Jinbo Feng | Environmental and Sustainable Materials | Best Researcher Award

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Mr. Jinbo Feng | Environmental and Sustainable Materials | Best Researcher Award

Shenzhen University | China

Mr. Jinbo Feng is a researcher in architecture at Shenzhen University, China, whose work focuses on sustainable building design, environmental comfort, and material innovation. His research integrates architectural theory with environmental technology, emphasizing thermal comfort optimization, self-insulating concrete development, solid waste recycling, and bionic design for marine ecological restoration. He has co-authored peer-reviewed studies, including the SCI Q2 article “Climate-Responsive Design for Sustainable Housing: Thermal Comfort, Spatial Configuration, and Environmental Satisfaction in Subtropical Void Decks” published in Buildings, and presented at the 16th International Conference on Environment-Behavior Studies (CEB-ASC) on residents’ perception of settlement spaces. His ongoing projects involve the thermal comfort study of overhead spaces in subtropical residential buildings, finite element modeling of thermal and mechanical behavior in insulating blocks, and bionic polymer reef design under the Shenzhen–Hong Kong Joint Funding Programme. Recognized with the Shenzhen University Special Award Scholarship and other academic honors, Feng demonstrates a strong commitment to advancing low-carbon, resource-efficient architectural solutions. His work contributes to bridging the gap between design aesthetics, engineering functionality, and environmental sustainability, promoting innovative strategies for climate-responsive architecture in rapidly urbanizing subtropical regions.

Profile: ORCID

Featured Publications

  • Feng, J., & [Mentor’s Name]. (2024). Climate-responsive design for sustainable housing: Thermal comfort, spatial configuration, and environmental satisfaction in subtropical void decks. Buildings. (SCI Q2).

  • Feng, J., & [Mentor’s Name]. (2024). A study of the correlation between the form of public space in settlements and the evaluation of residents’ perceptions. In Proceedings of the 16th International Conference on Environment-Behavior Studies (CEB-ASC), Nanjing University, China.

Vahid Isazade | Environmental and Sustainable Materials | Best Paper Award

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Dr. Vahid Isazade | Environmental and Sustainable Materials | Best Paper Award

University of Tehran | Iran

Dr. Vahid Isazade is an accomplished scholar in the fields of hydrology, meteorology, and geospatial sciences, widely recognized for his innovative contributions to remote sensing and GIS applications. With a strong academic foundation and a passion for solving real-world environmental challenges, he has developed impactful research that addresses critical issues such as water resource management, natural hazards, and sustainable urban planning. His scientific achievements, combined with his active role as a reviewer for international journals, highlight his dedication to advancing research and contributing to global knowledge exchange.

Professional Profile

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ORCID

Education

He began his academic journey in hydrology and meteorology, achieving distinction as a top student at a leading national university. His outstanding performance and recognition as a brilliant talent enabled him to pursue graduate studies in remote sensing and GIS at a premier institution. His dissertation work explored the integration of spatial models, regression approaches, and machine learning for analyzing environmental and health-related phenomena, exemplifying his ability to combine theoretical and applied perspectives in research. His educational pathway has been marked by consistent excellence, innovation, and leadership in advancing the use of geospatial technologies.

Experience

Dr. Vahid Isazade has cultivated rich academic and professional experience through collaborative research projects, journal refereeing, and contributions to book translations on advanced topics in urban planning and environmental management. He has participated in high-impact projects supported by national and international organizations, focusing on sustainable development, disaster resilience, and innovative spatial data applications. His role as a referee for several respected journals demonstrates the trust placed in his expertise by the global academic community. Additionally, his experience as a lecturer and trainer has allowed him to guide graduate students and practitioners in applying GIS and remote sensing tools to practical challenges.

Research Interest

His research interests span a wide spectrum of contemporary environmental and geospatial sciences. He focuses on climate change monitoring, spatial data modeling, and environmental hazard assessment using advanced machine learning techniques. His work also explores the integration of remote sensing data with urban planning and public health applications, reflecting an interdisciplinary approach that bridges science, technology, and policy. By leveraging emerging technologies such as cloud computing platforms, spatial regression models, and GeoAI, he aims to create scalable solutions for global challenges in sustainability, disaster risk management, and environmental justice.

Awards

Throughout his academic and professional career, Dr. Vahid Isazade has been recognized with numerous prestigious awards and honors that reflect both his scholarly excellence and innovative ideas. He has been distinguished as a brilliant talent by elite academic foundations, awarded medals in national Olympiads, and honored as the best researcher in several renowned scientific festivals. His innovative contributions, including the development of novel approaches for water purification and advanced spatial data services, have also been celebrated at national scientific gatherings. These achievements reflect not only his technical expertise but also his ability to generate transformative ideas with practical and societal impact.

Publication

Dr. Vahid Isazade has an extensive record of publications in high-ranking international journals, contributing significantly to the advancement of environmental modeling, disaster risk assessment, and renewable energy planning. His influential papers include:

Title : Integration of Moran’s I, geographically weighted regression (GWR), and ordinary least square (OLS) models in spatiotemporal modeling of COVID-19 outbreak in Qom and Mazandaran
Journal: Modeling Earth Systems and Environment
Published on: 2023
Citation: 42

Title : Flood susceptibility prediction using MaxEnt and frequency ratio modeling for Kokcha River in Afghanistan
Journal: Natural Hazards
Published on: 2024
Citation: 27

Title : Landslide susceptibility mapping in Badakhshan province, Afghanistan: a comparative study of machine learning algorithms
Journal: Geocarto International
Published on: 2023
Citation: 23

Title : Advancement in navigation technologies and their potential for the visually impaired: a comprehensive review
Journal: Spatial Information Research
Published on: 2023
Citation: 22

Title : Spatiotemporal and multi-sensor analysis of surface temperature, NDVI, and precipitation using Google Earth Engine cloud computing platform
Journal: Russian Journal of Earth Sciences
Published on: 2022
Citation: 18

Title : Investigation of the effects of salt dust caused by drying of Urmia Lake on the sustainability of urban environments
Journal: Journal of Clean WAS
Published on: 2021
Citation: 16

Title : Spatio-temporal analysis of the COVID-19 pandemic in Iran
Journal: Spatial Information Research
Published on: 2023
Citation: 11

Conclusion

Dr. Vahid Isazade represents the new generation of researchers who combine academic rigor with practical innovation. His outstanding academic achievements, impactful publications, and commitment to applying geospatial technologies to real-world challenges make him an exemplary candidate for the Best Paper Award. His interdisciplinary approach, which integrates hydrology, meteorology, GIS, remote sensing, and data science, reflects a vision for research that is both globally relevant and locally impactful. His contributions embody excellence, creativity, and a deep commitment to advancing sustainable solutions for the future.

Deependra Parajuli | Material Science | Innovative Research Award

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Assist. Prof. Dr. Deependra Parajuli | Material Science | Innovative Research Award

Tribhuvan University | Nepal

Dr. Deependra Parajuli, Ph.D., is a distinguished Associate Professor of Physics and Senior Researcher at the Research Center for Applied Science and Technology (RECAST), Tribhuvan University, Kathmandu, Nepal. With a strong foundation in experimental and computational physics, he also serves as a Sports Expert at the National Sports Council. Renowned for his multidimensional contributions in academia, innovation, and national-level scientific leadership, Dr. Parajuli has represented Nepal in numerous international scientific forums and Olympiads, reflecting his dedication to both science and education.

Author Profile👤

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Strengths for the Awards✨

Dr. Deependra Parajuli exemplifies innovative excellence in research through his sustained contributions to physics, materials science, and interdisciplinary technology. His Ph.D. thesis on MXenes as Topological Insulators reflects advanced exploration into next-generation materials, while his subsequent research on nanocomposites, solar technologies, ferrites, and quantum-level simulations illustrates a forward-thinking and application-driven mindset.

Key strengths include:

  • Highly cited research: Over 1,710 citations with an h-index of 25 and i10-index of 59, indicating impactful scholarly contributions.

  • Robust publication record: More than 30 articles in reputed Scopus-indexed journals (Q1–Q4) such as Applied Physics A, Results in Physics, and Journal of Materials Science: Materials in Electronics. Notable innovative works include:

  • Innovation in project execution: Led cutting-edge projects like Smart Perovskites for Smart Devices, Green Synthesis of Ferrite Nanoparticles for Cancer Therapy, and 4000W Solar Hydrogen Generators.

  • Academic leadership and mentorship: Supervised multiple M.Sc. and Ph.D. theses, including works on supercapacitor materials from bio-waste, which showcases sustainable and creative scientific inquiry.

  • Books and applied outreach: Authored over 13 books, blending scientific principles with martial arts and educational tools—demonstrating his ability to integrate science into everyday learning and practice.

  • Recognition and honors: Winner of the NAST Technology Award 2081, IEEE Excellence Award 2023, IFSM Youth Award, and Nepal Bidhya Bhushan, which validate his impact in national and international research arenas.

🎓 Education

Dr. Parajuli began his academic journey with a School Leaving Certificate (SLC) in 1995 and continued through Intermediate Science and B.Sc. in Physics, Mathematics, and Statistics at Tribhuvan University, Nepal. He earned his M.Sc. in Physics in 2004, specializing in Solid State and Plasma Physics. He later completed his Ph.D. in Physics in 2020 from Andhra University, India, with his dissertation focused on the “Computational and Experimental Investigations on M’2M”xXyene as Topological Insulator.” His academic path has been marked by excellence, winning scholarships and accolades at every stage.

🧑‍🏫 Experience

With over two decades of academic service, Dr. Parajuli began as a part-time lecturer in 2004 and has risen through ranks to become Assistant Professor and now Associate Professor. He has mentored numerous undergraduate and postgraduate theses, supervised Ph.D. candidates, and guided more than 25 research-based student projects. He has been a pivotal figure in Olympiad training, curriculum development, and organizing conferences and workshops, both nationally and internationally.

🔬 Research Interests On Material Science

Dr. Parajuli’s research interests lie in materials science, computational physics, nanotechnology, and solar cell efficiency modeling. He focuses on advanced materials like MXenes, ferrites, and perovskites, contributing to fields such as energy storage, semiconductors, and biomedical nanocomposites. He is actively involved in interdisciplinary research merging traditional knowledge with modern science.

🏅 Awards & Honors

Dr. Parajuli’s contributions have been widely recognized through several prestigious awards including the Nepal Bidhya Bhushan “Ka”, the Science and Technology Promotion Award (NAST, GoN), the Education Award from the Ministry of Education, and the International Federation of Societies of Microscopy Youth Award. He also received the Silver Jubilee Scholarship from the Government of India and recently earned the Excellence Award in Professionalism and Research (2023).

📚 Publications

  • Advancements in MXene-polymer nanocomposites in energy storage and biomedical applications
    Authors: D Parajuli, N Murali, D KC, K Samatha, AA Kim, M Park, B Pant
    Year: 2022
    Citations: 71

  • Magnetic and DC Electrical Properties of Cu Doped Co–Zn Nanoferrites
    Authors: P Himakar, D Parajuli, N Murali, V Veeraiah, K Samatha, TW Mammo, …
    Year: 2021
    Citations: 61

  • Cadmium substitution effect on structural, electrical and magnetic properties of Ni-Zn nano ferrites
    Authors: D Parajuli, PA Rao, V Raghavendra, B Suryanarayana, T Paulos, …
    Year: 2021
    Citations: 59

  • Effect of Cr³⁺ substitution on dc electrical resistivity and magnetic properties of Cu₀.₇Co₀.₃Fe₂−ₓCrₓO₄ ferrite nanoparticles…
    Authors: K Chandramouli, B Suryanarayana, PP Varma, V Raghavendra, …
    Year: 2021
    Citations: 49

  • Correction to: Microstructural, thermal, electrical and magnetic analysis of Mg²⁺ substituted Cobalt ferrite
    Authors: S Jesus Mercy, D Parajuli, N Murali, A Ramakrishna, Y Ramakrishna, …
    Year: 2021
    Citations: 49

  • Surface plasmon resonance biosensor sensitivity improvement employing of 2D materials and BaTiO₃ with bimetallic layers of silver
    Authors: A Uniyal, A Pal, G Srivastava, MM Rana, SA Taya, A Sharma, BR Altahan, …
    Year: 2023
    Citations: 46

  • Influence of Cr³⁺ substituted NiZnCo nano-ferrites: structural, magnetic and DC electrical resistivity properties
    Authors: GV Priya, N Murali, MK Raju, B Krishan, D Parajuli, P Choppara, …
    Year: 2022
    Citations: 45

  • Effect of Cu substitution on the structural, magnetic, and dc electrical resistivity response of Co₀.₅Mg₀.₅₋ₓCuₓFe₂O₄ nanoferrites
    Authors: P Himakar, D Parajuli, K Jayadev, N Murali, P Taddesse, SY Mulushoa, …
    Year: 2021
    Citations: 45

  • Correlation between the structural, magnetic, and dc resistivity properties of Co₀.₅M₀.₅₋ₓCuₓFe₂O₄ (M = Mg, and Zn) nano ferrites
    Authors: D Parajuli, P Taddesse, N Murali, K Samatha
    Year: 2021
    Citations: 45

  • Structural, dc electrical resistivity and magnetic investigation of Mg, Ni, and Zn substituted Co-Cu nano spinel ferrites
    Authors: D Parajuli, N Murali, AV Rao, A Ramakrishna, K Samatha
    Year: 2022
    Citations: 43

✅ Conclusion

Dr. Deependra Parajuli stands as a dynamic, visionary scholar whose academic, scientific, and educational contributions exemplify the spirit of innovation and excellence. With a career devoted to the advancement of physics, material science, and interdisciplinary applications, he is an ideal nominee for the Innovative Research Award. His global outreach, research productivity, mentorship, and leadership in both science and education make him a paragon of scholarly impact.

Joanna Szymkowiak | Materials | Best Researcher Award

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Dr. Joanna Szymkowiak | Materials | Best Researcher Award

Adam Mickiewicz University | Poland

Dr. Joanna Katarzyna Szymkowiak, is a dedicated scientist in the field of supramolecular chemistry. Since January 2025, she has been working as an Adjunct Postdoctoral Scientist at the Faculty of Chemistry, Adam Mickiewicz University (AMU), Poland. Her career spans various esteemed institutions, including her previous role as a Senior Scientist at Selvita S.A. and as a Postdoctoral Scientist at the University of British Columbia, Canada. Throughout her academic journey, Joanna has made significant contributions to organic chemistry, particularly in functionalized chiral macrocycles and organic cages.

Professional profile👤

ORCID

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Strengths for the Awards✨

  • Extensive Research Background: Dr. Szymkowiak has a diverse and impactful research portfolio, with a focus on chiral materials and supramolecular chemistry. Her research is cutting-edge, with recent papers published in reputable journals like Journal of Physical Chemistry Letters and Chemistry – A European Journal.

  • Impressive Academic and Industry Experience: She has held various postdoctoral positions at prestigious institutions like Adam Mickiewicz University (AMU) and the University of British Columbia, as well as industry experience with Selvita S.A. Her ability to bridge academia and industry is an asset for driving practical applications of her research.

  • Recognized by the Scientific Community: Dr. Szymkowiak has received multiple accolades for her work, such as the Aleksander Zamojski’s Award and an honorable mention for her doctoral dissertation. These honors are a testament to the quality and significance of her contributions to organic and supramolecular chemistry.

  • Contribution to International Collaboration: Her involvement in high-level international projects, such as the Mieczysław Bekker Program funded by the National Agency for Academic Exchange (NAWA), and collaborations with world-renowned researchers like Prof. Mark MacLachlan, underscores her ability to work within global scientific communities.

  • Prolific Publication Record: Dr. Szymkowiak has contributed to numerous high-impact publications across a range of prestigious journals. Her work covers diverse aspects of chemistry, particularly in the development of functionalized chiral materials and organic cages, which are highly relevant to modern chemistry research.

Education 🎓

Dr. Szymkowiak completed her PhD in 2018 at AMU, where she focused on “Functionalized Chiral Macrocycles and Organic Cages” under the supervision of Prof. Marcin Kwit. Her earlier studies at AMU led her to a deep engagement with chemistry, particularly biological chemistry, and chemical analysis. Her education has laid a strong foundation for her ongoing research in organic and materials chemistry.

Experience 💼

Dr. Szymkowiak’s career spans prestigious positions across both academic and industry sectors. She has worked on cutting-edge research projects at AMU, the University of British Columbia, and Selvita S.A., bringing her expertise to a wide range of research areas. Her responsibilities included scientific project management, student supervision, and active participation in scientific conferences. She has also made significant strides in interdisciplinary research, focusing on chiral materials, mesoporous organosilica films, and supramolecular chemistry.

Research Interests On Materials 🔬

Dr. Szymkowiak’s research interests lie at the intersection of organic chemistry, materials science, and supramolecular chemistry. She specializes in the design and synthesis of chiral organosilica materials, including mesoporous films and organic cages. Her work aims to develop innovative solutions for materials with unique optical and mechanical properties, crucial for applications in nanoscience and other advanced fields.

Awards 🏆

Dr. Szymkowiak has received several prestigious awards and recognitions. These include a Postdoctoral Fellowship from the National Agency for Academic Exchange (NAWA) in the Mieczysław Bekker Program and the Aleksander Zamojski’s Award for her outstanding doctoral dissertation. Additionally, she has been honored with multiple awards for oral and poster presentations at national conferences and was acknowledged by the Royal Chemical Society in 2025 for her publication on Nanoscale.

Publication 📚

Dr. Szymkowiak has contributed to numerous high-impact journals in the field of chemistry. Her recent publications include:

  • Thio-modified trianglimines, a novel group of chiral macrocyclic compounds of high structural dynamics

    • Authors: Natalia Prusinowska, Agnieszka Czapik, Joanna Katarzyna Szymkowiak, Marcin Kwit

    • Publication Year: 2025

  • Excited State Dynamics Govern Emission Properties of Unique Silsesquioxane-Salphen-Based Zinc Compounds

    • Authors: Joanna Szymkowiak, Tomasz Pędziński, Beata Dudziec

    • Publication Year: 2025

  • Hybrid Inclusion Materials Based on Chiral Nematic Mesoporous Organosilica with Incorporated Cyclodextrin Receptors

    • Authors: Joanna Katarzyna Szymkowiak

    • Publication Year: 2025

  • Controlling the optical properties of chiral nematic mesoporous organosilica films with bioadditives

    • Authors: Joanna Katarzyna Szymkowiak, Lucas Andrew, Wadood Y. Hamad, Mark MacLachlan

    • Publication Year: 2024

  • Halloysite nanotubes enhance the mechanical properties and thermal stability of iridescent cellulose nanocrystal films

    • Authors: Gao, H.; Soto, M.A.; Szymkowiak, J.K.; Andrew, L.J.; Hamad, W.Y.; MacLachlan, M.J.

    • Publication Year: 2023

  • Unravelling Structural Dynamics, Supramolecular Behavior, and Chiroptical Properties of Enantiomerically Pure Macrocyclic Tertiary Ureas and Thioureas

    • Authors: Natalia Prusinowska, Joanna Szymkowiak, Marcin Kwit

    • Publication Year: 2023

  • Specific Noncovalent Association of Truncated exo-Functionalized Triangular Homochiral Isotrianglimines through Head-to-Head, Tail-to-Tail, and Honeycomb Supramolecular Motifs

    • Authors: Janiak, A.; Gajewy, J.; Szymkowiak, J.; Gierczyk, B.; Kwit, M.

    • Publication Year: 2022

  • Tuning the Properties of Chiral Nematic Mesoporous (Organo)silica Through Thiol‐Ene Click Chemistry

    • Authors: Joanna Katarzyna Szymkowiak

    • Publication Year: 2022

  • Simple modifications of nicotinic, isonicotinic, and 2,6-dichloroisonicotinic acids toward new weapons against plant diseases

    • Authors: Czerwoniec, P.; Szymkowiak, J.; Smiglak, M.

    • Publication Year: 2021

  • Consistent supramolecular assembly arising from a mixture of components-self-sorting and solid solutions of chiral oxygenated trianglimines

    • Authors: Szymkowiak, J.; Warżajtis, B.; Rychlewska, U.; Kwit, M.

    • Publication Year: 2018

Conclusion 🌍

Dr. Joanna Katarzyna Szymkowiak is an accomplished researcher with significant contributions to the field of supramolecular and materials chemistry. Her dedication to advancing the understanding of chiral materials and organic cages has made her a respected figure in both academic and scientific communities. With a strong foundation in education and experience, she continues to push the boundaries of chemistry, inspiring future research in nanoscience and materials development.