📚 Key Publications

  1. Mashtizadeh, A. & Azizieh, M. (2022). Friction spot brazing of stainless steel to titanium using aluminum foil, Materials Research Express – Cited by: 2.

  2. Azizieh, M. et al., including Mashtizadeh, A. (2019). Friction stir spot soldering galvanized steel using tin interlayer, Materials Research Express – Cited by: 3.

  3. Azizieh, M., Shoeibi, R., Mashtizadeh, A. (2019). Friction Stir Spot Brazing of Low Carbon to Galvanized Steel, Transactions of the Indian Institute of Metals – Cited by: 4.

  4. Azizieh, M., Yazdi, M., Mashtizadeh, A. (2018). Friction stir spot brazing between aluminum and galvanized steel, Materials Research Express – Cited by: 3.

  5. Mashtizadeh, A. et al. (2024). A Review of Advances in Carbon Dioxide Capture for Fuel Reuse, Universal Journal of Carbon Research – Cited by: 1.

  6. Mashtizadeh, A. et al. (2025). Carbon material in electrochemical hydrogen storage and their mechanism, Inorganic MDPI Journal – Cited by: 0 (in press).

  7. Taghizadeh Tabrizi, A., Mashtizadeh, A. (in submission). Hydrogen adsorption capacity of 3D printed PEEK, Hydrogen Storage Energy – Cited by: N/A.

✅ Conclusion

Amirreza Mashtizadeh’s academic and professional journey exemplifies dedication to the advancement of green technologies and electrochemical storage systems. His multi-institutional research experience, leadership in R&D, and publication record underscore his potential as a leading innovator in the field of energy materials. His patent filings and hands-on lab expertise further reflect a strong orientation toward practical, scalable solutions. With his comprehensive skill set, academic rigor, and research output, he stands as a worthy nominee for any award recognizing excellence in material science and energy innovation.

Chyuan-Hwan Jeng | Concrete Crack-Width Measurement Via Mobile Apps | Best Researcher Award

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Prof. Dr. Chyuan-Hwan Jeng | Concrete Crack-Width Measurement Via Mobile Apps | Best Researcher Award

Professor at Department of Civil Engineering, National Chi Nan University, Taiwan

Dr. Chyuan-Hwan Jeng is a distinguished academician and a seasoned researcher in the field of Civil Engineering, currently serving as a Professor at the Department of Civil Engineering, National Chi Nan University, Nantou, Taiwan. With a robust academic foundation and nearly three decades of academic and research experience, Dr. Jeng has made substantial contributions to concrete structural engineering, especially in the areas concerning structural behavior, torsion mechanics, and seismic resistance. He has displayed unwavering commitment toward the advancement of concrete engineering practices through cutting-edge research, international collaboration, and impactful publication. His work has significantly enhanced the understanding and assessment of concrete structures, blending theoretical rigor with practical engineering challenges.

Profile

Scopus

Education 🎓

Dr. Jeng’s academic journey began at the esteemed National Cheng Kung University in Tainan, Taiwan, where he completed his Bachelor of Science degree in 1988, majoring in Civil Engineering. His academic pursuit took a global turn when he advanced to the University of Wisconsin-Madison in the United States, earning a Master of Science degree in 1992. His pursuit of academic excellence culminated in a Doctor of Philosophy degree from the University of Houston, Houston, TX, USA, in 2002. This diverse academic training laid a strong interdisciplinary foundation for his future research and pedagogical endeavors, positioning him well to integrate both American and Taiwanese engineering standards and innovations in his work.

Experience 🏗️

Over the course of his professional life, Dr. Jeng has accrued a wealth of experience across academic teaching, research, and administrative roles. As a faculty member at National Chi Nan University, he has played a pivotal role in shaping the curriculum and academic direction of the civil engineering department. His teaching portfolio spans advanced concrete design, seismic analysis, and structural dynamics. In addition to his teaching responsibilities, Dr. Jeng has mentored numerous graduate and doctoral students, guiding them through complex research projects and encouraging a culture of inquiry and innovation. His involvement in national and international conferences, collaborative projects, and technical panels has broadened the global visibility of his work and fostered transnational knowledge exchange.

Research Interest 🔬

Dr. Jeng’s research interests are multifaceted, primarily centered around the behavior and analysis of concrete structures under various loading and environmental conditions. His work encompasses the development of mobile applications for detecting and measuring concrete cracks—a valuable tool for field inspections and structural health monitoring. He has conducted extensive studies on torsion behavior in reinforced concrete members, providing insights into how structural elements respond under complex stress conditions. Additionally, his application of finite fiber element methods to beam-column analysis and entire frame behavior has provided a significant computational approach for predicting structural performance. His investigations into the seismic behavior of concrete structures aim to develop more resilient designs for earthquake-prone regions, aligning with global efforts to enhance structural safety.

Awards 🏆

Dr. Jeng has been recognized for his academic rigor and impactful contributions to civil engineering research. He has received accolades for research excellence from various academic bodies and engineering societies. His work has consistently earned citations and recognition in high-impact journals, reflecting his thought leadership in the field. His nomination for this award is based on his demonstrated long-term contribution to research, innovation in civil structural analysis, and mentorship of future engineering leaders.

Publication 📝

Dr. Jeng has an impressive publication record that spans reputable journals and high-impact papers in structural engineering. His notable publications include:

  • “Noniterative Formulae for Torsional Precracking Responses and Torsional Strengths in Prestressed Concrete Members”

  • “Innovative Launch of Long-Span Arch Bridge Across Waterway Using Special Hydraulic Crawler”

    • Authors: Chyuan-Hwan Jeng, Hao-Jan Chiu, Chih-Wei Lu, Min Chao

    • Year: 2020

    • Type: Article

  • “Torsion Experiment and Cracking-Torque Formulae of Hollow Prestressed Concrete Beams”

  • “Using Three-Dimensional Laser Scanning for Monitoring a Long-Span Arch Bridge Launch”

    • Authors: Min Chao, Hao-Jan Chiu, Chih-Wei Lu, Chyuan-Hwan Jeng

    • Year: 2019

    • Type: Article

  • “Torsion Experiment and Cracking-Torque Formulas of Prestressed Concrete Beams”

  • “Pre- and Post-Cracking Torsion in Prestressed Concrete Beams: Experimental Study”

  • “Unified Rational Formula for Pre-Cracking Torsional Stiffness of Solid and Hollow Reinforced Concrete Members”

  • “Unified Softened Membrane Model for Torsion in Hollow and Solid Reinforced Concrete Members: Modeling Precracking and Postcracking Behavior”

These publications demonstrate Dr. Jeng’s focus on integrating traditional structural mechanics with modern computational and digital tools to address practical engineering problems.

Conclusion 📌

In conclusion, Dr. Chyuan-Hwan Jeng stands out as a committed and impactful researcher whose academic and professional contributions have significantly advanced the field of structural and seismic engineering. His dedication to innovation, coupled with his rigorous approach to research and education, has made him a role model in the civil engineering community. From pioneering mobile solutions for crack inspection to refining finite element analysis for earthquake engineering, Dr. Jeng’s work addresses both immediate field needs and long-term theoretical advancements. His well-rounded career—marked by prestigious academic credentials, notable publications, and a global research outlook—makes him a strong candidate for this award. His legacy continues to grow as he mentors the next generation of engineers and expands the frontiers of concrete structural research.

Jingbo Li | Nano-FRP Innovations | Best Researcher Award

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Prof. Jingbo Li | Nano-FRP Innovations | Best Researcher Award

Principal Investigator at College of Optical Science and Engineering/Zhejiang University, China 

Professor Jingbo Li is a highly accomplished scientist in the field of condensed matter physics and optoelectronics. Currently serving as a Professor at the College of Optical Science and Engineering, Zhejiang University, China, he has played a pivotal role in advancing research in semiconductors, nanomaterials, and quantum devices. With a rich professional history that includes work at top research institutions in China and the United States, Professor Li is recognized for his interdisciplinary expertise and leadership in cutting-edge material science research. His contributions have significantly influenced the development of 2D materials, high-performance photodetectors, and ferroelectric transistors, making him a strong candidate for prestigious scientific awards.

Profile

Scopus

Education

Professor Jingbo Li’s academic foundation is firmly rooted in physics and materials science. He earned his Ph.D. in Condensed Matter Physics in 2001 from the Institute of Semiconductors, Chinese Academy of Sciences. Prior to that, he completed his M.S. in the same field at South China University of Technology in 1997, and his B.S. in Physics from Hunan Normal University in 1994. His strong academic training has equipped him with both theoretical knowledge and practical research skills, allowing him to address complex scientific challenges in a variety of disciplines related to materials and devices.

Experience

With over two decades of research and academic experience, Professor Li has held several distinguished positions. He began his postdoctoral career in 2001 at Lawrence Berkeley National Laboratory in the USA, followed by a research associate role at the National Renewable Energy Laboratory. Upon returning to China, he joined the Institute of Semiconductors at the Chinese Academy of Sciences as a professor in 2007. He later served at South China Normal University before taking up his current position at Zhejiang University in 2022. Throughout his career, he has led numerous national and international research projects, mentored graduate students, and collaborated across disciplines.

Research Interests

Professor Li’s research encompasses a broad array of scientific topics, particularly in semiconductor physics, optoelectronic materials, and quantum phenomena. His work focuses on doping mechanisms in wide-bandgap semiconductors, 2D materials, spintronic devices, quantum tunneling, and Majorana fermions. He has also advanced the development of large-scale computational algorithms for electronic structure and transport simulations. His recent investigations include ferroelectric devices, UV imaging, van der Waals heterostructures, and power chips for high-performance electronics, positioning him at the forefront of theoretical and experimental material science.

Awards

Over the course of his career, Professor Li has received numerous national and provincial honors that recognize his outstanding scientific achievements. Notable among them are the “Second Class of Natural Science Award of China” (2017), “First Class of Natural Science Award of Jiangxi Province” (2022), and “First Prize for Science and Technology Progress Award of Anhui Province” (2021). He was also selected for the “Wan-Ren Program of China” (2016), received a special government subsidy from the State Council (2015), and was honored with the “Distinguished Young Investigator Award” by the National Natural Science Foundation of China (2009). These accolades reflect his sustained excellence and leadership in research.

Selected Publications

Professor Li has authored a vast number of influential papers in high-impact journals. Below are seven recent representative publications:

  1. Yang et al. (2025), “2D Ferroelectric AgInP₂Se₆ for Ultra-Steep Slope Transistor,” Advanced Electronic Materials – cited for breakthrough in transistor steep slope behavior.

  2. Yang et al. (2025), “p-W₀.₀₉Re₀.₉₁S₂ /GaN Heterojunction for UV Image Sensing,” Laser & Photonics Reviews – recognized for high UV detectivity.

  3. Xiao et al. (2025), “Advanced T-In₂Se₃/M-WS₂/B-WSe₂ Photodetectors,” Small – focused on band tailoring and photodetection enhancement.

  4. Xiao et al. (2025), “Hydrogen Evolution on SnO₂ with Transition Metals,” Sci. Sin. Phys. Mech. Astron. – explored catalytic activity in hydrogen evolution.

  5. Wu et al. (2025), “Wafer-Scale 4H-SiC UV Photodetector,” Nano Research – developed for high-voltage UV detection.

  6. Chen et al. (2025), “Lensless Polarimetric Imaging via Te/ReSe₂,” Nano Letters – enabled polarization-sensitive photodetectors.

  7. Zhu et al. (2024), “2D Te Field-Effect Transistors,” Advanced Functional Materials – focused on junction field-effect mobility.

These publications have garnered citations in related studies on ferroelectric materials, 2D heterostructures, and next-gen photonic devices.

Conclusion

In summary, Professor Jingbo Li is an exceptional researcher whose scientific achievements have had a profound impact on condensed matter physics and optoelectronics. His rigorous academic training, extensive professional experience, cutting-edge research, and recognition through prestigious awards underscore his contributions to both theoretical science and practical technology. As an influential scientist and academic leader, he exemplifies the qualities sought in candidates for major research awards. His nomination is a testament to his enduring commitment to advancing scientific knowledge and innovation on both national and global scales.

Joana Mendes | Dental | Best Researcher Award

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Dr. Joana Mendes | Dental | Best Researcher Award

University Institute of Health Sciences (IUCS), Portugal

Joana Mendes is a distinguished academic and clinical professional whose career spans the realms of marine biology and dental sciences. Currently serving as a Researcher at the UNIPRO – Oral Pathology and Rehabilitation Research Unit and as an Invited Assistant at Instituto Universitário de Ciências da Saúde, Joana combines academic rigor with clinical expertise. Her dedication to translational medicine and dental innovation is evident through her interdisciplinary educational background, a growing portfolio of scientific publications, and recognition from the academic community. She exemplifies a new generation of health researchers focused on enhancing patient outcomes through evidence-based clinical practice.

Profile

ORCID

Education

Joana Mendes has cultivated a rich and diverse academic path. She began with a Licenciatura in Ciências do Meio Aquático at the Universidade do Porto (2013), followed by a Mestrado in Recursos Biológicos Aquáticos (2015), where she studied aquaculture nutrition in Senegalese sole. Driven by a passion for clinical science, she pursued a Licenciatura (2020) and subsequently a Mestrado Integrado in Medicina Dentária (2023) at Instituto Universitário de Ciências da Saúde. Her current academic endeavor is a Doctorate in Medicine and Translational Research at Universitat de Barcelona, started in 2023. This multidisciplinary education provides her with a unique ability to bridge biological sciences with clinical applications in dentistry.

Professional Experience

Joana’s professional engagements reflect both depth and breadth. She has been a researcher at UNIPRO since 2022, where she is actively involved in dental material studies and implantology. Simultaneously, she works as an Invited Assistant at IUCS, contributing to the academic training of future dentists. Clinically, she practices as a Médica Dentista at Clínica Luso Espanhola. Her experience also includes multiple roles as a dental assistant and formadora (instructor) at higher education institutions. Earlier in her career, she completed research traineeships in marine and aquatic biology, which laid the foundation for her analytical and methodological skills, now applied to dental research.

Research Interests

Joana Mendes focuses on oral rehabilitation, dental biomaterials, and implantology. Her research delves into the mechanical properties of prosthetic components, implant-abutment interfaces, and torque dynamics of dental screws. She is particularly interested in biofilm formation, screw loosening prevention, and the influence of environmental and chemical agents (such as beverages and cleaning solutions) on prosthetic integrity. This research aims to optimize prosthodontic materials and techniques, ensuring better longevity and performance of dental treatments. Her commitment to translational research is evident in how she merges laboratory findings with real-world clinical challenges.

Awards and Honors

Joana has been recognized for her academic excellence and presentation skills. In 2021, she won the Best Poster Award for her work on thermoplastic prostheses in pediatric dentistry at the Instituto Superior de Ciências da Saúde Norte. Additionally, she received Honorable Mentions for posters showcasing the VISTA surgical technique and the application of T-scan technology for evaluating occlusal contacts. These accolades underscore her ability to communicate complex clinical research effectively and her innovative approach to dental practice.

Key Publications

Joana Mendes has authored several impactful journal articles in the fields of materials science and dental research. Highlighted below are seven of her significant publications, all cited by related research in prosthodontics and implantology:

  1. “Evaluation of Oral Mucosa Elastomers for a 3D Oral Simulation Model”, Materials, 2025 – Cited in studies on oral biomechanical simulations.

  2. “Evaluation of Orthodontic Mini-Implants’ Stability Based on Insertion and Removal Torques”, Bioengineering, 2025 – Referenced for biomechanical evaluation of implants.

  3. “Coating Materials to Prevent Screw Loosening in Single Dental Implant Crowns: A Systematic Review”, Materials, 2024 – Cited in prosthetic screw design studies.

  4. “The Influence of the Diameter of Orthodontic Mini-Implants on Primary Stability”, Materials, 2024 – Referenced in implant design research.

  5. “Preload and Removal Torque of Two Different Prosthetic Screw Coatings—A Laboratory Study”, Materials, 2024 – Noted for prosthetic material performance.

  6. “Influence of Popular Beverages on the Fracture Resistance of Implant-Supported Bis-Acrylic Resin Provisional Crowns”, Polymers, 2023 – Cited for dietary impact on prosthetics.

  7. “The Influence of Cleaning Solutions on the Retention of Overdenture Attachment Systems”, Biomedicines, 2023 – Referenced in hygiene and retention studies.

Conclusion

Joana Mendes embodies the synergy of clinical expertise and academic excellence. Her innovative research in dental materials and prosthodontics, coupled with her commitment to education and patient care, places her among the promising leaders in dental science. With a well-rounded academic background, real-world clinical engagement, and impactful scholarly contributions, Joana is a deserving nominee for recognition in any academic or research excellence award program.

Cristina Veres | Mechanical Properties of Advanced Materials | Best Review Paper Award

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Dr. Cristina Veres | Mechanical Properties of Advanced Materials | Best Review Paper Award

Lecturer at G.E.Palade UMPhST, Romania

Dr. Veres Cristina is a versatile academic and professional specializing in management, engineering, and biomedical innovation. She serves as a university lecturer at the University of Medicine, Pharmacy, Science and Technology of Târgu Mureș (UMFST), where she teaches courses in industrial and project management, biomedical engineering, and sustainable development. In parallel, she holds the position of Academic Secretary within the Vice-Rector’s Office for International Relations, University Networks, and Public Relations. She also acts as Head of Management Administration at Azomureș JSC, a leading agricultural fertilizer company, where she oversees strategic initiatives, educational partnerships, and internal training. Her profile reflects a dynamic blend of academic rigor and practical leadership across sectors.

Profile

Scholar

Education

Dr. Veres holds a rich academic background grounded in multidisciplinary studies. She earned her Bachelor’s and Master’s degrees in Management and Business Management from the University “Petru Maior” in Târgu Mureș. She then pursued doctoral studies in Engineering and Management at the Technical University of Cluj-Napoca, focusing on lean practices in industrial and healthcare systems. Further advancing her expertise, she completed postdoctoral studies at the Romanian Academy’s Institute of National Economy, researching lean healthcare strategies. She also obtained a Master’s degree in Engineering Sciences Applied in Medicine from the Technical University of Cluj-Napoca between 2021 and 2023. Additionally, she gained international academic exposure through an Erasmus scholarship at the Università del Salento in Italy.

Experience

With over a decade of diverse professional experience, Dr. Veres has successfully navigated both academia and industry. Between 2012 and 2019, she worked at IRUM JSC as a marketing specialist, managing communications, logistics, customer relations, and technical sales in the agricultural and forestry equipment sector. Since 2019, she has served as Head of Management Administration at Azomureș JSC, contributing to strategic development, academic collaboration, and project coordination. In academia, she has been a university lecturer since 2018, teaching a wide range of management and engineering subjects and mentoring students in practical and research-oriented capacities. Her recent appointment as Academic Secretary further reflects her strategic contributions to UMFST’s international outreach and institutional development.

Research Interest

Dr. Veres’s research interests are highly interdisciplinary, combining elements of management, biomedical engineering, and industrial optimization. She focuses on lean manufacturing, Industry 4.0, economic engineering, sustainability, healthcare improvement, and training strategies. Her work emphasizes enhancing operational efficiency while maintaining adaptability in complex systems, especially within the healthcare and manufacturing sectors. She also contributes to environmental research, leading a study on air quality factors in the Târgu Mureș metropolitan area. Her involvement in national and European projects such as Horizon Europe underscores her commitment to forward-looking, impact-driven research.

Awards

Dr. Veres has been recognized for her outstanding academic and research contributions. In 2023, she received an award for Web of Science-indexed publications under the UEFISCDI research results competition. Earlier, she won the Grand Prix “Virgil Madgearu” at the National Olympiad of Students in Economics and Management in 2012. She holds a trainer certificate since 2019 and has completed international training in lean methodologies, including “Toyota Kata in Field Training” by ALFRA Lean Advisors, underscoring her continuous professional development and leadership in educational innovation.

Publications

Dr. Veres has published over 70 scientific articles and received more than 770 citations. Her most cited and impactful publications include:

  • “Externalities of Lean Implementation in Medical Laboratories. Process Optimization vs. Adaptation and Flexibility for the Future”, International Journal of Environmental Research and Public Health, 2021 – cited in healthcare process adaptation research.

  • “Economic Effects of Idea Generation and Idea Management System in Automotive Industry: a Quantitative Case Study for Romania”, The Journal of Technology Transfer, 2023 – cited in innovation and knowledge transfer studies.

  • “A Lean Approach in Educational Laboratories”, IEEE Xplore, 2019 – cited in digital lean education and manufacturing systems.

  • Additional publications featured in MDPI and SpringerLink journals, contributing to biomedical and industrial research.

These works demonstrate her academic impact in both engineering and healthcare systems.

Conclusion

Dr. Veres Cristina exemplifies the integration of academic excellence, industrial expertise, and strategic leadership. Her accomplishments in education, research, and professional practice make her a distinguished candidate for award recognition. Her ongoing work in lean systems, biomedical innovation, and interdisciplinary education confirms her commitment to meaningful contributions in both academic and societal contexts. She represents the values of innovation, collaboration, and excellence that this award seeks to honor.