Hyunho Lee | Materials Science | Best Researcher Award

Hyunho Lee | Materials Science | Best Researcher Award

Prof Hyunho Lee, Kwangwoon University, South Korea

Prof. Hyunho Lee is an Assistant Professor in the Department of Electronic Engineering at Kwangwoon University, South Korea, since March 2020. He earned his PhD in Electrical and Computer Engineering from Seoul National University in August 2018, where he also received a Distinguished Ph.D. Dissertation Award. His research focuses on light-emitting diodes, thin film solar cells, field-effect transistors, and printed flexible electronics. He has published numerous articles in esteemed journals and received multiple awards, including the GPVC 2018 Best Oral Presentation Award. Prof. Lee continues to contribute significantly to the field of electronic engineering. 🌟🔬

Publication profile

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Education and Academic Background 

Prof. Lee obtained his Ph.D. in Electrical and Computer Engineering from Seoul National University in August 2018, where he conducted significant research under the guidance of Prof. Changhee Lee. His educational background, which also includes a Bachelor’s degree from the Korea Advanced Institute of Science and Technology (KAIST), showcases a strong foundation in electrical engineering principles. This academic pedigree, combined with his active role in research and teaching as an Assistant Professor at Kwangwoon University, underscores his qualifications and commitment to advancing knowledge in his field. 

Research Experience 

With a robust research portfolio, Prof. Lee has gained extensive experience in both academic and applied settings. His postdoctoral positions at prestigious institutions like the University of Illinois Urbana Champaign and Seoul National University have enriched his expertise in materials science. His role as a research assistant has further honed his skills, providing him with a comprehensive understanding of the complexities involved in developing cutting-edge electronic materials. This blend of theoretical knowledge and practical experience makes him a well-rounded candidate for the award. 

Research Interests 

Prof. Hyunho Lee has established a remarkable research trajectory in the field of electronic engineering, focusing on innovative technologies such as light-emitting diodes (LEDs), thin-film solar cells, field-effect transistors, and printed electronics. His work with quantum dots, perovskite materials, and organic semiconductors positions him at the forefront of materials science and energy solutions, making significant contributions to the development of efficient, sustainable technologies. These areas of interest are not only critical to advancing electronic applications but also align with global efforts toward renewable energy and flexible electronics, highlighting his impact on both scientific and industrial fronts. 

Honors and Awards 

Prof. Lee’s accolades reflect his dedication and excellence in research. Notably, he received the Distinguished Ph.D. Dissertation Award for his work on the stability analysis of perovskite solar cells and light-emitting diodes. His recognition through awards such as the GPVC 2018 Best Oral Presentation Award and the KIDS Award highlights his impactful contributions to conferences and academic communities. These honors not only validate his research findings but also showcase his ability to communicate complex ideas effectively, a crucial skill for any leading researcher.

Research focus 

Prof. Hyunho Lee’s research primarily centers on advanced materials for solar cells and light-emitting diodes (LEDs), with a particular emphasis on colloidal quantum dots and perovskite structures. His work explores device structures, ion diffusion mechanisms, and degradation phenomena, aiming to enhance the efficiency and stability of photovoltaic devices. He also investigates the integration of innovative materials like Al-doped TiO₂ for electron extraction layers and the development of multifunctional transparent electrodes. Overall, his contributions significantly advance the fields of renewable energy and optoelectronics. ☀️🔋💡

Publication top notes

Towards the commercialization of colloidal quantum dot solar cells: perspectives on device structures and manufacturing

Analysis of ion‐diffusion‐induced Interface degradation in inverted perovskite solar cells via restoration of the Ag electrode

Direct Evidence of Ion-Migration-Induced Degradation of Ultrabright Perovskite Light-Emitting Diodes

Enhanced light trapping and power conversion efficiency in ultrathin plasmonic organic solar cells: a coupled optical-electrical multiphysics study on the effect of …

Current status and perspective of colored photovoltaic modules

Degradation mechanism of blue thermally activated delayed fluorescent organic light-emitting diodes under electrical stress

Universal Elaboration of Al‐Doped TiO2 as an Electron Extraction Layer in Inorganic–Organic Hybrid Perovskite and Organic Solar Cells

Conclusion 

Prof. Hyunho Lee’s extensive research interests, solid educational background, rich experience, notable honors, and impactful publications, he stands out as an exemplary candidate for the Best Researcher Award. His commitment to advancing electronic technologies not only contributes to the academic community but also holds promise for practical applications that can drive societal change. Awarding him this honor would recognize his contributions and inspire further advancements in his field. 

Sharad Patil | Materials Science | Best Researcher Award

Mr. Sharad Patil | Materials Science | Best Researcher Award

Mr. Sharad Patil, S. S. M. M. Arts, Science and Commerce College, Pachora, India

Dr. Sharad Bhimrao Patil, currently serving as an Assistant Professor of Physics at S.S.M.M. College, Pachora, is an accomplished researcher with over 10 years of teaching experience. He holds a Ph.D. in Physics from KBCNMU, Jalgaon, and has published 37 research papers in international journals, many of which are included in the UGC care list. His research interests include thin films physics, gas sensors, and photoconductive materials. He is also the author of a book on thin film technology and has participated in various academic activities, including NAAC coordination and the mentorship of students. Dr. Patil actively contributes to research as a reviewer for three international journals and has attended 16 national and international conferences.

Publication profile

Scopus


Academic Qualifications 🎓

Mr. Sharad Patil holds a Ph.D. in Physics from Kavayitri Bahinabai Chaudhari North Maharashtra University (KBCNMU), Jalgaon. Prior to that, he completed his M.Sc. in Physics from the same university, graduating with first-class honors (66.75%). He also earned his B.Sc. in Physics from NMU, Jalgaon, securing a first-class distinction with 64.83%. His earlier academic journey includes completing his H.S.C. from Nasik with 55.67% (second class) and his S.S.C., where he achieved an impressive 72% and a first-class distinction. 📘✨

 

Research Activities

Mr. Sharad Patil’s research spans diverse fields, including environmental studies and material science. His graduation project focused on water and soil pollution’s impact on global warming, while his post-graduation work involved synthesizing and characterizing Zn-doped CdS thin films. His research interests include gas sensors (NH₃, CO₂, Cl₂, H₂, etc.), thin/thick films physics, photoconducting materials, and sunscreen lotions. Skilled in techniques such as spray pyrolysis, chemical bath deposition, and sol-gel, he handles advanced instruments like static gas sensing and Hall measurement setups. Additionally, he actively participates in college events, NAAC coordination, and research guidance. ⚗️🌍

 

Research Focus 🔬🌡️

Mr. Sharad Patil’s research focuses on gas sensor technology, nanostructured materials, and thin film development. His work includes the synthesis and characterization of materials like ZnO, SnO₂, and WO₃ for gas sensing applications such as H₂S, Cl₂, CO, and ethanol detection. He has explored techniques like spray pyrolysis, sol-gel, and chemical bath deposition. His studies emphasize improving gas sensor performance, operability at room temperatures, and enhancing sensitivity. With notable publications in materials science, sensor development, and nanostructures, Mr. Patil contributes significantly to advanced gas sensor technologies and environmental monitoring. 🌍🧪

 

Publication Top Notes

  • Comparative study of temperature-dependent H₂S gas sensing performance of M-ZrO₂ thick film resistors (M = Cd, Cu, Cr), 2017, Sensor Letters 📄 (1 citation)
  • Conventional gas sensor application of nanostructured WO₃ thin films, 2015, Sensor Letters 📄 (3 citations)
  • Room temperature cigarette smoking sensing performance of nanostructured SnO₂ thin films, 2015, International Journal of ChemTech Research 📄 (2 citations)
  • Nanostructured V₂O₅ thin films prepared by spray pyrolysis technique for NO₂ sensor, 2015, International Journal of ChemTech Research 📄 (3 citations)
  • Perovskite nanostructured CdSnO₃ thin films as Cl₂ gas sensor operable at room temperature, 2015, Sensor Letters 📄 (3 citations)
  • Synthesis, characterization and gas sensing performance of sol-gel prepared nanocrystalline SnO₂ thin films, 2014, International Journal on Smart Sensing and Intelligent Systems 📄 (13 citations)
  • Detection of H₂S gas at lower operating temperature using sprayed nanostructured In₂O₃ thin films, 2013, Bulletin of Materials Science 📄 (24 citations)
  • Effect of molarity of precursor solution on properties of nanocrystalline ZnO thin films, 2013, Materials Technology 📄 (2 citations)
  • Spray pyrolysed nanostructured ZnO thin film sensors for ethanol gas, 2012, Sensors and Transducers 📄 (7 citations)
  • Influence of precursor concentration solution on CO sensing performance of sprayed nanocrystalline SnO₂ thin films, 2012, Optoelectronics and Advanced Materials, Rapid Communications 📄 (3 citations)

Conclusion

Dr. Sharad Bhimrao Patil stands out as a strong contender for the Best Researcher Award, with 37 published research papers in international and UGC care-listed journals, emphasizing his expertise in thin-film technology and gas sensors. With over 10 years of teaching and research experience, he has mentored students, served as a reviewer for international journals, and mastered advanced techniques such as spray pyrolysis and sol-gel. Dr. Patil’s academic contributions include authoring a book on thin-film technology, holding multiple academic roles, and coordinating NAAC activities, demonstrating his leadership and innovation in the scientific community.

 

Dipankar Das | Materials Science | Young Scientist Award

Mr. Dipankar Das | Materials Science | Young Scientist Award

Mr. Dipankar Das, Tripura University, India

Publication profile

Academic & Professional Qualifications:

Mr. Dipankar Das has a solid academic background, currently pursuing a Ph.D. in Materials Science and Engineering at Tripura University. He completed his M.Tech. in the same field from Tripura University in 2018, and holds a B.Tech. in Mechanical Engineering from Dr. A.P.J. Abdul Kalam Technical University, Uttar Pradesh (2016). His foundational education includes a diploma in Mechanical Engineering and secondary education from the Tripura Board of Secondary Education.

Professional Experience:

Mr. Das has gained valuable research experience as a Junior and Senior Project Fellow at Tripura University from July 2018 to March 2021. His responsibilities focused on research and development in the Department of Material Science and Engineering, contributing to significant academic projects.

Awards & Distinctions:

Mr. Das has been recognized with numerous awards and certifications throughout his academic and professional journey. Notable achievements include the Dr. B. R. Ambedkar Memorial Award, multiple prizes in science exhibitions, and certifications in AutoCAD, Product Design Development, and 3D Printing Technology. He also excelled in competitions like the Smart India Hackathon 2019 and received prestigious awards for his research presentations and prototypes at various national and international conferences. Recently, he was awarded the Daniel Gabriel Fahrenheit Scholarship at the University of Gdansk, Poland, in October 2023.

Publication Top Notes

  • Geopolymer bricks: The next generation of construction materials for sustainable environment | 2024 | Construction and Building Materials | Cited by: Not Available 📚🏗️
  • Coal Fly Ash Utilization in India | 2023 | New Horizons for Industry 4.0 in Modern Business | Cited by: Not Available 🏭🌍
  • Preparation of Cellulose Hydrogels and Hydrogel Nanocomposites Reinforced by Crystalline Cellulose Nanofibers (CNFs) as a Water Reservoir for Agriculture Use | 2023 | ACS Applied Polymer Materials | Cited by: Not Available 💧🌱
  • Synthesis of Inorganic Polymeric Materials from Industrial Solid Waste | 2023 | Silicon | Cited by: Not Available 🏭⚛️
  • A Review of Coal Fly Ash Utilization to Save the Environment | 2023 | Water, Air, & Soil Pollution | Cited by: Not Available 🏞️🌱
  • Cellulose: a fascinating biopolymer for hydrogel synthesis | 2022 | Journal of Materials Chemistry B | Cited by: Not Available 🌱🧪
  • Effect of Diesel-Turpentine binary blends on performance, combustion, exergy, and emission parameters of a stationary compression ignition engine | 2022 | Journal of Thermal Analysis and Calorimetry | Cited by: Not Available 🚛🔥
  • Mullite Ceramics Derived from Fly Ash Powder by Using Albumin as an Organic Gelling Agent | 2022 | Biointerface Research in Applied Chemistry | Cited by: Not Available 🏺⚗️
  • Effect of mechanical milling of fly ash powder on compressive strength of geopolymer | 2022 | Materials Today: Proceedings | Cited by: Not Available 🛠️🏗️
  • Fabrication of Mullite Ceramic by Using Industrial Waste | 2022 | Smart Cities: Concepts, Practices, and Applications | Cited by: Not Available 🏙️🏭
  • Synthesis and Characterization of Fly Ash and GBFS Based Geopolymer Material | 2021 | Biointerface Research in Applied Chemistry | Cited by: Not Available ⚛️🏗️
  • Synthesis and Characterization of Superabsorbent Cellulose-Based Hydrogel for Agriculture Application | 2021 | Starch – Stärke | Cited by: Not Available 🌱💧
  • Synthesis, Characterization and Properties of Fly Ash Based Geopolymer Materials | 2021 | Journal of Materials Engineering and Performance | Cited by: Not Available 🏗️⚛️
  • A Review of Advanced Mullite Ceramics | 2021 | Engineered Science | Cited by: Not Available 🏺🧪
  • Effect of Slag Addition on Compressive Strength and Microstructural Features of Fly Ash Based Geopolymer | 2021 | Circular Economy in the Construction Industry | Cited by: Not Available ♻️🏗️
  • Industrial solid wastes and their resources | 2021 | Emerging Trends in Science and Technology | Cited by: Not Available 🏭♻️
  • E-Waste Management in India – A Review | 2021 | Future of E-waste Management: Challenges and Opportunities | Cited by: Not Available ♻️🔋
  • Utilization of thermal industry waste: From trash to cash | 2019 | Carbon – Science and Technology | Cited by: Not Available 💰♻️

Conclusion:

Given Mr. Das’s strong academic foundation, research experience, and numerous accolades, he appears to be a suitable candidate for the Research for Young Scientist Award. His dedication to materials science and engineering, coupled with his recognition in both national and international platforms, aligns well with the criteria for this prestigious award.