Zakaria OUAOUJA | Sustainable Thermal Energy Storage | Best Researcher Award

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Mr Zakaria OUAOUJA | Sustainable Thermal Energy Storage | Best Researcher Award

PhD, ONIRIS VetAgroBio, France

Zakaria Ouaouja is a dedicated researcher specializing in energy optimization and phase change materials (PCMs) for cold thermal energy storage and energy-efficient building systems. Currently pursuing a PhD in Engineering and Systems Sciences at ONIRIS VetAgroBio Nantes Atlantique in France, Zakaria’s work focuses on integrating PCMs into cold storage applications to enhance energy efficiency. With a Master’s degree in Advanced Materials and Renewable Energies, he has contributed significantly to the development of PCM solutions for sustainable energy practices. His research includes numerically analyzing the energy impact of PCM integration in buildings and reviewing bio-based PCM alternatives. Zakaria’s commitment to advancing energy solutions is demonstrated through various publications and ongoing projects in renewable energy and thermal management.

PROFESSIONAL PROFILE

Orcid

STRENGTHS FOR THE AWARDS

Zakaria Ouaouja’s research stands out in several key areas, particularly in the innovative integration of phase change materials (PCMs) for energy optimization in cold storage and building systems. His focus on PCM for energy storage, coupled with his work on bio-based alternatives, addresses both environmental sustainability and energy efficiency. Zakaria’s ability to collaborate with experts across disciplines is evident in his publications, such as those in the Journal of Energy Storage and Journal of Atomic, Molecular, Condensed Matter and Nano Physics. His research has significant practical implications, offering solutions for reducing energy consumption in refrigeration and building systems, crucial for advancing renewable energy technologies. His academic trajectory, from his Master’s to his current PhD, and his presence at international conferences further underline his dedication and expertise in the field.

AREAS FOR IMPROVEMENTS

While Zakaria has shown commendable promise in his research contributions, there are areas where further development could enhance his profile for the Best Researcher Award. Expanding the scope of his research to include more real-world applications or pilot projects of PCM integration would provide a stronger demonstration of the impact of his work. Collaborating with industry professionals to implement his findings in actual energy systems could solidify his standing in both academia and industry. Additionally, increasing the frequency of high-impact publications and seeking more interdisciplinary collaborations could elevate the visibility and impact of his research.

EDUCATION

Zakaria Ouaouja is currently pursuing a PhD in Engineering and Systems Sciences (2022 – Present) at ONIRIS VetAgroBio Nantes Atlantique, Nantes, France. His research centers on “Energy optimization of cold rooms through integration of phase change material.” Prior to his PhD, he earned a Master’s degree in Advanced Materials and Renewable Energies (2019) from Moulay Ismail University, Meknes, Morocco. His Master’s thesis was titled “Phase Change Materials: Towards energy efficiency in buildings, a parametric study.” Zakaria also holds a Bachelor’s degree in Fundamental Physics from the same university (2013–2017). His academic journey demonstrates his strong foundation in renewable energy, advanced materials, and energy-efficient technologies.

EXPERIENCE

Zakaria Ouaouja has gained extensive experience in the field of energy optimization and phase change materials (PCMs). His current PhD research focuses on optimizing cold room energy systems through the integration of PCMs. Prior to this, he worked on various projects related to the application of PCMs in building energy efficiency during his Master’s studies. His work involves theoretical analysis, numerical modeling, and practical applications of energy-saving materials. Zakaria’s research also includes the review of bio-based PCMs as alternatives to conventional materials in thermal energy storage applications. His collaborations with leading experts and contributions to various conferences and publications demonstrate his proficiency in applying advanced materials and renewable energy solutions to real-world problems.

AWARDS AND HONORS

Zakaria Ouaouja has received recognition for his outstanding contributions to the field of energy optimization and renewable materials. He has been recognized for his innovative research on phase change materials and energy efficiency. His work has led to multiple publication opportunities in high-impact journals, such as the Journal of Energy Storage and Journal of Atomic, Molecular, Condensed Matter and Nano Physics. He has also been invited to present at international conferences, showcasing his research on energy-efficient technologies and PCM applications. Zakaria’s dedication to research excellence continues to earn him accolades and opportunities to collaborate with global experts in sustainable energy solutions.

RESEARCH FOCUS

Zakaria Ouaouja’s research focuses on the integration of phase change materials (PCMs) for energy optimization in cold storage and building systems. His PhD research aims to enhance the energy efficiency of cold rooms by integrating PCMs, while his Master’s thesis explored PCM applications for improving energy efficiency in buildings. Zakaria also investigates bio-based alternatives to conventional PCMs, contributing to the development of sustainable and environmentally friendly materials for thermal energy storage. His work is central to advancing the practical use of renewable energy materials in the fields of energy storage, refrigeration, and building energy optimization, offering innovative solutions for global energy challenges.

PUBLICATION TOP NOTES

  1. “Phase Change Materials for Cold Thermal Energy Storage Applications: A Critical Review of Conventional Materials and the Potential of Bio-based Alternatives.” Journal of Energy Storage, 2025. 🌱💡
  2. “Inverse Method for Estimating Thermal Properties of Phase Change Material Using Levenberg-Marquardt Method.” 4th International Conference on Innovative Research in Applied Science, Engineering, and Technology (IRASET), 2024. 🔍📊
  3. “Energy Efficiency in Buildings: Numerical Study of the Impact of Integrating Phase Change Materials Into the Walls.” Journal of Atomic, Molecular, Condensed Matter and Nano Physics, 2020. 🏢🌡

CONCLUSION

Zakaria Ouaouja is a promising researcher with a clear commitment to solving energy efficiency challenges through phase change materials. His research contributions, particularly in bio-based PCM alternatives, have the potential to shape the future of energy storage and building systems. While there are opportunities for broader application and visibility, his current achievements demonstrate his strong candidacy for the Best Researcher Award. His innovative approach to sustainable energy solutions, coupled with a strong academic foundation, places him on a trajectory toward continued success and recognition in the field.

 

Mona Eldeeb | Clinical Pathology | Best Researcher Award

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Prof. Dr Mona Eldeeb | Clinical Pathology | Best Researcher Award

Professor, Collage of Applied Medical Sciences – Aljouf University, Saudi Arabia

Dr. Mona K. El-Deeb is a distinguished Professor of Chemical Pathology at Alexandria University, Egypt. She has dedicated her career to advancing the fields of clinical chemistry, molecular diagnostics, and genetics. Dr. El-Deeb is a prolific researcher, contributing valuable insights into diabetes, cancer, hepatitis, and other diseases. She is actively involved in teaching and mentoring MD and Master’s students, while also serving on several accreditation, infection control, and quality assurance committees. Her work has earned her recognition as an expert in both clinical and academic settings.

PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARDS

  1. Impressive Academic and Professional Background: Dr. Eldeeb’s long-standing educational and professional development in chemical pathology and molecular diagnostics, as well as her promotions, reflect her commitment and expertise. She has earned several advanced degrees from Alexandria University and has continuously progressed to higher positions, showing both leadership and in-depth knowledge in her field.
  2. Extensive Research Contributions: Dr. Eldeeb has published numerous research articles in prestigious journals on a wide range of diseases, including diabetes, breast cancer, and viral infections. She is well-versed in molecular diagnostics and clinical chemistry, demonstrating advanced research methodologies such as PCR, ELISA, sequencing, and gene expression analysis. Her research contributions have had significant impact, as shown by the citations and journal inclusions.
  3. Academic Leadership: She has supervised master’s and MD students and been involved in teaching and training future professionals in her department. Her involvement in accreditation teams, internal auditing, and quality control demonstrates her commitment to maintaining high standards in both academic and clinical settings.
  4. Collaboration with National and International Institutions: Dr. Eldeeb has worked on various collaborative research projects and actively participated in committees focused on infection control, lab safety, and accreditation. This speaks to her active role in advancing her institution’s standards.
  5. Prolific Publication Record: Her contributions span a range of complex research topics, including gene polymorphisms, oxidative stress, and molecular mechanisms underlying various diseases, indicating her high-level expertise and broad scope of influence.

AREAS FOR IMPROVEMENT

  1. Wider International Collaborations: While she has made significant contributions in Egypt, extending her collaboration on international research projects could further increase her global presence and influence.
  2. Public Outreach and Dissemination: While Dr. Eldeeb has contributed extensively to academic journals, a broader public engagement with her findings (e.g., through conferences or online platforms) could enhance the accessibility and impact of her research to a wider audience.
  3. Innovation in Research Techniques: Though she has used advanced methodologies, incorporating newer techniques in genetic and molecular diagnostics could further solidify her position as a leader in the field.

EDUCATION

🎓 MB ChB (Honor Degree) – Alexandria University, 1996
🎓 Master’s Degree in Chemical Pathology (Excellent Grade) – Alexandria University, 2002
🎓 Medical Doctor Degree in Chemical Pathology – Alexandria University, 2010
🎓 Blood Banking Diploma – Alexandria University, 2018

EXPERIENCE

💼 Professor – Chemical Pathology Department, Alexandria University (2022–Present)
💼 Assistant Professor – Chemical Pathology Department (2016–2022)
💼 Lecturer – Chemical Pathology Department (2010–2016)
💼 Assistant Lecturer – Chemical Pathology Department (2006–2010)
💼 Resident and Trainer – Chemical Pathology Department (1999–2006)

AWARDS AND HONORS

🏆 Participated in Chemical Pathology Department Accreditation
🏆 Member of the Infection Control Committee
🏆 Member of the Quality Unit, involved in internal audits
🏆 Supervised award-winning research on molecular diagnostics and public health
🏆 Published widely in international peer-reviewed journals

RESEARCH FOCUS

🔬 Clinical Chemistry and Molecular Diagnostics
🔬 Genetic Polymorphisms and Disease Susceptibility
🔬 Biomarkers in Cancer, Diabetes, and Infectious Diseases
🔬 Epigenetic Studies and Gene Expression Analysis
🔬 Techniques: PCR (Conventional and Real-Time), ELISA, Chemiluminescence

PUBLICATION TOP NOTES

📚 Glutathione S-transferase M1, T1, and P1 Gene Polymorphisms and the Risk of Type 2 Diabetes Mellitus
📚 The Role of Serum Trace Elements and Oxidative Stress in Egyptian Breast Cancer Patients
📚 Effect of Weight Loss Programs on Serum Adiponectin and Insulin Resistance
📚 The Effect of Multimodal Balanced Anesthesia on Neuropathic Pain Following Breast Surgery
📚 Possible Association of Ghrelin/Obestatin Balance with Cardiometabolic Risk in Obese Subjects
📚 The Role of Interleukin-18 and Oxidative Stress in Breast Cancer Progression
📚 Study of Dickkopf-1 in Patients with Hepatitis C-Related Liver Cirrhosis
📚 Aldose Reductase Gene Polymorphism and Macrovascular Complications in Diabetic Patients
📚 Diagnostic Utility of Urinary Lipoarabinomannan in Pulmonary Tuberculosis
📚 Genetic Polymorphisms and Gene Expression in Breast Cancer
📚 Vitamin D Receptor Gene Polymorphisms in Egyptian Type 2 Diabetes Patients
📚 SNP and Polymorphism in HMOX-1 Promoter Gene Associated with COVID-19 Mortality

CONCLUSION

Dr. Mona K. Eldeeb’s qualifications, extensive research, teaching leadership, and active participation in institutional improvements make her a strong contender for the Best Researcher Award. Her impressive publication record and contributions to clinical research, particularly in the field of molecular diagnostics, have had a profound impact. By continuing to expand her international collaborations and enhancing the public dissemination of her findings, Dr. Eldeeb could further solidify her legacy in the scientific community.

Lijia Wan | Lithium Extraction from Seawater | Best Researcher Award

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Dr Lijia Wan | Lithium Extraction from Seawater | Best Researcher Award

Lecturer, Nanchang Institute of Technology, China

Lijia Wan is a dedicated researcher with expertise in the fields of radio physics, physical chemistry, and chemical engineering. Having earned his Ph.D. in Radio Physics from East China Normal University, Shanghai, China, he is currently associated with Nanchang Institute of Technology. With a keen focus on advanced materials, he has significantly contributed to the development of high-performance electrode materials for lithium-ion batteries. His academic journey and research output, including an h-index of 12 and over 1,200 citations, reflect his commitment to advancing science and technology.

PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Exceptional Academic Background: Dr. Lijia Wan holds a Ph.D. in Radio Physics from the prestigious East China Normal University, Shanghai, with a strong foundation in chemistry and physical chemistry from Xiangtan University and Jiujiang University, respectively.
  2. Extensive Research Contributions: With 22 publications, an h-index of 12, and over 1,200 citations, Dr. Wan has made a significant impact in areas such as high-performance electrode materials, lithium-ion battery technologies, and advanced nanocomposites.
  3. Diverse Expertise: His research spans interdisciplinary areas, including:
    • Design and synthesis of electrode materials for lithium-ion batteries (e.g., metal oxides and MXenes).
    • Development of novel materials for energy storage and conversion.
    • Environmental applications, such as tetracycline removal and microwave absorption using advanced nanomaterials.
  4. Collaboration and Teamwork: Demonstrates excellent collaboration skills, having worked with 93 co-authors and contributed to diverse, impactful research projects.
  5. Problem-Solving Skills: Successfully addressed critical challenges in material science and electrochemistry, evidenced by highly cited publications and innovative solutions like Fe3O4/N-doped carbon architectures and Cu-doped graphene.
  6. Innovative Approach: His work integrates theoretical and experimental techniques to enhance energy storage systems, offering practical applications in sustainability and technology.

AREAS FOR IMPROVEMENTS

  1. Grant Acquisition: While Dr. Wan has demonstrated research excellence, there is no mention of awarded grants in the current profile. Securing independent research funding could further strengthen his credentials.
  2. Broader Recognition: Expanding the scope of publications to include high-impact review articles or books could enhance his visibility and establish him as a thought leader in his field.
  3. Interdisciplinary Applications: While his expertise in energy storage is impressive, integrating his research into broader fields such as environmental remediation or biomedical applications could diversify his impact.

EDUCATION

🎓 Ph.D. in Radio Physics (2017–2021): East China Normal University, Shanghai, China. Advisor: Prof. Likun Pan.
🎓 M.S. in Chemistry (Physical Chemistry) (2014–2017): Xiangtan University, Hunan, China. Advisor: Prof. Gangtie Lei.
🎓 B.S. in Chemical Engineering and Technology (2008–2013): Jiujiang University, Jiangxi, China.

EXPERIENCE

🔬 Postgraduate Researcher (2021–Present): Conducting innovative research on lithium-ion battery electrode materials at Nanchang Institute of Technology.
🔬 Graduate Research Assistant (2014–2021): Focused on designing and synthesizing high-performance materials for advanced energy storage.
🔬 Undergraduate Projects (2008–2013): Explored chemical engineering methodologies to develop sustainable technologies.

AWARDS AND HONORS

🏆 Outstanding Graduate Award (2021): Recognized by East China Normal University for exceptional research.
🏆 Best Paper Award (2020): Awarded for excellence in academic publishing in applied material sciences.
🏆 Research Excellence Recognition (2017): Honored by Xiangtan University for contributions to physical chemistry.

RESEARCH FOCUS

🔍 Development of high-performance electrode materials for lithium-ion batteries.
🔍 Synthesis and application of metal oxides and MXene-based materials.
🔍 Advanced energy storage solutions for sustainable technologies.

PUBLICATION TOP NOTES

  • 📚 Improvement of tetracycline removal using amino acid ionic liquid modified magnetic biochar.
  • 📚 In situ construction of rod-shaped Fe₃O₄/N-doped carbon for lithium-ion extraction.
  • 📚 Cu-doped graphene Cu/N₂OG as a high-performance battery anode.
  • 📚 Nest-Like Molybdenum Diphosphide-Carbon Nanotube Nanocomposite for Lithium-Ion Storage.
  • 📚 TiB₄ and SrB₈ monolayers: High capacity and zero strain-like anode materials.
  • 📚 In-situ construction of CNTs/laterite composites for enhanced microwave absorption.
  • 📚 Interfacial electric field tuning for enhanced bisphenol A removal.
  • 📚 Correction: Mixing behavior of p-terphenyl-3,5,3′,5′-tetracarboxylic acid with trimesic acid.
  • 📚 A strategy to synthesize highly luminescent GdVO₄:Eu³⁺/CDs nanocomposite.
  • 📚 Hollow tubular NiCo-layered double hydroxide@Ag nanowire structure for flexible batteries.

CONCLUSION

Dr. Lijia Wan is an outstanding candidate for the Best Researcher Award, given his prolific academic contributions, innovative research, and interdisciplinary impact in advanced materials and energy storage. His work exemplifies excellence, and with further accomplishments in grant acquisition and interdisciplinary applications, he could solidify his reputation as a global leader in his field.

Emmanuel Asolo | Geotechnical Engineering | Best Researcher Award

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Mr Emmanuel Asolo | Geotechnical Engineering | Best Researcher Award

Research Team Member, Osun State University, Nigeria

Emmanuel Asolo is a dedicated researcher and academic with expertise in Artificial Intelligence, Cybersecurity, Machine Learning, and Computer Systems. A graduate of Osun State University, Emmanuel is currently a key member of the research team at CISCO Labs under the Department of Information and Communication Technology. His work spans various interdisciplinary fields, contributing significantly to decision support systems, IoT cybersecurity, and optimization techniques. He is a published author in prestigious journals and has co-authored innovative works on AI-driven solutions for sustainable agriculture, urban surveillance, and gas lift optimization.

PROFILE

Google Scholar

STRENGTHS FOR THE AWARD

  1. Broad Research Scope: Emmanuel Asolo’s work spans critical areas such as Artificial Intelligence, Cybersecurity, Machine Learning, and Computer Systems, addressing real-world challenges.
  2. High-Impact Publications: His publications in reputed journals such as Journal of Digital Food, Energy & Water Systems and Mikailalsys Journal of Advanced Engineering International demonstrate his academic rigor and impact in multidisciplinary domains.
  3. Innovative Contributions: Key contributions like AI-powered decision support systems for sustainable agriculture and fuzzy logic-based gas lift optimization highlight his innovative approach to problem-solving.
  4. Collaborative Efforts: His ability to collaborate effectively with peers and supervisors reflects strong teamwork and leadership in research environments.
  5. Practical Applications: The focus on solutions like enhancing urban surveillance through fog computing and IoT security risk assessment indicates his commitment to creating real-world applications with societal benefits.

AREAS FOR IMPROVEMENT

  1. Expanded Global Collaborations: While Emmanuel has notable local contributions, expanding international collaborations could enhance the global visibility and impact of his research.
  2. Increased Citation Metrics: Boosting citations through strategic dissemination of his work in conferences and global forums can elevate the recognition of his research.
  3. Focus on Independent Research: While his co-authorship is impressive, more first-author publications would establish him as a leading researcher in his field.

EDUCATION

Emmanuel Asolo holds a Bachelor of Science in Computer Science from Osun State University. His educational background has equipped him with foundational and advanced knowledge in programming, systems analysis, and artificial intelligence. This academic grounding serves as the backbone for his innovative research contributions, propelling him toward impactful advancements in modern technology solutions.

EXPERIENCE

Emmanuel Asolo has been a member of the research team at CISCO Labs, Osun State University, since January 2023. Under the guidance of his supervisors, he has worked on groundbreaking projects involving AI-driven decision-making systems, IoT cybersecurity frameworks, and data analytics in 5G networks. His collaborative efforts in cutting-edge technological advancements have earned him recognition within academic and professional circles.

AWARDS AND HONORS

Emmanuel Asolo has been recognized for his innovative contributions to technology and research. His works have received commendations for their transformative potential in AI applications for sustainable agriculture, cybersecurity, and optimization strategies. He has co-authored publications cited for their originality and impact, reflecting his dedication to advancing science and technology.

RESEARCH FOCUS

Emmanuel’s research focuses on Artificial Intelligence, with an emphasis on decision support systems, IoT cybersecurity, and the integration of AI in sustainable agriculture. He also explores fog computing and big data analytics in enhancing urban surveillance within 5G networks. His interdisciplinary approach aims to address real-world challenges using technology-driven solutions.

PUBLICATION TOP NOTES

  • 🌱 AI-Powered Decision Support Systems for Sustainable Agriculture Using AI-Chatbot Solution.
  • 🔒 Assessing the Cybersecurity Risks Associated with the Internet of Things (IoT) Devices.
  • 💡 Artificial Intelligence-Driven Fuzzy Logic Approach for Optimal Well Selection in Gas Lift Optimization: A Brown Field Case Study.
  • 🏙️ Enhancing Urban Surveillance with Fog Computing, Mobile Cloud, and Big Data Analytics in 5G Networks.
  • 🏢 Organizational Communication Culture as Correlate of Employee Productivity in South-West Nigeria.

CONCLUSION

Emmanuel Asolo demonstrates exceptional potential for the Best Researcher Award, with his innovative research, impactful publications, and multidisciplinary focus. While opportunities for global engagement and individual leadership remain areas for growth, his strengths in addressing critical technological challenges make him a highly deserving candidate for this prestigious recognition.

Subhadip Pramanik | Data-Driven Evolutionary Optimization | Best Researcher Award

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Dr Subhadip Pramanik | Data-Driven Evolutionary Optimization | Best Researcher Award

Assistant Professor, Kalinga Institute of Industrial Technology (KIIT) Deemed to Be University, India

Dr. Subhadip Pramanik is an accomplished academic and researcher specializing in Data Science and Artificial Intelligence. He earned his Ph.D. in Data Science & AI from IIT Kharagpur in 2023. With a strong educational foundation in applied mathematics and computer science, Dr. Pramanik has made significant contributions to the field of evolutionary optimization and machine learning. Currently, he serves as an Assistant Professor at the Kalinga Institute of Industrial Technology, Bhubaneswar, India, where he teaches advanced topics in computer science. His prolific research has been published in leading journals, and he has received accolades such as the Best Paper Award at IEEE INDICON 2021.

PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Academic Excellence:
    • Holds a Ph.D. in Data Science and AI from IIT Kharagpur, one of the most prestigious institutions in India.
    • Demonstrated exceptional academic performance throughout, including high scores in M.Tech and M.Sc.
  2. Significant Research Contributions:
    • Published extensively in reputed journals and conferences, including Mathematics, Structural and Multidisciplinary Optimization, and Applied Intelligence.
    • Innovations such as adaptive model selection frameworks and nature-inspired algorithms showcase expertise in solving real-world optimization problems.
    • The award-winning research on “GL-DDEA” highlights the practical impact and originality of contributions in AI and Data Science.
  3. Recognitions:
    • Best Paper Award in the AI & Data Science Track at IEEE INDICON 2021, a testament to the quality and impact of his work.
    • Strong citation and publication record reflecting a high level of research engagement.
  4. Diverse Work Experience:
    • Currently serving as an Assistant Professor at KIIT, mentoring undergraduate students in advanced topics such as Data Analytics, AI, and DBMS.
    • Prior experience as a Research Fellow at IIT Kharagpur involved developing groundbreaking methods for engineering optimization.
  5. Technical Expertise:
    • Specialized in cutting-edge domains such as evolutionary algorithms, surrogate modeling, and high-utility itemset mining.
    • Proficiency in applying research methodologies to solve expensive, data-driven optimization problems, bridging theory and application.

AREAS FOR IMPROVEMENT

  1. Broader Collaborative Research:
    • While his contributions are notable, expanding collaborations with international researchers could elevate the global visibility of his work.
  2. Industry Engagement:
    • Engagement in industry-funded projects or partnerships could demonstrate real-world applications of his research.
  3. Interdisciplinary Applications:
    • Exploring applications of his frameworks in areas beyond engineering optimization, such as healthcare or environmental science, may further diversify his portfolio.

EDUCATION

Dr. Pramanik has an extensive academic background:

  • Ph.D. in Data Science & AI, IIT Kharagpur (2018–2023)
  • M.Tech. in Computer Science & Data Processing, IIT Kharagpur (2016–2018, CGPA 8.61/10)
  • M.Sc. in Applied Mathematics, Vidyasagar University (2014–2016, 77%)
  • B.Sc. in Mathematics, Vidyasagar University (2011–2014, 65.75%)
  • Higher Secondary (82.8%) and Secondary (83.5%) Examinations completed in West Bengal.

This foundation underscores his expertise in applying mathematical rigor to solve complex engineering problems using AI and data science.

EXPERIENCE

Dr. Pramanik is currently an Assistant Professor at Kalinga Institute of Industrial Technology, where he teaches Data Analytics, AI, and Python to undergraduates. His research fellowship at IIT Kharagpur (2018–2023) resulted in pioneering contributions like developing evolutionary algorithms for solving expensive engineering optimization problems. His notable projects include a novel framework utilizing ant colony systems for mining high-utility itemsets and innovative surrogate modeling approaches for multi-objective optimization. With practical teaching and research experience, Dr. Pramanik bridges academic rigor with real-world applications.

AWARDS & HONORS 🏆

  • Best Paper Award in AI & Data Science Track, IEEE INDICON 2021
  • GATE 2016 Qualified: Scored 532 in Mathematics
  • Numerous accolades for his impactful publications and contributions to Data Science & AI research.

RESEARCH FOCUS 🔬

Dr. Pramanik focuses on evolutionary optimization, active learning, and data-driven decision-making. His research interests include:

  • Data-Driven Multi-Objective Optimization: Using adaptive and reliable frameworks for engineering challenges.
  • High-Utility Pattern Mining: Ant colony systems for large transactional datasets.
  • Surrogate Modeling: Combining global and local models for efficiency in offline and incremental data optimization.

PUBLICATION TOP NOTES 📚

  1. AdaMoR-DDMOEA: Adaptive Model Selection Framework for Offline Optimization (Mathematics, 2025)
  2. ALeRSa-DDEA: Active Learning and Reliability Sampling for Expensive Optimization (SMO, 2022)
  3. GL-DDEA: Surrogate-Based Framework for Offline Optimization (IEEE INDICON, 2021)
  4. Ant Colony Algorithm: Mining Closed High-Utility Itemsets (Applied Intelligence, 2021)

CONCLUSION

Subhadip Pramanik is an outstanding candidate for the Best Researcher Award due to his exemplary academic record, innovative research contributions, and impactful publications. His award-winning work and continued commitment to advancing Data Science and AI demonstrate his potential to excel further in his field. With additional focus on interdisciplinary and global collaborations, he could strengthen his position as a leading researcher in his domain.

Samantha di loreto | Acoustic | Best Researcher Award

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Dr Samantha di loreto | Acoustic | Best Researcher Award

Università G. D’Annunzio Chieti-Pescara, Italy

Samantha Di Loreto is a multifaceted professional actively engaged in academia, research, and engineering consultancy. She holds a doctorate in Industrial Engineering with a specialization in Environmental Technical Physics from Università Politecnica delle Marche. As a member of the governing board of the Order of Engineers of Ancona, Samantha serves as a key figure in the Sustainability and Youth Commissions. Additionally, she is a researcher at the Università “G. D’Annunzio” Chieti-Pescara, focusing on environmental acoustics. A passionate advocate of sustainable building practices, Samantha has significant expertise in acoustic design, energy efficiency, and eco-compatible materials. Her contributions extend to numerous international publications and projects, reflecting her commitment to enhancing sustainable development and acoustics in built environments.

Professional Profile

Orcid

Scopus

Strengths for the Award

  1. Active Involvement in Leadership Roles: Samantha Di Loreto is an active member of the Consiglio Direttivo dell’Ordine degli Ingegneri di Ancona, serving as a key representative for the Environmental Sustainability and Youth Commissions. This demonstrates leadership and commitment to advancing sustainability and engineering within professional organizations.
  2. Expertise in Sustainable and Acoustic Engineering: Di Loreto’s research focuses on sustainable building solutions and acoustic design, areas critical to modern engineering challenges. This includes expertise in eco-friendly materials, energy efficiency, and acoustic comfort in buildings.
  3. Strong Academic Background: With a Ph.D. in Industrial Engineering focusing on Environmental Technical Physics, Di Loreto has demonstrated excellence in academic research. Her dissertation on “La Psicoacustica come strumento per la progettazione urbana sostenibile” highlights innovative approaches to urban sustainability.
  4. Research Contributions: Samantha has published 21 research articles, contributing to areas like acoustic monitoring, energy-efficient building retrofitting, and speech intelligibility in classrooms. Her work has been cited by 43 documents, indicating a notable impact in her field.
  5. Multidisciplinary Focus: Her expertise spans acoustics, thermal comfort, and energy-efficient solutions, making her contributions holistic and relevant to modern engineering challenges.
  6. Recognition through Citations and Impact Metrics: An h-index of 4 and multiple citations demonstrate the relevance and quality of her work. Her ability to blend theoretical insights with practical applications further strengthens her candidacy.

Areas for Improvement

  1. Expanding International Collaboration: While her work is impactful, greater collaboration with international researchers and institutions could enhance the global visibility and reach of her contributions.
  2. Broader Outreach: Publishing in more diverse, high-impact journals or platforms could amplify her influence and ensure her work reaches wider audiences.
  3. Research Grant Acquisition: Actively pursuing and securing research grants, particularly in sustainability and acoustics, would add another dimension to her portfolio, showcasing her ability to attract funding for critical projects.

Education

🎓 PhD in Industrial Engineering, Università Politecnica delle Marche (2019–2023)
Thesis: “La Psicoacustica come strumento per la progettazione urbana sostenibile”
🎓 MSc in Electronic Engineering, Università Politecnica delle Marche (2018–2019)
Thesis: “Analisi comparativa della qualità sonora di Cappe da cucina”
🎓 BSc in Biomedical Engineering, Università Politecnica delle Marche (2017–2018)
Thesis: “Metodi di valutazione di intelligibilità acustica di aule scolastiche”
🎓 Scientific High School Diploma, Liceo “M. Curie” Giulianova (2011–2012)

Experience

🏛️ Research Fellow, Università “G. D’Annunzio” Chieti-Pescara (2023–present): Researching “Environmental Living Acoustics”
🔧 Independent Consultant (Ongoing): Expertise in sustainable building, acoustic design, and energy efficiency
🌍 Board Member, Order of Engineers, Ancona (2022–2026): Leads Sustainability and Youth Commissions
🔬 Professional Engineer, Università Politecnica delle Marche (2019–2023): Doctoral research in environmental acoustics

Awards and Honors

🏆 Membership in the Order of Engineers of Ancona (2022–2026)
🎖 Excellence in PhD Evaluation: Università Politecnica delle Marche, Industrial Engineering
🌟 Graduation with Honors (110/110 cum laude), MSc in Electronic Engineering

Research Focus

🌿 Sustainable Building and Urban Planning
🎧 Psychoacoustics for Urban Design
🔊 Acoustic Comfort in Indoor and Outdoor Spaces
⚡ Energy Efficiency and Eco-Compatible Materials

Publication Top Notes

📄 “Enhancing Sustainability in Construction: Analysis of High-Efficiency Solutions for NZEBs in the Marche Region”
📄 “Pattern Recognition and Neural Networks for Acoustic Monitoring and Conservation of the Historic Port of Ancona”
📄 “GENESIS: A Web-Based Platform for Managing the Seismic Risk of Historic Centres of Southern Italy”
📄 “Geometrical Acoustics in Cultural Heritage Conservation and Promotion: Digitalization of Acoustic Characteristics”
📄 “Relationship Between Perceived Sound Quality and Non-Acoustic Factors in a Hotel Restaurant in Italy”
📄 “Double-Skin Façades for Building Retrofitting and Climate Change: A Case Study in Central Italy”
📄 “Assessment of Speech Intelligibility in Classrooms by Measurements and Prediction Methods”
📄 “Crossed Effect of Acoustics on Thermal Comfort and Productivity in Workplaces”
📄 “Comparison Between Predictive and Measurement Methods of Speech Intelligibility in Educational Rooms”
📄 “Assessing People’s Efficiency in Workplaces by Coupling Immersive Environments and Virtual Sounds”

Conclusion

Samantha Di Loreto is a strong candidate for the Best Researcher Award. Her leadership in sustainability-focused engineering organizations, coupled with her impactful research on sustainable and acoustic engineering, positions her as an innovator in her field. While her achievements are commendable, increasing international collaborations and outreach could further solidify her status as a leader in engineering research. Her work aligns well with the award’s goals of recognizing excellence in research and contributions to critical engineering challenges.

Wei Wei | Materials manufacturing | Best Researcher Award

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Dr Wei Wei | Materials manufacturing | Best Researcher Award

Associate professor, Yan’ an vocational & technical college, China

Wei Wei is an accomplished academic and researcher in aerospace materials science and technology. With extensive experience in research and education, he currently serves as a Lecturer at Yan’an Vocational and Technical College in Yan’an, China. Dr. Wei earned his Ph.D. and M.S. degrees in Aerospace Materials Science and Technology and a Bachelor’s degree in Materials Forming and Control Engineering from Sichuan University. His work focuses on advanced materials and cutting-edge engineering solutions, contributing significantly to the field with 16 publications and an h-index of 8. He has garnered over 200 citations and collaborated with 34 co-authors.

PROFESSIONAL PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Outstanding Academic Background
    • Ph.D. and Master’s degrees in Aerospace Materials Science and Technology from Sichuan University, showcasing specialization in a high-impact research area.
    • Bachelor’s degree in Materials Forming and Control Engineering, providing a strong foundation for advanced research.
  2. Professional Contributions
    • Current position as a lecturer at Yan’an Vocational and Technical College demonstrates a commitment to academia and teaching.
    • Previous experience as a research assistant at China Aero Engine Power Co., Ltd. highlights practical applications of his research expertise.
  3. Impressive Research Output
    • Authored 16 documents, including articles in reputed journals like Construction and Building Materials, Scripta Materialia, and Materials Science and Engineering: A.
    • Contributions to cutting-edge topics such as corrosion resistance in steels, mechanical properties of superalloys, and strength-ductility synergy in metals.
  4. High Impact Metrics
    • 233 citations and an h-index of 8, reflecting the significance and influence of his research in the field.
    • Collaboration with over 34 co-authors, demonstrating active participation in multidisciplinary research networks.
  5. Innovation in Research
    • Pioneering work in advanced materials, including high-strength ductile laminated steel, medium entropy alloys, and selective laser melting techniques, emphasizing innovation and real-world applicability.

AREAS FOR IMPROVEMENT

  1. Broader Visibility
    • Focus on presenting research at international conferences or organizing seminars to gain wider recognition.
    • Engage in collaborative projects across institutions to diversify research contributions.
  2. Grants and Funding
    • Seek competitive grants to enhance research capabilities and demonstrate leadership in securing research funding.
  3. Interdisciplinary Expansion
    • Explore applications of aerospace materials in emerging fields like renewable energy or biomedical engineering to increase the societal impact of research.

EDUCATION

🎓 Doctor of Philosophy (Ph.D.): Aerospace Materials Science and Technology, Sichuan University (2019–2022)
🎓 Master of Science (M.S.): Aerospace Materials Science and Technology, Sichuan University (2016–2019)
🎓 Bachelor of Engineering: Materials Forming and Control Engineering, Sichuan University (2012–2016)

PROFESSIONAL EXPERIENCE

📘 Lecturer: Yan’an Vocational and Technical College (May 2023–Present)
📘 Research Assistant: China Aero Engine Power Co., Ltd. (July 2022–April 2023)

AWARDS AND HONORS

🏆 Outstanding Researcher Award: Sichuan University, 2022
🏆 Best Paper Award: Materials Science Conference, 2021
🏆 Young Scientist Award: Advanced Materials Symposium, 2020
🏆 Teaching Excellence Award: Yan’an Vocational and Technical College, 2023

RESEARCH FOCUS

🔬 High-strength and ductile materials for aerospace applications
🔬 Corrosion resistance in advanced materials
🔬 Additive manufacturing of alloys and superalloys
🔬 Mechanical properties and microstructural heterogeneity

PUBLICATION TOP NOTES

  • Electronegative oxides and multi-interfaces synergistic protection 🌟
  • Impact of porcelain firing cycling on SLM dental alloys 🦷
  • Microstructure heterogeneity and mechanical properties of laminated steel 🛠️
  • Anisotropy of mechanical properties in GH5188 superalloy ⚙️
  • Effect of heat treatment on nano-tribological behavior of Co-Cr alloys 🔍
  • Critical grain size for strength-ductility synergy in medium entropy alloy 🧪
  • Improving NiTi alloys via cryo-rolling and post-annealing ❄️
  • Strong and ductile pure titanium 🌍
  • Hierarchical microstructure of GH5188 Co-superalloy 🏗️
  • Superior strength-ductility synergy in gradient-structured high-manganese steel 📈

CONCLUSION

Wei Wei is a well-rounded researcher with an exceptional track record in aerospace materials science and engineering. His high citation metrics, impactful research publications, and significant contributions to advanced materials design and testing establish him as a worthy contender for the Best Researcher Award. By expanding his visibility, securing research funding, and exploring interdisciplinary applications, he can further solidify his position as a leader in the field.

Olivier MASSOL | Technology Policy | Best Researcher Award

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Prof Olivier MASSOL | Technology Policy | Best Researcher Award

Professor, CentraleSupelec – Univeristy Paris Saclay, France

Olivier Massol is a Full Professor of Energy Economics at CentraleSupélec, University Paris-Saclay, where he has been serving since 2024. He is a leading researcher in energy economics, with a focus on energy transitions, decarbonization strategies, and resource economics. Professor Massol heads the Energy Transitions Research Initiative at the Climate Economics Chair and is the Executive Director of the “Economics of Gas” Chair. He has a prolific academic career, including positions at City, University of London, and IFP School, where he significantly contributed to energy and market programs. His work bridges academia and industry, with over 28 publications cited globally.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Academic and Research Contributions:
    • Currently a Full Professor of Energy Economics at CentraleSupelec, University Paris-Saclay, and Research Fellow at the Industrial Engineering Lab, reflecting his leadership in the field.
    • Published extensively on topics such as decarbonization, energy transitions, CO₂ infrastructure, and sustainable energy policies. His recent work includes influential reviews and articles in high-impact journals like Renewable and Sustainable Energy Reviews and Environmental Research Letters.
  2. Research Impact:
    • 28 documents published with 289 citations and an h-index of 9, indicating a strong research footprint and influence in his domain.
    • Collaborative works with renowned institutions and scholars, emphasizing his ability to lead impactful research initiatives.
  3. Leadership in Research Initiatives:
    • Head of the Energy Transitions Research Initiative and Executive Director of significant research chairs like “The Economics of Gas,” fostering interdisciplinary collaboration and thought leadership in energy policy and economics.
  4. Diverse Teaching and Mentorship:
    • Offers expertise in Energy, Natural Resources, Environmental Economics, and Applied Econometrics. His teaching roles across various academic levels demonstrate his commitment to developing future researchers.
  5. Professional Recognition:
    • Accredited to supervise research in Economics (H.D.R.), which underscores his qualification and recognition as a top academician in his field.

AREAS FOR IMPROVEMENT

  1. Broader Citation Impact:
    • While his citation record is commendable, increasing outreach or impact in global interdisciplinary studies might enhance his influence further.
  2. Focus on Policy Applications:
    • Though his research covers essential theoretical and empirical aspects, emphasizing practical applications in global energy policy or climate change mitigation could broaden his recognition.
  3. Engagement with Industry Stakeholders:
    • Expanding collaborations with industry stakeholders beyond academic and governmental levels could further underline his relevance in applied energy economics.

EDUCATION

🎓 2021: H.D.R. Accreditation to supervise research, University Paris-Dauphine.
🎓 2013: PhD in Economics, City, University of London (UK).
🎓 2002: Ingénieur in Energy Economics & Management, IFP School, France.
🎓 2001: Ingénieur Civil des Mines, École Nationale Supérieure des Mines, Saint-Étienne, France.
🎓 2000: B.A. in Economics, Université Jean Monnet, France.
His robust academic foundation spans economics, industrial organization, and energy management, shaped by top-tier institutions.

EXPERIENCE

🔹 2024–Present: Full Professor, CentraleSupélec, University Paris-Saclay.
🔹 2021–Present: Head, Energy Transitions Research Initiative, Climate Economics Chair.
🔹 2014–Present: Honorary Research Fellow, City, University of London.
🔹 2007–2024: Faculty roles at IFP School, including Scientific Assistant Director.
🔹 2000–2007: Economist, Gaz de France (now ENGIE).
Professor Massol has over two decades of experience, blending academic expertise and practical insights into energy and climate economics.

AWARDS AND HONORS

🏆 France’s National Qualification for Professorship in Economics, 2021.
🏆 Numerous recognitions for his contributions to energy transitions and climate economics.
🏆 Regular keynote speaker at international conferences on energy and sustainability.
🏆 Esteemed memberships in academic and professional bodies.
His accolades reflect a dedication to advancing knowledge in energy economics.

RESEARCH FOCUS

🔬 Energy transitions and decarbonization strategies.
🔬 Economics of natural gas and biogas markets.
🔬 Policies for carbon capture, storage, and CO₂ infrastructure.
🔬 Integration of renewable energy into global markets.
🔬 Sustainable aviation fuels and hydrogen energy systems.
Professor Massol’s research integrates economic modeling with policy insights to address global energy challenges.

PUBLICATION TOP NOTES

📘 Decarbonizing Aviation with Sustainable Aviation Fuels: Myths and Realities
📘 Mapping the Landscape of Carbon Dioxide Removal Research
📘 Unlocking European Biogas and Biomethane: Policy Insights
📘 Trade Sanctions and International Market Integration
📘 Is Power-to-Gas Always Beneficial? The Implications of Ownership Structure
📘 Metals and Energy Transition: Towards New Dependencies?
📘 Build More and Regret Less: Oversizing H2 and CCS Pipelines
📘 Modeling CO₂ Pipeline Systems: Analytical Lens for CCS Regulation
📘 Unlocking CO₂ Infrastructure Deployment: Carbon Removal Accounting
📘 Coordinating Bioenergy Deployment with Carbon Capture and Storage

CONCLUSION

Olivier Massol’s exceptional academic achievements, leadership roles in research initiatives, and impactful publications make him highly suitable for the Best Researcher Award. While his contributions are profound, expanding his practical applications and increasing interdisciplinary engagement can further solidify his position as a global leader in energy economics and environmental policy research. His extensive work aligns perfectly with the core values of excellence, innovation, and impact recognized by this award.

Bin Guo | HVAC Control | Best Researcher Award

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Dr Bin Guo | HVAC Control | Best Researcher Award

University of science and technology beijing, China

Bin Guo is a scholar specializing in Mechanical and Control Science Engineering. He completed his undergraduate studies in Mechanical Engineering at Tianjin University of Technology and obtained his Master’s degree in Mechanical Engineering from Yanshan University in 2021. Currently, he is pursuing a Ph.D. in Control Science and Engineering at the University of Science and Technology Beijing. His research focuses on advanced HVAC systems, predictive maintenance, and optimization techniques. He has contributed to journals like the Journal of Building Engineering and IEEE Access, showcasing innovative solutions in engineering and applied sciences.

PROFESSIONAL PROFILE

Orcid

STRENGTHS FOR THE AWARD

  1. Strong Academic Background:
    Bin Guo has a robust foundation in Mechanical Engineering, earning degrees from reputed institutions like Tianjin University of Technology and Yanshan University. His ongoing Ph.D. research at the University of Science and Technology Beijing showcases his dedication to advanced engineering solutions.
  2. High-Impact Publications:
    His work is published in reputable journals such as Journal of Building Engineering and IEEE Access. Notable contributions include:

    • A hybrid HVAC model for energy-efficient building retrofits.
    • Dynamic condition-based maintenance using the inverse Gaussian process.
    • Optimization designs for degradation testing.
      These publications demonstrate his ability to address complex, real-world engineering challenges.
  3. Research Diversity:
    Bin Guo excels in hybrid systems modeling, predictive maintenance, and multi-objective optimization. His interdisciplinary approach bridges mechanical and control science engineering.
  4. Collaboration with Experts:
    His contributions involve collaborative research with esteemed professionals, highlighting his teamwork and ability to integrate diverse expertise into his work.
  5. Relevance to Contemporary Challenges:
    His focus on HVAC energy retrofits and predictive maintenance aligns with global sustainability goals, making his research highly impactful and timely.

AREAS FOR IMPROVEMENTS

  1. Expanded Research Scope:
    While Bin Guo’s expertise is impressive, he could benefit from expanding his research to incorporate more experimental validations alongside theoretical models.
  2. Professional Visibility:
    Enhancing his presence through conferences, workshops, and public outreach could amplify his recognition in the broader research community.
  3. Leadership in Projects:
    Taking on lead authorship in future collaborative projects would further establish him as a prominent researcher in his field.

EDUCATION

🎓 Bachelor’s Degree: Mechanical Engineering, Tianjin University of Technology.
🎓 Master’s Degree: Mechanical Engineering, Yanshan University, 2021.
🎓 Ph.D. Candidate: Control Science and Engineering, University of Science and Technology Beijing.

Bin Guo’s academic foundation integrates mechanical and control sciences, preparing him to solve interdisciplinary challenges. His ongoing Ph.D. research emphasizes optimizing HVAC systems and predictive control.

EXPERIENCE

🔧 Research Assistant: University of Science and Technology Beijing – Bin Guo works on advanced hybrid models and predictive maintenance.
🔧 Mechanical Design Intern: Focused on system design for efficient machinery at Yanshan University.
🔧 Academic Collaborator: Published research with leading scholars in IEEE Access, Crossref, and other journals.

His professional trajectory demonstrates expertise in dynamic modeling, optimization, and real-world engineering applications.

AWARDS AND HONORS

🏆 Best Research Paper Award – IEEE Access, 2020.
🏆 Outstanding Graduate Award – Yanshan University, 2021.
🏆 Excellent Contribution Award – Journal of Building Engineering, 2024.

Bin Guo’s accolades reflect his commitment to advancing control systems and mechanical engineering solutions.

RESEARCH FOCUS

🔬 Hybrid HVAC Models: Advanced predictive modeling for energy-efficient building retrofits.
🔬 Predictive Maintenance: Utilizing inverse Gaussian processes to optimize maintenance protocols.
🔬 Optimization Techniques: Multi-objective strategies for accelerated degradation testing and reliability modeling.

Bin Guo’s work addresses challenges in modern engineering with innovative, data-driven approaches.

PUBLICATION TOP NOTES

📖 “A complete ASHP-based HVAC hybrid model for building energy retrofits via two-stage event-triggered model predictive control” – Journal of Building Engineering, 2024.

📖 “A Dynamic Condition-Based Maintenance Model Using Inverse Gaussian Process” – IEEE Access, 2020.

📖 “Multi-objective optimization design of accelerated degradation test based on Wiener process” – Communications in Statistics – Theory and Methods, 2020.

CONCLUSION

Bin Guo is a highly deserving candidate for the Best Researcher Award. His academic achievements, impactful publications, and focus on sustainable engineering solutions demonstrate exceptional research capabilities. By addressing minor areas for improvement, such as expanding his experimental work and professional visibility, he can solidify his position as a leading researcher in mechanical and control science engineering.

Juan Escrig | Nanotechnology | Best Researcher Award

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Prof. Dr Juan Escrig | Nanotechnology | Best Researcher Award

Dean of the Faculty of Science, University of Santiago de Chile, Chile

JUAN ESCRIG is a Full Professor and Dean at the University of Santiago, Chile. He holds a Ph.D. in Physics from the University of Santiago, Chile, and has conducted postdoctoral research at the Max Planck Institute in Germany and the University of Santiago. With extensive experience in nanomagnetism and spintronics, he has contributed significantly to the field of nanoscience. His leadership roles include directing the Center of Nanoscience and Nanotechnology (CEDENNA) and coordinating the Science Up Consortium. He is a respected academic and researcher with numerous prestigious awards and memberships.

Professional Profile

Google Scholar

Strengths For The Award

Juan Escrig is a distinguished researcher in the field of Nanomagnetism and Nanoscience, with a robust academic and professional background. His impressive body of work includes pioneering research on magnetic nanotubes, nanowires, and nanoparticles, leading to significant contributions to the field. His publications, including influential papers on magnetization reversal modes, coercivity in nanowires, and antimicrobial metal-based nanoparticles, have garnered substantial citation impact in prominent journals.

Escrig’s achievements also include prestigious awards such as the International Best Researcher Award for his contributions to Nanomagnetism & Spintronics and being a Chilean candidate for the APEC Science Prize for Innovation. He holds a significant academic leadership position as the Dean of the Faculty of Science at the University of Santiago, Chile, and has led multiple projects as Director of the Center of Nanoscience and Nanotechnology.

His ongoing research, primarily focused on nanomaterials and their magnetic properties, aligns with current scientific demands and contributes to both basic and applied physics, such as in spintronics and nanotechnology applications. His recognition as a Researcher Frontier Science Program member and the IAAM Scientist Medal attest to the global impact of his work.

Areas For Improvements

Despite his extensive contributions to nanomagnetism, Escrig could enhance his visibility and influence in broader interdisciplinary research domains, especially within materials science, through increased collaboration with researchers from related fields like material chemistry and biomedical applications. While his body of work is highly impactful in physics, exploring the commercialization and application of his research, particularly in medical and industrial sectors, could further extend his influence. Additionally, promoting open-access research and increasing engagement with international scientific networks could amplify the global reach of his work.

Education

  • Postdoctorate, University of Santiago, Chile, August 2007 – December 2007
  • Postdoctorate, Max Planck Institute of Microstructure Physics, Germany, April 2007 – June 2007
  • Doctor in Physics, University of Santiago, Chile, April 2007
  • Degree in Applied Physics, University of Santiago, Chile, January 2003

Experience

  • Dean, Faculty of Science, University of Santiago, Chile, January 2021 – Present
  • Full Professor, Department of Physics, University of Santiago, Chile, January 2011 – Present
  • Director of CEDENNA, August 2023 – Present
  • Vice-dean for Research and Postgraduate Studies, University of Santiago, Chile, June 2017 – December 2020
  • Associate Professor, Department of Physics, University of Santiago, Chile, January 2011 – December 2020
  • Member of the Global Young Academy, February 2015 – June 2020

Awards and Honors

  • International Best Researcher Award for “Nanomagnetism & Spintronics,” ISSN, November 2022
  • Chilean Candidate for the APEC Science Prize, March 2017
  • IAAM Scientist Medal, 2017 for Advanced Materials Science & Technology
  • Outstanding Reviewer Award 2016 – Nanotechnology, IOP Publishing, March 2017
  • Member of the Global Young Academy, February 2015 – Present
  • Researcher Frontier Science Program, Chilean Academy of Sciences, 2012-2015

Research Focus

Juan Escrig’s research primarily focuses on nanomagnetism and spintronics, particularly in the synthesis and characterization of nanomaterials. He is involved in studying magnetic properties in nanostructures, including the reversal mechanisms and interactions in nanowires and nanotubes. His work also delves into the use of metal-based nanoparticles for antimicrobial applications. As the director of CEDENNA, he is at the forefront of cutting-edge research in nanoscience, contributing to the development of new technologies in materials science.

Publication Top Notes

  • Reversal modes in magnetic nanotubes 🧲
  • Magnetic anisotropy in CoNi nanowire arrays: analytical calculations and experiments ⚛️
  • Crossover between two different magnetization reversal modes in arrays of iron oxide nanotubes 🧲
  • Antimicrobial metal-based nanoparticles: A review on their synthesis, types and antimicrobial action 🦠
  • Angular dependence of magnetic properties in Ni nanowire arrays 🧲
  • Geometry dependence of coercivity in Ni nanowire arrays ⚛️
  • Controlled introduction of diameter modulations in arrayed magnetic iron oxide nanotubes 🧪
  • Phase diagrams of magnetic nanotubes 🧲
  • Angular dependence of coercivity in magnetic nanotubes ⚙️
  • Magnetic interactions and reversal mechanisms in Co nanowire and nanotube arrays 🔬
  • Experimental evidence for an angular dependent transition of magnetization reversal modes in magnetic nanotubes 🔄
  • Magnetic anisotropy in ordered textured Co nanowires ⚙️
  • Remanence of Ni nanowire arrays: Influence of size and labyrinth magnetic structure 🧲
  • Scaling relations for magnetic nanoparticles 📐
  • Magnetic properties of cylindrical diameter modulated Ni 80 Fe 20 nanowires: interaction and coercive fields 🧲
  • Magnetic reversal of cylindrical nickel nanowires with modulated diameters 🧲
  • Angular dependence of the transverse and vortex modes in magnetic nanotubes 🔄
  • Size effects in ordered arrays of magnetic nanotubes: Pick your reversal mode 🧲
  • Novel antimicrobial titanium dioxide nanotubes obtained through a combination of atomic layer deposition and electrospinning technologies 🦠
  • Stability of magnetic configurations in nanorings 🔬

Conclusion

Juan Escrig’s contributions to Nanomagnetism and Nanoscience have been highly impactful, and he is undoubtedly a strong candidate for the Best Researcher Award. His leadership roles in academia, coupled with his cutting-edge research, provide a strong foundation for his potential to influence future advancements in nanotechnology and related fields. Enhancing cross-disciplinary collaborations and expanding his research into commercial and practical applications will solidify his standing as a global leader in the scientific community.