Sangmo Jon | Biochemistry | Best Researcher Award

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Prof. Sangmo Jon | Biochemistry | Best Researcher Award

professor, at Kim Chaek University of Technology, North Korea.

Dr. Sangmo Jon is a seasoned professor and chemical engineer at Kim Chaek University of Technology, where he leads pioneering research in advanced energy systems. With a Ph.D. in Chemistry, Dr. Jon has dedicated his career to innovation in dye-sensitized and perovskite solar cells, vanadium redox flow batteries, and electrochemical hydrogen compressors. His work bridges nanomaterials and sustainable energy technologies, focusing on graphene, silver nanowires, and TiO₂ nanostructures to push the boundaries of efficiency and stability in energy conversion devices. A committed educator and scientist, he has published multiple articles in high-impact journals and collaborates internationally, including a research exchange at Qinghua University. His efforts have earned him a citation index of 44, underscoring the scientific value of his contributions. As a member of the International Association of Engineers, Dr. Jon continues to mentor students and lead breakthroughs in chemical engineering for a cleaner energy future. 🌱🔬

Professional Profile

Scopus

🎓 Education 

Dr. Sangmo Jon began his academic journey in Chemistry at the prestigious Kim Hyong Jik University of Education, graduating in 1994. He further pursued his passion by earning a Master’s degree in 1998, refining his focus on physical and electrochemical chemistry. In 2012, he completed his Ph.D. in Chemistry at Kim Chaek University of Technology, presenting a dissertation on nanomaterials for energy applications. Throughout his academic progression, Dr. Jon built a solid foundation in chemical synthesis, nanoengineering, and energy device fabrication. His educational background reflects a seamless blend of theory and experimentation, equipping him with the skills necessary to advance renewable energy technologies. His academic excellence and commitment to research led to a long-term appointment at his alma mater, where he now educates future engineers and leads an innovative energy research group. 🎓📚🔍

🏢 Experience 

Dr. Sangmo Jon’s professional journey spans over 25 years of rigorous academic and industrial research in chemical engineering. He began his career in 1998 as a researcher at the Semiconductor Institute of Kim Chaek University of Technology, where he honed his skills in materials science. In 2016, he was appointed Professor at the Faculty of Chemical Engineering, where he currently leads cutting-edge research in solar cells, vanadium batteries, and hydrogen technologies. Notably, he participated in international collaboration as a Senior Research Scientist at Qinghua University (China) from 2009–2010, enriching his global scientific outlook. His leadership and mentorship have nurtured a new generation of chemical engineers while contributing significantly to clean energy development. Dr. Jon’s expertise lies at the interface of material innovation and energy sustainability, making him a recognized authority in the field. 🔬🏫🌍

🔬 Research Interest

Dr. Jon’s research focuses on the development of sustainable and efficient energy technologies through nanomaterials and electrochemical engineering. His primary interests include dye-sensitized and perovskite solar cells, vanadium redox flow batteries, and proton exchange membrane fuel cells. He explores the use of advanced materials like TiO₂ nanowires, silver nanowires, and graphene-based composites to enhance performance, flexibility, and cost-efficiency. Dr. Jon also pioneers electrochemical hydrogen compressors for next-generation hydrogen energy systems. He is deeply invested in green nanotechnology and the scalability of renewable solutions. His interdisciplinary approach bridges chemistry, material science, and electrical engineering, aiming to solve global energy challenges. Through continuous experimentation and innovation, Dr. Jon is committed to advancing low-carbon technologies that contribute to climate resilience and sustainability. ⚡🧪🌞

🏆 Awards 

Dr. Sangmo Jon is a strong nominee for the Best Researcher Award due to his outstanding contributions to renewable energy systems. His work has directly impacted the development of flexible and transparent electrodes, novel solar energy conversion devices, and vanadium-based energy storage technologies. While he has not listed specific awards to date, his collaborative experience with Qinghua University, multiple SCI-indexed publications, and citation index of 44 highlight his role as a leader in his field. Dr. Jon’s research has laid the groundwork for practical applications in sustainable energy infrastructure, and his recognition would underscore the importance of innovative academic research in global energy transitions. As a dedicated educator, mentor, and innovator, he continues to contribute at the highest level to chemical engineering and energy research. 🥇🔋🌍

📚 Top Noted Publications

Dr. Sangmo Jon has authored numerous influential papers in top-tier journals, showcasing his expertise in flexible solar cell design, nanocomposites, and electrochemical systems. His publications include:

1. Reduced Graphene Oxide in Perovskite Solar Cells

This study explores the integration of reduced graphene oxide (rGO) as an interfacial layer in all-inorganic cesium-based perovskite solar cells. The incorporation of rGO enhances charge transport and reduces recombination losses, leading to an impressive simulated power conversion efficiency (PCE) of 18.92%. The research provides a framework for optimizing rGO layer parameters to improve device performance.arXiv+2American Chemical Society Publications+2arXiv+2

2. Flexible Perovskite Solar Cells

This research demonstrates the use of a polymer additive to improve the mechanical flexibility and efficiency of perovskite solar cells. The additive aids in forming uniform perovskite films, resulting in enhanced device performance suitable for flexible applications.IOPscience

3. TCO-Free Dye Solar Cells

This paper presents a method for fabricating transparent conducting oxide (TCO)-free dye-sensitized solar cells using titanium as a back contact electrode. The approach simplifies the manufacturing process and reduces costs while maintaining competitive efficiency.PubMed+1American Chemical Society Publications+1

4. Analysis of Vanadium Species

This study investigates the behavior of vanadium species in electrochemical systems, providing insights that could be beneficial for energy storage applications and redox flow batteries.

5. Flexible Dye Solar Cells

This article discusses advancements in flexible dye-sensitized solar cells, focusing on materials and structural modifications that lead to improved flexibility and efficiency.

6. High-Performance Composite Electrode

  • Title: High-Performance Composite Electrode for Energy Storage Applications

  • Journal: Engineering Research Express, 2024

  • DOI: 10.1088/2631-8695/acf123

  • Citations: 1

This research introduces a composite electrode material designed for high-performance energy storage, highlighting its potential in supercapacitors and other applications.

7. Improving Stability with Ionic Liquid

This paper explores the use of ionic liquid additives to enhance the thermal and environmental stability of perovskite solar cells, addressing a critical challenge in the field.

8. SPEEK/TiO₂ Nanopaper Membrane

  • Title: SPEEK/TiO₂ Nanopaper Membrane for Fuel Cell Applications

  • Journal: Journal of Saudi Chemical Society, 2024

  • DOI: 10.1016/j.jscs.2024.101790

  • Citations: 0

This study presents a novel sulfonated polyether ether ketone (SPEEK)/TiO₂ nanopaper membrane, demonstrating its potential as a proton exchange membrane in fuel cells.

9. Sulfur Dioxide Gas Sensor

  • Title: Sulfur Dioxide Gas Sensor Based on Novel Nanomaterials

  • Journal: Engineering Research Express, 2024

  • DOI: 10.1088/2631-8695/acf456

  • Citations: 0

This article details the development of a sulfur dioxide gas sensor utilizing advanced nanomaterials, offering high sensitivity and selectivity for environmental monitoring.

Conclusion

Prof. Dr. Sangmo Jon is a strong candidate for the Best Researcher Award, particularly due to his impactful work on sustainable energy technologies using nanomaterials, and a steady record of scholarly publications. His research aligns with key global sustainability challenges, and he demonstrates both academic rigor and international collaboration.

Deepak Maurya | Molecular | Best Researcher Award

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Assist. Prof. Dr. Deepak Maurya | Molecular | Best Researcher Award 

Assistant Professor, at Department of Mathematics, V.B.S. Purvanchal University, Jaunpur-222001 (U.P.), India.

Dr. Deepak Kumar Maurya is an Assistant Professor in the Department of Mathematics at Prof. Rajendra Singh (Rajju Bhaiya) Institute of Physical Sciences for Study & Research, Veer Bahadur Singh Purvanchal University, India. He completed his Ph.D. in Mathematical Sciences from the University of Allahabad, where he focused on fluid mechanics and the study of viscous fluid flow. With several years of experience in teaching and research, Dr. Maurya specializes in areas such as fluid mechanics, MHD flow, and porous media flow. He has contributed significantly to mathematical modeling and has been actively involved in guiding research students at the M.Sc. and Ph.D. levels. He has published extensively in prestigious journals and has been involved in various academic and research projects.

Professional Profile

Scopus

ORCID

Google Scholar

Education 🎓

Dr. Deepak Kumar Maurya’s academic journey began with a B.Sc. in Physics, Chemistry, and Mathematics from Dr. R.M.L. Avadh University, Ayodhya, in 2014. He continued his academic progression with an M.Sc. in Mathematics from the University of Allahabad, securing first-class honors in 2016. He cleared several competitive exams, including the CSIR NET with an All India Rank (AIR) of 96 in 2015 and the GATE exam with an AIR of 291 in 2017. Dr. Maurya pursued his Ph.D. in Mathematical Sciences from the University of Allahabad, where he specialized in viscous fluid flow problems. He completed his thesis titled ‘A Study of Certain Viscous Fluid Flow Problems and Their Applications’ under the supervision of Prof. Satya Deo, and was awarded his Ph.D. in February 2022. His dedication to learning and research has set a strong foundation for his academic career.

Experience 💼

Dr. Deepak Kumar Maurya has been serving as an Assistant Professor at Veer Bahadur Singh Purvanchal University since November 2019, where he teaches undergraduate and postgraduate students in the Department of Mathematics. Before his current role, he served as a research scholar at the University of Allahabad, where he taught various mathematics courses to B.A./B.Sc. students from 2017 to 2019. Throughout his academic career, Dr. Maurya has been actively involved in research in fluid mechanics and has guided numerous students in their M.A./M.Sc. dissertations. In addition to his teaching responsibilities, he has also contributed to projects such as the DST-Inspire Summer Research Internship and has been involved in ongoing research related to nanofluids and heat transmission in solar energy systems.

Research Interest 🔬

Dr. Maurya’s primary research interests lie in the areas of fluid mechanics, specifically in studying the flow of fluids through porous media and magnetohydrodynamic (MHD) flows. He is particularly interested in analyzing the effects of magnetic fields on the behavior of non-Newtonian fluids and the dynamics of viscous fluid flows. His work also includes exploring the applications of fluid dynamics in various engineering problems such as heat transfer in nanofluids, MHD flow through rotating cylinders, and multiphase flows. Dr. Maurya’s research provides valuable insights into the behavior of fluids in porous media, which has important applications in fields such as energy systems, environmental science, and material science.

Awards 🏆

Dr. Deepak Kumar Maurya has been recognized for his outstanding academic and research contributions. He received the CSIR JRF award in 2017 and has been ranked in the CSIR NET exams multiple times, achieving AIR 96, 99, and 73 in different years. He was also awarded the GATE 2017 AIR 291 in Mathematics. Dr. Maurya has been awarded grants for his research, including a Council of Science & Technology, U.P. sanctioned project of Rs. 11.36 Lakh on heat transmission in nanofluids for solar energy. He has also received academic honors for his contributions to the field of fluid dynamics and has been invited to deliver guest lectures at various institutions.

Top Noted Publication 📝

Dr. Deepak Kumar Maurya has authored several influential research papers and book chapters in the fields of fluid mechanics and applied mathematics. Notable publications include:

  • Maurya, D.K. (2025)
    Title: Role of Transverse Magnetic Field on Flow of Immiscible Micropolar Fluids through Coaxial Horizontal Cylindrical Membrane Using Cell Models
    Journal: Physics of Fluids
    Volume: 37, Issue: 1
    DOI: 10.1063/5.0254751

    Summary: This paper investigates the effect of a transverse magnetic field on the flow of immiscible micropolar fluids through coaxial horizontal cylindrical membranes using cell models. The study addresses the flow dynamics in the presence of a magnetic field, providing insights into applications in fluid dynamics, engineering, and membrane technologies.

  • Maurya, D.K. (2025)
    Title: Hydromagnetic Effects on Steady Flow of Casson Nanofluid through Rotating Co-axial Cylinders
    Journal: Physics of Fluids
    Volume: 37, Issue: 1
    DOI: 10.1063/5.0247411

    Summary: This paper examines the effects of hydromagnetic forces on the steady flow of Casson nanofluids between rotating coaxial cylinders. The study provides a theoretical framework for understanding the complex interactions between magnetic fields, nanofluids, and rotational mechanics, with implications for industrial fluid flow systems.

  • Maurya, D.K. (2024)
    Title: Multiphase Flow through Porous Channels and Cylindrical Shells: A Review
    Conference: 71st BGP Conference Proceedings
    Pages: 112-125

    Summary: This review paper presents a comprehensive analysis of multiphase flow through porous channels and cylindrical shells. It explores the fundamental principles, mathematical models, and practical applications of multiphase flow, highlighting the influence of porous media on the flow dynamics in various engineering contexts.

  • Maurya, D.K. (2024)
    Title: Hydromagnetic Flow of Casson Fluid Over a Stretching Plane Through Porous Medium
    Journal: Zeitschrift für Angewandte Mathematik und Mechanik (ZAMM)
    DOI: 10.1002/zamm.202300675

    Summary: This paper focuses on the hydromagnetic flow of Casson fluid over a stretching plane in the presence of a porous medium. The study delves into the influence of magnetic fields on the fluid’s flow behavior, offering insights that could be useful in applications involving non-Newtonian fluids and porous materials.

Conclusion

Dr. Deepak Kumar Maurya’s exceptional academic record, outstanding research contributions, and strong commitment to teaching and guiding students make him a strong candidate for the Best Researcher Award. His work on fluid mechanics, especially in the context of porous media and hydromagnetic effects, showcases both the depth and relevance of his research. With minor improvements in research outreach and expanding the interdisciplinary scope of his work, Dr. Maurya could further solidify his position as a leading researcher in his field. His continuous efforts in research, teaching, and mentoring make him a deserving nominee for this prestigious award.