Mohsen Ghorbian | Data Sience | Best Researcher Award

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Dr. Mohsen Ghorbian | Data Sience | Best Researcher Award

Data Sience, Islamic Azad University of Qom Iran

Mohsen Ghorbian  is a forward-thinking computer scientist and researcher recognized for his impactful work in AI, machine learning, IoT, and blockchain within the biomedical and healthcare domain  With a robust portfolio of peer-reviewed publications  from 2020 to 2025, he has contributed to enhancing clinical decision-making and real-time health monitoring systems ⚙️. His interdisciplinary collaborations and leadership in intelligent systems development showcase his commitment to addressing real-world problems through innovative computational methods . He is widely cited and active in the global research community, holding both a Web of Science ResearcherID and ORCiD . Mohsen’s contributions bridge academic research and applied technology , making him a valuable thought leader in modern healthcare computing and serverless architectures.

Profile

Scholar

🎓 Education 

Mohsen Ghorbian has pursued a solid academic background in computer science and engineering , focusing on AI-driven health systems and intelligent computing . He holds advanced degrees, likely including a Ph.D.  with specialization in biomedical informatics, cloud computing, and IoT systems, although precise university details are not publicly listed . His educational journey is evident from his deep engagement in scholarly activities, high-level publication venues , and his active role in bridging computer science with clinical decision support and healthcare AI . The depth of knowledge reflected in his research output signifies extensive formal training in data mining, serverless architectures, blockchain security, and AI applications for medical and industrial domains . Through interdisciplinary learning and rigorous technical education, Mohsen has positioned himself as a specialist in deploying smart technologies in real-time biomedical environments .

💼 Experience 

Mohsen Ghorbian has a vibrant research career  from 2020–2025, with significant contributions to academia and technical development in AI, ML, IoT, and blockchain ecosystems . He’s co-authored and independently authored numerous papers across high-impact journals and conferences , indicating involvement in both individual research and collaborative projects . His work spans practical healthcare systems, including IoT-enabled real-time epilepsy monitoring , ML for hepatitis reduction , and serverless blockchain security for IoT drones . As an academic, he likely holds roles as a lecturer, assistant professor, or senior researcher at a tech or medical-oriented university . Mohsen also contributes to technological advancements through serverless computing, AI decision support, and smart biomedical applications, showcasing hands-on experience in research implementation, system modeling, and prototype development . His career reflects a blend of innovation, critical analysis, and application of computing to solve real-world healthcare challenges 🚑.

🏅 Awards and Honors 

Though specific titles of awards are not mentioned, Mohsen Ghorbian’s publishing record and research breadth imply recognition in academic and professional communities . His work’s inclusion in prestigious venues like Artificial Intelligence Review, Biomedical Signal Processing, and Cancer Treatment & Research Communications  suggests peer recognition and editorial approval for scholarly excellence . Being first author on key papers and collaborating with respected researchers highlights his growing authority in AI-healthcare integration . He is likely a recipient of conference presentation opportunities, research grants, or academic fellowships tied to intelligent systems and digital health technologies . Mohsen’s consistent output and forward-looking projects, such as generative AI for clinical decision-making and IoT-ML for epilepsy, position him as an emerging leader in computer science with international exposure . Holding identifiers like ORCiD and ResearcherID also reflects academic credibility and potential inclusion in expert panels or editorial boards .

🔬 Research Focus 

Mohsen Ghorbian’s research is deeply rooted in the convergence of artificial intelligence , Internet of Things , blockchain , and serverless computing —all applied to transformative healthcare solutions . His focus includes designing intelligent decision support systems, real-time biomedical monitoring platforms, and secure cloud-based environments for medical data processing and alerting systems . He explores how generative AI can empower clinical outcomes , applies machine learning to reduce diagnostic delays and mortality in diseases like hepatitis and lymphoma , and develops secure serverless infrastructures for drone-based and IoT-based healthcare delivery . His interdisciplinary approach integrates biomedical signal processing, bioinformatics, and systems engineering, aiming to make healthcare more predictive, personalized, and preventive . His work not only advances academic theories but also yields practical, deployable technologies bridging computer science with medicine .

Conclusion

Dr. Mohsen Ghorbian presents a strong, evolving research profile with clear contributions to interdisciplinary, high-tech domains like AI-driven healthcare, blockchain-based IoT, and serverless computing. His publication record reflects technical innovation and academic consistency, positioning him as a worthy candidate for a Best Researcher Award, particularly in emerging technology or biomedical informatics domains.

Publication

  • Author: Aladib, L. & Lee, S.P.
    Title: Pattern Detection and Design Rationale Traceability: An Integrated Approach to Software Design Quality
    Year: 2018
    Citations: 10

 

  • Author: Aladib, L.
    Title: Case Study of Object Constraints Language (OCL) Tools
    Year: 2014
    Citations: 3

 

  • Author: Aladib, L., Su, G., & Yang, J.
    Title: Real-Time Monitoring of LTL Properties in Distributed Stream Processing Applications
    Year: 2025
    Citations: 0

 

  • Author: Aladib, L.
    Title: Detecting Design Pattern and Tracing Its Design Rationale
    Year: 2017
    Citations: 0

 

  • Author: Loay, A.
    Title: Detecting Design Pattern and Tracing Its Design Rationale / Loay Aladib
    Year: 2017
    Citations: 0

 

  • Author: Aladib, L.
    Title: Task Management System (TMS) for University of Malaya Research Student
    Year: 2015
    Citations: 0

 

  • Author: Aladib, L.
    Title: Case Study of Student Registration System (SRS) Domain
    Year: 2015
    Citations: 0

 

  • Author: Aladib, L., Fey, C.H., Ling, S.T.C., & Thamutharam, Y.N.
    Title: Case Study of Online Properties Auction System (OPAS) Domain
    Year: 2014
    Citations: 0

 

  • Author: Aladib, L., Ling, S.T.C., Thamutharam, Y.N., Rosli, M.N. bin, & Ridzuan, E.A.
    Title: Software Requirements Specification (SRS) Web Publishing System Domain
    Year: 2014
    Citations: 0

 

Loay Aladib | Information Sciences |Young Scientist Award

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Mr. Loay Aladib | Information Sciences |Young Scientist Award

PhD Research Scholar, University of Wollongong

Loay Aladib is a PhD Research Scholar at the University of Wollongong, Australia, specializing in Software Engineering and Artificial Intelligence. With 12+ years of experience, he has led software teams to build efficient, elegant solutions across diverse platforms. His core strength lies in blending practical software design with deep technical research. Loay is currently immersed in developing advanced frameworks that integrate Runtime Verification with stream processing systems like Apache Spark. His work ensures scalable, real-time monitoring of distributed systems, driving innovations in safety-critical applications such as IoT and smart cities. Adept in various languages, frameworks, and cloud platforms, Loay exemplifies the role of a modern software architect and researcher. His commitment to excellence, adaptability, and problem-solving mindset has positioned him at the forefront of next-generation computing solutions. Loay is not only a passionate coder but also a visionary problem solver working at the intersection of code, logic, and impact.

Profile

Scholar

🎓 Education 

 Loay Aladib is currently pursuing a PhD in Software Engineering and Artificial Intelligence at the University of Wollongong, focusing on real-time distributed systems and formal verification techniques. His doctoral research bridges theoretical concepts like Linear Temporal Logic with practical big data stream frameworks. Before this, Loay earned his bachelor’s degree in computer science/software engineering, followed by a postgraduate specialization (details not provided). His academic journey is driven by a desire to enhance software system reliability through intelligent automation and scalable architecture. Loay’s education is marked by continuous learning, technical proficiency, and interdisciplinary exploration, equipping him with the skills to address complex challenges in AI and software development. His PhD candidacy reflects his commitment to research excellence, innovation, and the application of formal methods in real-world computing environments. Through rigorous academic training and practical insight, Loay has developed a unique profile combining academic depth with industry-savvy problem-solving capabilities.

💼 Experience 

 With 12+ years of robust professional experience, Loay Aladib has led software development teams across various tech sectors, delivering high-performance, scalable solutions tailored to business and user needs. His role has spanned full-stack development, system architecture, and collaborative product engineering. Loay consistently combines technical depth with strategic vision, enabling teams to innovate rapidly while maintaining code quality and performance. Beyond corporate roles, his current work as a PhD researcher involves designing AI-integrated monitoring systems for distributed data streams, showcasing a unique fusion of industry expertise with academic rigor. Loay is proficient in cloud platforms, diverse programming languages, and modern software engineering practices. He brings creativity and adaptability to every project, turning technical constraints into scalable solutions. His leadership experience includes mentoring junior developers, managing cross-functional teams, and aligning technical goals with organizational objectives. Loay thrives in dynamic, challenge-driven environments, always pushing boundaries in software reliability and intelligent system design.

🏅 Awards and Honors 

 Loay Aladib has been nominated for prestigious awards such as the Best Researcher Award and Young Scientist Award in recognition of his impactful contributions to the intersection of software engineering and artificial intelligence. While specific award wins are yet to be listed, his nomination itself speaks volumes about the originality, utility, and future relevance of his work. His real-time verification framework for Apache Spark has received positive attention from peers and professionals alike for enhancing system reliability in distributed data environments. Loay’s IEEE membership also signifies his recognition and affiliation within a global community of innovators. His work is not just academic but designed for high-impact real-world applications, particularly in areas like smart cities, IoT, and industrial automation. These contributions underscore his potential for receiving honors in innovation, research excellence, and technology leadership. With several publications and ongoing collaborations, Loay stands out as a rising star in next-gen computing research.

🔬 Research Focus 

 Loay Aladib’s research is centered on enhancing real-time reliability in distributed systems using Runtime Verification (RV) and Linear Temporal Logic (LTL). His doctoral work proposes a novel runtime framework for monitoring LTL properties in streaming environments like Apache Spark, ensuring accurate real-time detection of safety and liveness violations in complex data flows. The research bridges formal verification with practical implementation, introducing scalable and reusable LTL patterns for system developers. A key application includes real-time weather data analysis, where his model detected anomalies in temperature and wind speed conditions efficiently. Loay’s research aims to simplify the adoption of formal methods in industry by making verification tools modular, performant, and adaptable across platforms like Apache Flink and beyond. This work has high potential for applications in IoT, smart infrastructure, and mission-critical industrial monitoring. By aligning correctness with efficiency, Loay’s focus sets a new standard in stream-processing reliability and system assurance.

Conclusion

Loay Aladib is a strong and promising candidate for the Young Scientist Award, especially given his interdisciplinary expertise, real-world applicability of his research, and dedication to bridging theoretical rigor with scalable implementation. While there is scope for academic profile expansion through more citations, publications, and collaborations, his current trajectory and innovations reflect significant potential. Recognizing his work through this award would not only be a timely encouragement but also propel further impactful contributions in AI-driven software engineering and distributed systems.

Publication

Author: Aladib, L. & Lee, S.P.
Title: Pattern Detection and Design Rationale Traceability: An Integrated Approach to Software Design Quality
Year: 2018
Citations: 10

Author: Aladib, L.
Title: Case Study of Object Constraints Language (OCL) Tools
Year: 2014
Citations: 3

Author: Aladib, L., Su, G., & Yang, J.
Title: Real-Time Monitoring of LTL Properties in Distributed Stream Processing Applications
Year: 2025
Citations: 0

Author: Aladib, L.
Title: Detecting Design Pattern and Tracing Its Design Rationale
Year: 2017
Citations: 0

Author: Loay, A.
Title: Detecting Design Pattern and Tracing Its Design Rationale / Loay Aladib
Year: 2017
Citations: 0

 

Author: Aladib, L.
Title: Task Management System (TMS) for University of Malaya Research Student
Year: 2015
Citations: 0

Author: Aladib, L.
Title: Case Study of Student Registration System (SRS) Domain
Year: 2015
Citations: 0

Author: Aladib, L., Fey, C.H., Ling, S.T.C., & Thamutharam, Y.N.
Title: Case Study of Online Properties Auction System (OPAS) Domain
Year: 2014
Citations: 0

Author: Aladib, L., Ling, S.T.C., Thamutharam, Y.N., Rosli, M.N. bin, & Ridzuan, E.A.
Title: Software Requirements Specification (SRS) Web Publishing System Domain
Year: 2014
Citations: 0

FAEZEH MAGHSOOD | Infectious disease | Best Researcher Award

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Dr. FAEZEH MAGHSOOD | Infectious disease | Best Researcher Award

Faezeh Maghsood (b. January 5, 1990, Iran)  is a highly skilled immunologist specializing in vaccine development, monoclonal antibodies, and immunotherapy for cancer and infectious diseases.  With a B.Sc., M.Sc., and Ph.D. in Medical Immunology from Tehran University of Medical Sciences (TUMS), she has consistently ranked at the top throughout her academic journey.  She currently works as a Research Associate at TUMS and has previously held positions at the Pasteur Institute of Iran and renowned clinical labs. 🧪 Her Ph.D. work focused on SARS-CoV-2 monoclonal antibody production, earning her multiple prestigious awards.  She has contributed to peer-reviewed journals and actively participates in global scientific events, including immunology congresses in Japan  and Iran. Faezeh is passionate about cutting-edge biomedical research, particularly tumor immunology and stem cells, and continues to push the boundaries in translational medicine.

Profile

Scholar

🎓 Education

Faezeh earned her B.Sc. in Medical Laboratory Sciences (2008–2012) from TUMS with a GPA of 18.33/20, showcasing her early interest in clinical diagnostics. She pursued her M.Sc. in Medical Immunology (2012–2016) at the same university, achieving an impressive GPA of 19.32/20, and researched probiotics’ effects on MMPs and immune markers . Her Ph.D. in Medical Immunology (2018–2023) was also from TUMS, with a GPA of 18.61/20, culminating in a thesis on the structural and functional characterization of neutralizing mouse monoclonal antibodies against SARS-CoV-2 under the supervision of Prof. Fazel Shokri and Dr. Amiri . Her academic journey reflects a strong foundation in both theoretical and applied aspects of immunological sciences, bolstered by exceptional talent recognition and consistent academic excellence .

👩‍🏫 Experience

Faezeh currently serves as a Research Associate at Tehran University of Medical Sciences (2024–Present), where she contributes to cutting-edge immunology research . Previously, she worked as a Research Assistant and Lab Manager (2015–2018) at the Pasteur Institute of Iran’s Biochemistry Department in the Stem Cell Lab . Her clinical background includes valuable roles in diagnostic laboratories at Shariati Hospital and Imam Khomeini Hospital during 2011–2012 . This diverse experience combines academic research, lab management, and hands-on clinical diagnostics, equipping her with a comprehensive skillset in experimental design, immunoassays, and lab operations . She actively participates in international training programs, enhancing her knowledge in genome editing, CRISPR/Cas9, RNA-seq, and R programming .

🏆 Awards & Honors

Faezeh has received several notable accolades, including 3rd place in the M8 Alliance Best PhD Thesis Prize (2024)  and selection as Best PhD Thesis at TUMS . She was ranked 1st nationally in Iran’s 2018 Ph.D. entrance exam in medical sciences . During her M.Sc. studies, she was acknowledged as an exceptionally talented student at TUMS’s Faculty of Allied Medicine (2012) and was the top student throughout her undergraduate years (2008–2012) . These achievements highlight her unwavering dedication, academic excellence, and research leadership . Faezeh’s accomplishments reflect a persistent pursuit of innovation and a strong commitment to contributing meaningfully to global scientific advancement, particularly in the fields of immunotherapy and biomedical diagnostics .

🔬 Research Focus

Faezeh’s research is deeply rooted in medical immunology, with core interests in vaccine development, monoclonal antibody production, and immunotherapy for cancer and infectious diseases . Her Ph.D. project involved the creation and detailed analysis of neutralizing monoclonal antibodies targeting SARS-CoV-2, highlighting her expertise in virology and structural immunology . She is also passionate about tumor immunology, exploring immune mechanisms in oncology, and advancing stem cell-based therapies . Faezeh is dedicated to bridging basic science with clinical application, using advanced methods like flow cytometry, CRISPR/Cas9 editing, RNA-Seq, and bioinformatics for translational immunological research . Her interdisciplinary focus aims to address global health challenges through innovation, collaboration, and precision medicine.

 Conclusion

Dr. Faezeh Maghsood is an exceptionally promising early-career researcher in medical immunology with a strong academic foundation, robust research outputs, and international exposure. Her work on monoclonal antibodies and SARS-CoV-2 is not only timely but also highly significant in the global health landscape. While she is still in the early stages of building a fully independent research portfolio, her trajectory, productivity, and recognition make her a highly suitable and worthy candidate for a Best Researcher Award, particularly in the early-career or emerging investigator category.

Publication

  1. Title: Hypoxia pre-conditioned embryonic mesenchymal stem cell secretome reduces IL-10 production by peripheral blood mononuclear cells
    Year: 2017
    Authors: M Lotfinia, S Lak, NM Ghahhari, B Johari, F Maghsood, S Parsania, …
    Citation: 45

 

  1. Title: Anti-proliferative and Anti-metastatic Potential of High Molecular Weight Secretory Molecules from Probiotic Lactobacillus Reuteri Cell-Free Supernatant Against …
    Year: 2020
    Authors: F Maghsood, B Johari, M Rohani, H Madanchi, Z Saltanatpour, M Kadivar
    Citation: 44

 

  1. Title: Dual effects of cell free supernatants from Lactobacillus acidophilus and Lactobacillus rhamnosus GG in regulation of MMP-9 by up-regulating TIMP-1 and down-regulating CD147 in …
    Year: 2017
    Authors: F Maghsood, A Mirshafiey, MM Farahani, MH Modarressi, P Jafari, …
    Citation: 43

 

  1. Title: Myc decoy oligodeoxynucleotide inhibits growth and modulates differentiation of mouse embryonic stem cells as a model of cancer stem cells
    Year: 2017
    Authors: B Johari, M Ebrahimi-Rad, F Maghsood, M Lotfinia, Z Saltanatpouri, …
    Citation: 23

 

  1. Title: SARS‐CoV‐2 nucleocapsid: Biological functions and implication for disease diagnosis and vaccine design
    Year: 2023
    Authors: F Maghsood, A Ghorbani, H Yadegari, F Golsaz‐Shirazi, MM Amiri, …
    Citation: 17

 

  1. Title: Diagnostic performance of a novel antigen-capture ELISA for the detection of SARS-CoV-2
    Year: 2023
    Authors: H Yadegari, M Mohammadi, F Maghsood, A Ghorbani, T Bahadori, …
    Citation: 16

 

  1. Title: Does prior immunization with measles, mumps, and rubella vaccines contribute to the antibody response to COVID-19 antigens?
    Year: 2021
    Authors: D Hassani, MM Amiri, F Maghsood, V Salimi, GA Kardar, O Barati, …
    Citation: 16

 

  1. Title: Epitope mapping of severe acute respiratory syndrome coronavirus 2 neutralizing receptor binding domain-specific monoclonal antibodies
    Year: 2022
    Authors: F Maghsood, MM Amiri, AH Zarnani, V Salimi, GA Kardar, J Khoshnoodi, …
    Citation: 14

 

  1. Title: The effect of Trimetazidine and Diazoxide on immunomodulatory activity of human embryonic stem cell-derived mesenchymal stem cell secretome
    Year: 2017
    Authors: S Jahandideh, F Maghsood, NM Ghahhari, M Lotfinia, M Mohammadi, …
    Citation: 14

 

  1. Title: Epitope mapping of neutralising anti‐SARS‐CoV‐2 monoclonal antibodies: implications for immunotherapy and vaccine design
    Year: 2022
    Authors: S Ghotloo, F Maghsood, F Golsaz‐Shirazi, MM Amiri, C Moog, F Shokri
    Citation: 12

 

  1. Title: Identification of immunodominant epitopes on nucleocapsid and spike proteins of the SARS-CoV-2 in Iranian COVID-19 patients
    Year: 2022
    Authors: F Maghsood, MR Shokri, M Jeddi-Tehrani, M Torabi Rahvar, A Ghaderi, …
    Citation: 11

 

  1. Title: Inhibition of transcription factor T‐cell factor 3 (TCF3) using the oligodeoxynucleotide strategy increases embryonic stem cell stemness: Possible application in regenerative …
    Year: 2019
    Authors: B Johari, Z Asadi, E Rismani, F Maghsood, Z Sheikh Rezaei, S Farahani, …
    Citation: 11

 

  1. Title: Anti-inflammatory property of β-D-mannuronic acid (M2000) on expression and activity of matrix metalloproteinase-2 and-9 through CD147 molecule in phorbol myristate acetate …
    Year: 2017
    Authors: MM Farahani, E Motevaseli, F Maghsood, M Heidari-Kharaji, A Mirshafiey
    Citation: 11

 

 

Esra Kut Görgün | Climate Change Adaptation | Young Scientist Award

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Dr. Esra Kut Görgün | Climate Change Adaptation | Young Scientist Award

Esra Kut Görgün is a city planner and researcher specializing in land use planning, rural development, and sustainable urban systems. She has held academic roles at top Turkish and European institutions and contributed to international journals and planning associations.

Profile

Scholar

🎓 Education

 Ph.D. in City and Regional Planning, Dokuz Eylul University (2017–2023) |  MSc from same dept. (2014–2017) |  BSc from Selcuk University (2013), minor in Geomatics |  Erasmus: Lublin University of Technology (2012) |  Postdoc: Politecnico di Milano (2024–2025), research on climate-neutral land use.

👩‍🏫 Experience

 Visiting Researcher, Politecnico di Milano (2024–2025) |  Dr. Research Assistant, Abdullah Gül University (2023–2024) |  Research Assistant, Dokuz Eylul University (2014–2023) |  Lecturer in Sustainable Cities, Urban Studies, and Architecture courses.

🏆 Awards & Honors

🏅 TUBITAK 2219 Post-Doctoral Scholarship (2024) |  ISOCARP Special Mention Award (2024) |  Pending Utility Model: “Hayalimdeki Mekanlar” |  Recognized reviewer and editorial board member in national and international journals.

🔬 Research Focus

 Urban planning,  land use,  remote sensing,  spatial statistics,  ecosystem services,  tactical urbanism,  climate neutrality, and  land use optimization — all with a vision for sustainable and inclusive development.

 Conclusion

Dr. Esra Kut Görgün presents a highly competitive and deserving profile for the Young Scientist Award, with a strong foundation in urban planning research, impactful publications, international experience, and academic leadership. Her interdisciplinary focus, especially in climate-resilient and ecosystem-based urban development, aligns with global sustainability goals. With continued publication in top-tier journals and growing visibility in international forums, she is poised to become a leading researcher in her field. The award would serve to recognize and further catalyze her promising career trajectory.

Publication

  • Title: Land use and land cover change monitoring in Bandırma (Turkey) using remote sensing and geographic information systems
    Year: 2020
    Authors: İ. Atay Kaya, E. Kut Görgün
    Journal: Environmental Monitoring and Assessment, 192(7), 430

 

  • Title: 6360 Sayılı Büyükşehir Kanunu Sonrası Kırsal Alanları Yeniden Düşünmek – İzmir Örneği
    Year: 2017
    Authors: E.K. Görgün, N. Yörür
    Journal: Aydın İktisat Fakültesi Dergisi, 2(1), 11-27

 

  • Title: Kırsal Yerleşmelerde Özgün Dokunun Korunmasında Bir Araç Olarak Köy Tasarım Rehberleri: Ödemiş Bademli Örneği
    Year: 2018
    Authors: E.K. Görgün, N. Yörür
    Journal: TÜBA-KED Türkiye Bilimler Akademisi Kültür Envanteri Dergisi, 25–47

 

  • Title: Sürdürülebilir Kırsal Kalkınma İçin Kırsal Alan Planlaması Genel Modeli ve KOP Bölgesi Kırsal Kalkınma Önerileri
    Year: 2013
    Author: E. Kut
    Conference: Ulusal KOP Bölgesel Kalkınma Sempozyumu, Konya

 

  • Title: Kentsel Mekân Üretiminde ‘Kendin Yap’ Hareketi
    Year: 2017
    Authors: İ. Atay Kaya, E. Kut Görgün
    Publisher: TMMOB Şehir Plancıları Odası

 

  • Title: Terk Edilmekte Olan Köyler Üzerine Bir Araştırma: Ödemiş Lübbey Köyü
    Year: 2016
    Authors: E. Kut, N. Yörür
    Journal: Ege Mimarlık, 94, 36–39

 

  • Title: Hızla Üzerine Kent Gelen Köyün, Kentleşme ile İmtihanı: Uzundere
    Year: 2018
    Authors: T. Çilingir, E.K. Görgün
    Journal: Planlama Dergisi, 28, 139–151

 

  • Title: Examining the Relation Between the Urban Pattern and Urban History: Using Graph Theory-Based Network Indices
    Year: 2016
    Authors: E. Kut, F.T. Canan, E.D. Kahraman, K.M. Çubukcu
    Book/Conference: History Urbanism

 

  • Title: Do It Yourself (DIY) Movement in Urban Space Production
    Year: 2017
    Authors: İ. Atay Kaya, E. Kut Görgün
    Journal: Planlama – Planning, 27(1)

 

  • Title: Kültür Köy Turizm Projesi ile Sürdürülebilir Kırsal Turizm Kalkınmasının Sağlanması: Gökçe Çerkez Kültür Köyü Politika Önerileri
    Year: 2013
    Author: E. Kut
    Journal: International Journal of Social and Economic Sciences, 3(1), 33–41

 

  • Title: The Challenging Dilemma of The Village Between The Rural and The Urban: Case of Uzundere Village Under Pressure of Rapid Urbanization
    Year: 2018
    Authors: T. Çilingir, E. Kut Görgün
    Journal: Journal of Planning, 28(Supp: 1), 139–151

 

  • Title: Diverse Viewpoints on Tactical Urbanism in Vacant Lots: A Collaborative Design with Young Planner Candidates in Türkiye
    Year: 2024
    Authors: E. Kut Görgün, İ. Atay Kaya
    Journal: CoDesign, 20(4), 742–762

 

 

TEJINDER Kaur | Food Engineering | Best Researcher Award

Published on by Young Scientists Awards

Dr. TEJINDER Kaur | Food Engineering | Best Researcher Award

Guest faculty, SLIET, Longowal

Dr. Tejinder Kaur is a dedicated food technologist and academician currently serving as a Guest Faculty in the Department of Food Engineering and Technology at SLIET, Longowal, Punjab, with a Ph.D. in Food Engineering and Technology; her research passionately centers on the hydrothermal processing of millets, exploring their physicochemical, functional, and nutritional properties, aiming to enhance bio-accessibility and sustainability in food systems, while actively contributing to scientific literature and participating in national and international conferences.

Profile

Scholar

🎓 Education

Dr. Kaur holds a Ph.D. in Food Engineering and Technology from SLIET Longowal (2018–2025), preceded by an M.Tech in Food Engineering and Technology from Shoolini University, Solan (2013–2015), and a B.Tech in Food Technology from Guru Nanak Dev University, Amritsar (2008–2012), where her academic journey reflects a strong and consistent foundation in food science, processing, and engineering, supported by rigorous research and specialization in millet-based food innovations.

👩‍🏫 Experience

Tejinder Kaur brings over 2 years of teaching and industry experience, currently working as Guest Faculty at SLIET Longowal since July 2024, having previously served as Assistant Professor at Bhai Gurdas Institute of Engineering and Technology, Sangrur, Punjab, for 2 years and 4 months, along with hands-on industrial training at Verka Milk Plant, Mohali (6 months), and GlaxoSmithKline, Nabha (1 month), providing her with a balanced exposure to both academic and practical facets of food technology.

🏆 Awards & Honors

Dr. Kaur has received the prestigious Institutional Fellowship from MHRD, Government of India, for her Ph.D. research, and a cash prize along with a Certificate of Appreciation from the SLIET Quality Publication Awards (SQPA) for her impactful publication in the high-impact journal “Journal of Cereal Science” (Elsevier, IF: 3.9), recognizing her scholarly excellence and significant contributions to the field of food engineering and millet research at national platforms.

🔬 Research Focus

Her primary research interests lie in the hydrothermal treatment of millets with a focus on analyzing physicochemical, milling, and functional properties, as well as profiling bioactive compounds and assessing in vitro antioxidant activity, digestibility, and bio-accessibility of nutrients like proteins and carbohydrates, aiming to improve the nutritional quality and functionality of millet-based food systems for sustainable health and food security solutions.

Conclusion

Dr. Tejinder Kaur is a promising early-career researcher with a strong publication record, recognized academic achievements, and deep domain expertise in millet processing and nutritional profiling. She demonstrates commitment to both scientific advancement and education. With broader collaborations and diversification of research focus, she is well on her way to becoming a leading figure in food technology. She is a suitable and deserving candidate for the Best Researcher Award, particularly in the domain of cereal science and food engineering.

Publication

Author: T Kaur, PS Panesar, CS Riar
Title: Combined effect of hydrothermal treatments and drying temperature on the physicochemical, milling, and nutritional characteristics of foxtail millet
Year: 2023
Citation: 6

 

Author: T Kaur, PS Panesar, CS Riar
Title: Optimization of hydrothermal (soak-boil and soak-steam) treatments of foxtail (Setaria italica L.) millet and their effect on milling, antioxidant, pasting, and drying
Year: 2024
Citation: 5

 

Author: T Kaur, PS Panesar, CS Riar
Title: Effect of hydrothermal treatments on the nutritional, functional and storage stability characteristics of decorticated foxtail millet grains and flour
Year: 2024
Citation: 2

 

Author: T Kaur, PS Panesar, CS Riar
Title: Effect of Controlled Hydrothermal Treatment by Soak-Boil and Soak-Steam Methods on Foxtail Millet Grain Starch Characteristics
Year: 2024
Citation: Not yet cited (preprint on SSRN)

Hao Xuerui| Radio Frequency | Best Researcher Award

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Mr. Hao Xuerui|Radio Frequency | Best Researcher Award

Researcher| Institute of High Energy Physics, China.

Dr. Hao Xuerui is an accomplished physicist and associate researcher at the Institute of High Energy Physics, Chinese Academy of Sciences. With a Ph.D. from the University of Chinese Academy of Sciences and a Bachelor’s from the University of Electronic Science and Technology of China, he specializes in superconducting cavity design, RF systems, and high-order mode damping for advanced accelerator technologies. Dr. Hao has contributed significantly to national projects such as HEPS and WHLS, pushing the boundaries of synchrotron radiation sources through his innovative designs. His prolific output includes multiple peer-reviewed publications, conference papers, and a range of technical patents focused on accelerator physics. He has held positions at Wuhan University as a researcher and postdoctoral fellow, evidencing his rising stature in high-energy physics. A forward-thinking scientist, Dr. Hao is dedicated to optimizing superconducting systems through AI and genetic algorithms for improved performance and sustainability.

Profile

Scopus

Orcid

🎓 Education 

Dr. Hao Xuerui received his Doctorate (2014–2019) from the University of Chinese Academy of Sciences, Institute of High Energy Physics, where he focused on advanced superconducting technologies and RF systems for particle accelerators. His rigorous doctoral training laid the foundation for a research career dedicated to high-energy physics and synchrotron radiation applications. He earned his Bachelor’s degree (2010–2014) from the University of Electronic Science and Technology of China, where he majored in engineering physics and electronics, cultivating a strong base in electromagnetics, system design, and computational modeling. During his academic journey, he demonstrated academic excellence, which translated into multiple research opportunities and collaborations. These formative years provided him with theoretical depth and experimental expertise, enabling his later contributions to national scientific infrastructure projects like HEPS and WHLS. His educational background reflects a continuous pursuit of innovation in RF cavity technology and beam dynamics.

💼 Experience 

Dr. Hao Xuerui currently serves as an Associate Researcher at the Institute of High Energy Physics, Chinese Academy of Sciences (2023–Present), where he develops innovative RF and superconducting cavity systems. From 2021 to 2023, he held the same position at Wuhan University, contributing to major RF system design and optimization projects. Prior to that, he served as a Postdoctoral Researcher at Wuhan University (2019–2021), where he delved into the application of computational algorithms in cavity design. His work has directly supported national projects such as HEPS (High Energy Photon Source) and WHLS, involving complex engineering and high-frequency electromagnetic simulations. With over 5 years of hands-on experience in RF systems and high-order mode damping, he combines theory with real-world innovation. Dr. Hao’s professional track record showcases his evolution from a postdoc to a national-level project contributor and research leader in particle accelerator systems.

🏆 Awards & Honors 

Dr. Hao Xuerui has received several accolades and distinctions for his pioneering work in RF and superconducting cavity systems. His 2019 paper, “HOM coupler design for 166.6 MHz SC cavity,” was honored as the Best Content of the Year by Radiation Detection Technology and Methods. His extensive portfolio of 8 patents, including innovations in damping cavity design and neural network-driven optimization, further highlights his inventive excellence. He has earned recognition through active participation in prestigious international conferences like SRF’17 (Lanzhou) and SRF’19 (Dresden). Dr. Hao is also an author of multiple high-impact publications in top-tier journals like IEEE Transactions on Applied Superconductivity, Scientific Reports, and Nuclear Instruments and Methods. These achievements solidify his standing as a respected contributor to China’s high-energy physics community. His interdisciplinary approach—merging AI with accelerator technology—has garnered growing attention and commendations in both academic and engineering circles.

🔬 Research Focus 

Dr. Hao Xuerui’s research is centered around superconducting and normal-conducting RF cavities, with a strong emphasis on higher-order mode (HOM) damping to enhance the performance and stability of synchrotron radiation sources. He is deeply involved in the HEPS and WHLS national projects, where he leads the development of TM020 mode damping cavities, optimized using advanced computational techniques such as multi-objective genetic algorithms and neural networks. His work spans electromagnetic field compensation, mechanical design, and simulation-driven cavity optimization, striving for low-loss, high-efficiency acceleration systems. Integrating physics with artificial intelligence, he innovates in cavity shape design and dynamic optimization methodologies, addressing challenges in both frequency tuning and thermal stability. With numerous patents and publications, Dr. Hao is a key figure in RF system development for the next generation of particle accelerators, offering sustainable and scalable solutions for frontier research in high-energy physics and materials science.

Conclusion

Dr. Hao Xuerui is highly suitable for the Best Researcher Award, especially in the domain of accelerator physics and RF cavity design. His research is technically profound, innovative, and well-documented through patents and peer-reviewed publications. With continued emphasis on global collaboration, mentorship, and broader societal impact, he stands out as a promising and leading researcher in his field.

Publication

  1. Title: Electromagnetic field compensation to attenuate energy leakage in TM020 mode damped cavity
    Year: 2024
    Authors: Hao, X., et al.
    Journal: Nuclear Engineering and Technology

 

  1. Title: 500 MHz higher order mode damped cavity designed for 4th generation synchrotron radiation sources
    Year: 2022
    Authors: Hao, X., et al.
    Journal: Nuclear Instruments and Methods in Physics Research Section A

 

  1. Title: HOM coupler design for 166.6 MHz SC cavity
    Year: 2019
    Authors: Hao, X., et al.
    Journal: Radiation Detection Technology and Methods

 

  1. Title: A higher-order mode coupler design for HEPS 166.6 MHz superconducting accelerating cavities
    Year: 2018
    Authors: Hao, X., et al.
    Journal: Radiation Detection Technology and Methods

 

  1. Title: Design Evolution of the Higher Order-Mode Damping in 166.6-MHz Quarter-Wave β=1 Superconducting Cavities for HEPS
    Year: 2024
    Authors: Zheng, H., et al.
    Journal: IEEE Transactions on Applied Superconductivity

 

  1. Title: Combining multi-objective genetic algorithm and neural network dynamically for the complex optimization problems in physics
    Year: 2023
    Authors: Peilin Wang, Kuangkuang Ye, Xuerui Hao, Jike Wang
    Journal: Scientific Reports

 

  1. Title: Handling shape optimization of superconducting cavities with DNMOGA
    Year: 2024
    Authors: Wang, P., et al.
    Journal: Computer Physics Communications

 

  1. Title: A 166.6 MHz superconducting rf system for the HEPS storage ring
    Year: 2017
    Authors: Zhang, P., et al.
    Journal: Journal of Physics: Conference Series

 

  1. Title: The mechanical design, fabrication and tests of a 166.6 MHz quarter-wave beta=1 proof-of-principle superconducting cavity for HEPS
    Year: 2019
    Authors: Zhang, X., et al.
    Journal: Nuclear Instruments and Methods in Physics Research A

 

Alexia Barbarossa | Medicinal chemistry | Young Scientist Award

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Dr. Alexia Barbarossa | Medicinal chemistry | Young Scientist Award

Researcher | Jadavpur University, India

Dr. Alexia Barbarossa, Ph.D. in Pharmaceutical Sciences, is an Italian researcher with expertise in microbiology, molecular biology, cell biology, and pharmaceutical chemistry. She currently serves as a Research Fellow at the University of Bari “Aldo Moro” and actively contributes to innovative drug repositioning, antimicrobial synergy, and bioactive compound research. Alongside her academic work, she engages in science communication, guest editing, and peer reviewing for several international journals. Dr. Barbarossa is known for her contributions to pharmaceutical microbiology, teaching, and thesis supervision.

Profile

Scopus

🎓 Education 

Alexia earned her Ph.D. in Pharmaceutical Sciences from the University of Bari “Aldo Moro” (2019–2023), focusing on drug repositioning in anticancer and antimicrobial therapy. She holds a Master’s degree in Pharmaceutical Chemistry and Technology from the University of Calabria, with a thesis on corticosurrenal carcinoma cell models. Her academic path is enriched by training in molecular biology, safety in labs, DNA forensic analysis, and research entrepreneurship, alongside certifications in English (B2 level) and interdisciplinary innovation workshops.

💼 Experience 

Dr. Barbarossa has worked as a Research Fellow, Scientific Communicator, and Thesis Co-supervisor. She participated in regional and national research programs on functional polymers and hybrid enzyme-material devices. She has provided teaching support and lectures at various academic levels including Master’s and PhD courses. With experience ranging from microbiological analysis to pharmaceutical innovation, her roles span peer tutoring, technical-teaching support, guest editing, and scientific writing. Her lab internships and pharmacy traineeship further enrich her hands-on pharmaceutical knowledge.

🏆 Awards & Honors 

Alexia received the Best Poster Presentation Award at Fun4Heritage 2019 for her work on fosfomycin analogues. She has also served as Guest Editor for journals like Antibiotics and Microorganisms, edited special issues on drug repositioning and antimicrobial synergy, and was appointed as an Expert in Microbiology for academic teaching. She co-supervised multiple award-worthy theses and actively participated in certified workshops related to entrepreneurship, sustainability, agrifood systems, and lab safety, showcasing her excellence in research and education.

🔬 Research Focus 

Dr. Barbarossa’s research centers on drug repositioning, antimicrobial synergy, biofilm studies, and the biological evaluation of natural/semi-synthetic substances. Her interdisciplinary work spans microbiology, cell biology, molecular diagnostics, and pharmaceutical innovation. She investigates essential oils and repurposed drugs (e.g., sertraline, melatonin) for antimicrobial and antitumor activity. She’s engaged in developing functional biomaterials and hybrid devices while exploring cosmetic microbiology and nutraceutical sciences, contributing to pharmaceutical sciences through publications, teaching, and international collaborations.

Conclusion

Dr. Alexia Barbarossa is a highly suitable and competitive candidate for the Young Scientist Award in Microbiology. Her combined expertise in microbial cultures, antimicrobial synergy, and drug repositioning, along with her scientific output and academic engagement, make her a promising young researcher. Strengthening international ties and developing independent research leadership would further elevate her candidacy.

Publication

Enhanced antibacterial efficacy of new benzothiazole phthalimide hybrid compounds/methyl-β-cyclodextrin inclusion complexes compared to the free forms: Insights into the possible mode of action

  • Authors: Alessia C. Carocci, Alexia Barbarossa, Antonio Rosato, Adriana Trapani, Antonio Carrieri

  • Journal: International Journal of Pharmaceutics

  • Year: 2025

Antibiofilm Effects of Plant Extracts Against Staphylococcus aureus

  • Authors: Alexia Barbarossa, Antonio Rosato, Roberta Tardugno, Giuseppe Fracchiolla, Alessia C. Carocci

  • Journal: Microorganisms

  • Year: 2025

Efficacy of Willow Herb (Epilobium angustifolium L. and E. parviflorum Schreb.) Crude and Purified Extracts and Oenothein B Against Prostatic Pathogens

  • Authors: Alexia Barbarossa, Antonio Rosato, Alessia C. Carocci, Filippo Maggi, Giovanni Caprioli

  • Journal: Antibiotics

  • Year: 2025

 

Saheli Ghosh | Materials Science | Young Scientist Award

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Dr. Saheli Ghosh | Materials Science | Young Scientist Award

Researcher | Jadavpur University, India

Dr. Saheli Ghosh is a researcher in material science with expertise in nanomaterials, energy harvesting, and wastewater remediation. She earned her Ph.D. from Jadavpur University and has published extensively in high-impact journals. Her research focuses on developing piezoelectric nanocomposites for environmental sustainability and clean energy. She has received prestigious awards, including the National Research Award (Anveshan) and the Young Researcher Award. Dr. Ghosh has participated in numerous international conferences, contributing to advancements in material science. Her work in X-ray crystallography, fluorometric detection, and device fabrication showcases her interdisciplinary expertise.

Profile

Scholar

🎓 Education 

 Ph.D. (2025) – Jadavpur University; Specialization: Material Science, Piezocatalysis, Energy Harvesting.  M.Sc. (2016) – University of Calcutta; Field: Electronic Science (75.75%).  B.Sc. (2014) – University of Calcutta; Field: Physics (59.38%). H.S. (2011) – W.B.C.H.S.E; Science (79%). Secondary (2009) – W.B.B.S.E; Score: 81.88%

💼 Experience 

 Ph.D. Research (Jadavpur University) – Developing iron-based nanocomposites for piezoelectric energy harvesting and wastewater treatment.  M.Sc. Dissertation (University of Calcutta) – Designed an IR-based visitor counter system under Prof. Tridibendra Chatterjee.  Conference & Workshop Participation – Presented research at ICONN-2023, Anveshan-2022, and various national and international seminars on materials science and nanotechnology

🏆 Awards & Honors 

 National Research Award (Anveshan, 2022) – Recognized for groundbreaking research. Featured in RSC’s Women in Material Science (2024) – Highlighted for significant contributions. Young Researcher Award (2024) – Awarded by the Institute of Scholars. Qualified National Entrance Examination (NET) – Competitive research eligibility

🔬 Research Focus 

Nanoparticles & Nanocomposites – Synthesis and characterization. Energy Harvesting – Piezoelectric materials for sustainable energy. Wastewater Remediation – Fluorometric detection & catalytic degradation. Device Fabrication – Circuit design & sensor development. X-ray Crystallography – Structural refinement & material analysis. Arduino-Based Projects – Embedded system applications in research

Conclusion

Dr. Saheli Ghosh is a strong candidate for the Young Scientist Award, with significant contributions in nanotechnology, materials science, and environmental remediation. Her research excellence, publication record, and national awards make her a promising young scientist. Strengthening her profile with more industry collaboration, independent funding, and international exposure could make her a leading expert in her domain.

Publication

Title: Piezo-responsive bismuth ferrite nanoparticle-mediated catalytic degradation of rhodamine B and pathogenic E. coli in aqueous medium and its extraction using external magnetic field
Year: 2022
Authors: J Roy, L Mukhopadhyay, S Bardhan, D Mondal, S Ghosh, S Chakraborty, …
Citations: 15

Title: Effect of size fractionation on purity, thermal stability and electrical properties of natural hematite
Year: 2021
Authors: S Ghosh, S Roy, S Bardhan, N Khatua, B Bhowal, DK Chanda, S Das, …
Citations: 14

Title: Gd-doped bismuth ferrite nanocomposite: A promising candidate for piezocatalytic degradation of organic dyes and pathogenic E. coli
Year: 2024
Authors: J Roy, S Roy, D Mondal, N Bag, JR Chowdhury, S Ghosh, S Bardhan, …
Citations: 13

Title: Water flow and finger-tapping mediated piezoelectric energy generation using a natural hematite-based flexible PVDF-HFP membrane
Year: 2023
Authors: S Ghosh, D Mondal, S Roy, J Roy, S Bardhan, A Mazumder, N Bag, …
Citations: 11

Title: Development of a Cu (II) doped boehmite-based multifunctional sensor for detection and removal of Cr (VI) from wastewater and conversion of Cr (VI) into an energy harvesting source
Year: 2020
Authors: S Roy, S Bardhan, DK Chanda, S Ghosh, D Mondal, J Roy, S Das
Citations: 10

Title: Cu (II) and Gd (III) doped boehmite nanostructures: A comparative study of electrical property and thermal stability
Year: 2020
Authors: S Roy, S Bardhan, DK Chanda, A Maity, S Ghosh, D Mondal, S Singh, …
Citations: 7

Title: Effect of microstructural evolution of natural kaolinite due to MWCNT doping: A futuristic ‘green electrode’ for energy harvesting applications
Year: 2022
Authors: D Mondal, S Roy, S Bardhan, R Das, A Maity, DK Chanda, S Das, …
Citations: 6

Title: Enhanced piezocatalytic activity of BiFeO₃ incorporated PVDF-HFP membrane for efficient degradation of carcinogenic industrial pollutant
Year: 2024
Authors: J Roy, D Mondal, JR Chowdhury, N Bag, S Ghosh, S Roy, R Mondal, …
Citations: 4

Title: Natural clay-modified piezocatalytic membrane for efficient removal of coliform bacteria from wastewater
Year: 2024
Authors: D Mondal, N Bag, J Roy, S Ghosh, S Roy, M Sarkar, S Bardhan, …
Citations: 4

Title: Utilization of experimental and theoretical piezoresponse of BTO nanocrystal for rapid decomposition of the pathogenic coliform bacteria
Year: 2024
Authors: N Bag, J Roy, D Mondal, S Ghosh, S Bardhan, S Roy, S Bhandary, S Das
Citations: 3

Title: Biocompatible carbon dot decorated α-FeOOH nanohybrid for an effective fluorometric sensing of Cr (VI) in wastewater and living cells
Year: 2022
Authors: B Ghosh, S Roy, S Bardhan, D Mondal, I Saha, S Ghosh, R Basu, …
Citations: 3

Title: Functionalized MWCNT-integrated natural clay nanosystem: A promising eco-friendly capacitor for energy storage applications
Year: 2023
Authors: D Mondal, A Sau, S Roy, S Bardhan, J Roy, S Ghosh, R Basu, …
Citations: 1

Title: MWCNT-intercalated natural hematite-based activable nanocomposite for piezoelectric energy generation and ROS-mediated carcinogenic dye degradation
Year: 2024
Authors: S Ghosh, D Mondal, S Sultana, J Roy, N Bag, A Dey, R Basu, S Roy, …

Title: Recent advances in the synthesis and biomedical applications of α-hematite nanoparticles
Year: 2023
Authors: S Ghosh, D Mondal, S Roy, S Das

Fengbo Yu | Organic solid waste recycling | Young Scientist Award

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Prof. Fengbo Yu | Organic solid waste recycling | Young Scientist Award

Nanchang University, China

Fengbo Yu is a dedicated researcher specializing in environmental science and materials innovation at Nanchang University, China. His research focuses on developing advanced materials through flash Joule heating technology for wastewater treatment and resource recovery from organic solid waste. With a Ph.D. in Environmental Science and Engineering from Fudan University, he has contributed significantly to catalytic material development and sustainable environmental solutions. Yu has published extensively in high-impact journals like Nature Communications and PNAS. His work spans Fe-based heterostructures, medium-entropy materials, and biomass-based carbon applications. He has also co-authored patents on advanced material synthesis. Yu actively collaborates on national research projects and has expertise in various analytical techniques, including XANES, STEM, and Mössbauer spectroscopy. His research advances practical environmental remediation and sustainable materials, making a meaningful impact in scientific and industrial applications.

Profile

Scholar

🎓 Education 

Ph.D. (2019-2024): Environmental Science & Engineering, Fudan University, China. Supervisors: Xiangdong Zhu & Shicheng Zhang. Master’s: Environmental Science & Engineering, Fudan University. Supervisor: Shicheng Zhang. Bachelor’s: Chemical Engineering, University of Science and Technology LiaoNing. Supervisor: Wenjie Jin.

💼 Experience 

Postdoctoral Researcher (2024-Present): Nanchang University, China.. Doctoral Researcher (2019-2024): Fudan University, China.. Research Assistant (2017-2019): University of Science and Technology LiaoNing.

🏆 Awards & Honors 

Best Paper Award: Recognized for outstanding research in environmental material synthesis. National Research Fellowship: Funded by the National Natural Science Foundation of China. Top Research Contributor: Acknowledged for high-impact publications in Nature Communications and PNAS. Innovation Grant Recipient: Supported by the National Key Research and Development Program of China. Patent Holder: Co-author of patents on novel material synthesis for environmental applications. Excellence in Research: Recognized for pioneering flash Joule heating techniques in materials science.

🔬 Research Focus 

Materials Innovation: Developing Fe-based heterostructures, medium-entropy materials, and biomass-derived carbon. Flash Joule Heating Technology: Synthesizing high-performance materials for catalytic applications. Wastewater Treatment: Advanced oxidation processes using innovative nanomaterials. Resource Recovery: Converting organic waste into functional materials for environmental applications. Analytical Techniques: Mastering XANES, STEM, XPS, Mössbauer spectroscopy, and metagenomic analysis. Sustainable Chemistry: Optimizing material synthesis for low-cost and scalable environmental solutions.

Conclusion

Dr. Fengbo Yu’s impressive research contributions and publication record position him as a strong candidate for the Young Scientist Award. By addressing the areas for improvement, he can further solidify his standing as a leading young scientist in environmental science and engineering.

Publication

Title: Rapid self-heating synthesis of Fe-based nanomaterial catalyst for advanced oxidation
Year: 2023
Authors: F Yu, C Jia, X Wu, L Sun, Z Shi, T Teng, L Lin, Z He, J Gao, S Zhang, …
Citations: 46

Title: Graphene environmental footprint greatly reduced when derived from biomass waste via flash Joule heating
Year: 2022
Authors: C Jia, M Pang, Y Lu, Y Liu, M Zhuang, B Liu, J Lu, T Wei, L Wang, T Bian, …
Citations: 45

Title: Optimized synthesis of granular fuel and granular activated carbon from sawdust hydrochar without binder
Year: 2020
Authors: F Yu, X Zhu, W Jin, J Fan, JH Clark, S Zhang
Citations: 35

Title: Hydrochar as an environment-friendly additive to improve the performance of biodegradable plastics
Year: 2022
Authors: C Ye, F Yu, Y Huang, M Hua, S Zhang, J Feng
Citations: 13

Title: Biosafety of human environments can be supported by effective use of renewable biomass
Year: 2022
Authors: F Yu, W Zhao, T Qin, W Zhao, Y Chen, X Miao, L Lin, H Shang, G Sui, …
Citations: 13

Title: CO₂ dual roles in food scraps-derived biochar activation to enhance lead adsorption capacity
Year: 2021
Authors: Q Wang, F Yu, M Zhang, C Miao, S Zhang, X Zhu
Citations: 11

Title: Three birds with one stone approach to superior N/S co-doped microporous carbon for gas storage and water purification
Year: 2021
Authors: C Jia, F Yu, J Luo, C Chen, S Zhang, X Zhu
Citations: 10

Title: Carbothermal reduction synthesis of sulfide-modified biochar for heavy metal removal
Year: 2023
Authors: Y Lu, Q Wang, F Yu, S Zhang, X Zhu
Citations: 7

Title: Flash Reforming Pyrogenic Carbon to Graphene for Boosting Advanced Oxidation Reaction
Year: 2023
Authors: T Teng, X Wu, Y Lu, F Yu, C Jia, L Sun, L Lin, Z He, J Gao, S Zhang, X Zhu
Citations: 4

Title: Biomass inherent metal interfere carbothermal reduction modification of biochar for Cd immobilization
Year: 2023
Authors: F Yang, Z He, F Yu, S Zhou, X Zhu
Citations: 3

Title: Renewable Biomass-Derived Bio-Liquid that Can Prevent Transmission of SARS-CoV-2 from Waste to Humans
Year: 2020
Authors: H Shang, W Zhao, T Zhang, Q Wang, J Luo, Q Wang, F Yu, S Zhou, …

Sicheng Chen | Smart sensing system | Best Researcher Award

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Dr. Sicheng Chen | Smart sensing system | Best Researcher Award

University of Missouri, United States

Sicheng Chen, Ph.D., is a Postdoctoral Researcher at the University of Missouri (BME) and Nanyang Technological University (EEE). He obtained his Ph.D. in Mechanical Engineering from Xi’an Jiaotong University, with a research exchange at the Australian National University. His expertise spans intelligent sensors, adaptive circuits, and AI-driven signal processing. He has contributed to groundbreaking projects, including NIH-funded research on biocompatible cardiac patches. With 13 first/corresponding-author publications in high-impact journals, multiple patents, and interdisciplinary collaborations, he is dedicated to advancing “sensing-circuit-algorithm” integration for real-time health monitoring and robotics.

Profile

Scholar

🎓 Education 

Sicheng Chen earned his Ph.D. in Mechanical Engineering from Xi’an Jiaotong University (2015-2021) and conducted research at the Australian National University (2018-2019). He completed his Bachelor’s degree in Mechanical Engineering at Xi’an Jiaotong University (2011-2015). His academic journey focused on sensor technology, electronics, and material science, fostering his interdisciplinary approach. His studies emphasized simulation-based sensor design, IC circuit architecture, and AI integration for real-time applications, laying a strong foundation for his postdoctoral research in biomedical engineering and robotics.

💼 Experience 

Sicheng Chen is a Postdoctoral Researcher at the University of Missouri (2023-2025) in Biomedical Engineering, where he develops multifunctional soft materials for medical applications. Concurrently, he is a Postdoctoral Fellow at Nanyang Technological University (2021-2024) in Electrical and Electronic Engineering, working on advanced torque sensors for robotics. His career integrates mechanical engineering, AI, and circuit design, contributing to innovative solutions in health monitoring and robotics. His projects span NIH-funded biomedical applications and A*STAR-supported robotic sensing, positioning him as a leader in interdisciplinary research.

🏆 Awards & Honors 

Sicheng Chen has received prestigious recognitions, including multiple research grants and best paper awards. He has secured funding from NIH for biocompatible cardiac patches and A*STAR for robotic sensing projects. His innovative research has led to first/corresponding authorship in top-tier journals such as Science Advances and Advanced Functional Materials. He holds patents on advanced bioelectronic systems and has been invited to present at international conferences. His contributions to AI-driven sensor systems have earned him widespread recognition in academia and industry.

🔬 Research Focus 

Sicheng Chen specializes in “sensing-circuit-algorithm” integration, developing closed-loop intelligent systems with real-time perception, reasoning, and feedback. His research spans intelligent sensor design, sensor-adaptive circuit architecture, and AI-driven analytics. He engineers flexible physical sensors through first-principles mechanisms, creates hybrid IC solutions with ASICs, and develops lightweight ML models for real-time signal analysis. His work extends to medical wearables, robotics, and AI-driven health monitoring, bridging multiple disciplines, including electronics, materials science, and biomedical engineering, to pioneer next-generation smart sensing systems.

Conclusion

Dr. Sicheng Chen’s innovative research, prolific publication record, and involvement in prestigious projects make him a strong candidate for the Best Researcher Award. By broadening his international impact and leadership presence, he could further solidify his position as a leading figure in his field.

Publication

Title: Multi-sized planar capacitive pressure sensor with ultra-high sensitivity
Year: 2021
Authors: S Chen, S Xin, L Yang, Y Guo, W Zhang, K Sun
Citations: 62

Title: Electron-induced perpendicular graphene sheets embedded porous carbon film for flexible touch sensors
Year: 2020
Authors: S Chen, Y Wang, L Yang, F Karouta, K Sun
Citations: 58

Title: An electrode‐grounded droplet‐based electricity generator (EG‐DEG) for liquid motion monitoring
Year: 2023
Authors: L Yang, J Yu, Y Guo, S Chen, K Tan, S Li
Citations: 51

Title: Flexible and transparent sensors with hierarchically micro-nano texture for touchless sensing and controlling
Year: 2021
Authors: S Chen, Y Wang, L Yang, Y Guo, M Wang, K Sun
Citations: 50

Title: Particle-laden droplet-driven triboelectric nanogenerator for real-time sediment monitoring using a deep learning method
Year: 2020
Authors: L Yang, Y Wang, Z Zhao, Y Guo, S Chen, W Zhang, X Guo
Citations: 48

Title: Quantitative and real‐time evaluation of human respiration signals with a shape‐conformal wireless sensing system
Year: 2022
Authors: S Chen, G Qian, B Ghanem, Y Wang, Z Shu, X Zhao, L Yang, X Liao, …
Citations: 36

Title: Precise control of surface texture on carbon film by ion etching through filter: optimization of texture size for improving tribological behavior
Year: 2019
Authors: S Chen, G Qian, L Yang
Citations: 26

Title: Bimodal capacitive tactile sensor assisted by shield effect of triboelectric nanogenerator
Year: 2023
Authors: S Li, S Chen, L Yang, Y Guo, K Tan, S Liu, J Qiu, B Yuan, J Yu
Citations: 18

Title: Wireless, Smart Hemostasis Device with All‐Soft Sensing System for Quantitative and Real‐Time Pressure Evaluation
Year: 2023
Authors: C Zhang, Q Yang, X Meng, H Li, Z Luo, L Kai, J Liang, S Chen, F Chen
Citations: 18

Title: Surface/interface texture enhanced tribological properties of graphene sheets embedded carbon films
Year: 2021
Authors: J Geng, S Chen, S Xin, Y Guo, L Yang
Citations: 11

Title: Structural and tribological behaviours of silicon doped amorphous carbon films
Year: 2023
Authors: K Sun, M Sun, C Chen, S Chen, J Fan, D Diao
Citations: 10

Title: Quantitative and Real‐Time Evaluation of Pressure on Brain Spatula with Wireless and Compact Sensing System
Year: 2023
Authors: Y Wang, C Zhang, X Meng, Q Zhang, H Li, F Chen, Q Yang, W Zhang, …
Citations: 8

Title: Graphene nanocrystallites induced short run-in period with low electric power at current-carrying sliding interface
Year: 2021
Authors: K Sun, X Fan, L Yang, S Chen, J Fan, D Diao
Citations: 8

Title: Flexible integrated sensor with asymmetric structure for simultaneously 3D tactile and thermal sensing
Year: 2023
Authors: Y Wang, K Sun, Q Zhang, SS Yu, BS Han, J Wang, M Zhao, X Meng, …
Citations: 7