Dr. Kashinath Lellala – Energy and environmental applications – Best Innovation Award

Dr. Kashinath Lellala - Energy and environmental applications - Best Innovation Award

Xavier University of Louisiana - United States

AUTHOR PROFILE 

SCOPUS 

EARLY ACADEMIC PURSUITS 🎓

Kashinath Lellala’s academic journey began with his M.Sc. in Physics from Kakatiya University, Warangal, Telangana, India, in 2007, where he specialized in electronics. Following this, he pursued an M. Phil. in Physics from Alagappa University, India, in 2013, focusing on thin films and nanotechnology. His research on graphene, particularly in the synthesis and characterization of single-layered graphene by chemical exfoliation, laid the foundation for his future work in nanomaterials. He earned his Ph.D. in Materials Science from the University of Mysore, India, in 2018, under the guidance of Professor K. Byrappa. His doctoral thesis focused on the fabrication and processing of hybrid metal oxide/metal sulfide-graphene oxide nanocomposites and their potential applications in energy and environmental sectors.

PROFESSIONAL ENDEAVORS 💼

Dr. Lellala has accumulated significant professional experience in both research and teaching. With over 12 years of teaching experience and 9 years of research experience, he has collaborated with various academic and industrial teams to develop advanced materials for energy and environmental applications. His work has encompassed the design and synthesis of efficient catalysts, heterojunction materials for fuel cells, and anode/cathode materials for batteries. He has been a postdoctoral fellow at prestigious institutions, including Lulea University of Technology and the University of South Australia, where he furthered his research in nanomaterials. Currently, he holds multiple editorial board memberships for international journals, showcasing his commitment to the academic community.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Dr. Lellala’s research contributions focus on developing advanced functional materials, particularly for energy and environmental applications. His work involves the fabrication of hybrid nanocomposites, combining metal oxides and metal sulfides with graphene oxide, to improve efficiency in various catalytic processes, including photo/electro catalysis, fuel cell reactions, and hydrogen evolution. His research into heterojunction materials for water splitting and energy storage devices, such as Energy and environmental applications batteries, aims to enhance the performance and sustainability of clean energy systems. Through computational work and experimental synthesis, he continues to push the boundaries of materials science in the context of renewable energy.

ACCOLADES AND RECOGNITION 🏆

Dr. Lellala has been recognized for his contributions to materials science and interdisciplinary research. He was awarded the EMINET Educator Award-2020 by the Forum of Interdisciplinary Research in Mathematical Sciences, India, for his exceptional teaching contributions. In 2020, he received a Certificate of Appreciation for his valuable contributions as a reviewer for the Journal of Cleaner Production. Furthermore, he was honored with the prestigious Caryl Trigger Research Foundation Energy and environmental applications Postdoctoral Fellowship at Lulea University of Technology, Sweden. These accolades highlight his excellence in both research and teaching within his field.

IMPACT AND INFLUENCE 🌍

Dr. Lellala’s work has had a significant impact on the field of materials science, particularly in the development of nanomaterials for clean energy applications. His contributions to the fabrication of hybrid nanocomposites have led to advancements in energy storage and conversion technologies. By advancing the understanding of heterojunction materials and catalysts, his research is contributing to the reduction of energy consumption and the improvement of sustainable technologies. His Energy and environmental applications work is influencing the scientific community’s approach to energy materials, particularly in the context of environmental sustainability.

LEGACY AND FUTURE CONTRIBUTIONS 🌟

Looking ahead, Dr. Lellala aims to continue his research on advanced materials for energy applications, particularly in the areas of hydrogen storage, fuel cells, and battery technologies. His work in the integration of nanomaterials for efficient catalytic processes and energy storage devices positions him at the forefront of clean energy solutions. By advancing the scalability and commercial viability of these materials, Dr. Lellala hopes to contribute to the development of sustainable energy solutions that can have a lasting positive impact on global energy systems. His future contributions will likely shape the next generation of energy materials and their applications, advancing both scientific and technological progress in the field.

NOTABLE PUBLICATIONS 

  • Title: Ceria Boosting on In Situ Nitrogen-Doped Graphene Oxide for Efficient Bifunctional ORR/OER Activity
    Authors: Kashinath, L., Byrappa, K.
    Journal: Frontiers in Chemistry, 2022, 10, 889579
  • Title: One-pot microwave synthesis of SnSe and Lanthanum doped SnSe nanostructure with direct Z scheme pattern for excellent photodegradation of organic pollutants
    Authors: Govindan, V., Kashinath, L., Geetha, G.V., Ramasamy, P., Sankaranarayanan, K.
    Journal: Ceramics International, 2022, 48(9), pp. 12228–12239
  • Title: Electrochemical deposition of Si nano-spheres from water contaminated ionic liquid at room temperature: Structural evolution and growth mechanism
    Authors: Vanpariya, A., Lellala, K., Bhagat, D., Mukhopadhyay, I.
    Journal: Journal of Electroanalytical Chemistry, 2022, 910, 116175
  • Title: Sulfur embedded on in-situ carbon nanodisc decorated on graphene sheets for efficient photocatalytic activity and capacitive deionization method for heavy metal removal
    Authors: Lellala, K.
    Journal: Journal of Materials Research and Technology, 2021, 13, pp. 1555–1566
  • Title: Microwave-Assisted Facile Hydrothermal Synthesis of Fe3O4-GO Nanocomposites for the Efficient Bifunctional Electrocatalytic Activity of OER/ORR
    Authors: Lellala, K.
    Journal: Energy and Fuels, 2021, 35(9), pp. 8263–8274

Prof. Jaekyung Sung – Energy materials – Best Researcher Award

Prof. Jaekyung Sung - Energy materials - Best Researcher Award

Gyeongsang national university - South Korea

Author Profile 

SCOPUS

GOOGLE SCHOLAR

Early academic pursuits 🎓

Jaekyung Sung’s academic journey began with a bachelor's degree in materials science and engineering from the kumoh national institute of technology (kit), south korea, where he laid the foundation of his research in semiconductor design. his passion for energy storage and materials science deepened during his master’s program at the gwangju institute of science and technology (gist), where he focused on synthesizing non-precious metal electrocatalysts for fuel cells. he further advanced his academic career with a ph.d. from the ulsan national institute of science and technology (unist), concentrating on the development of advanced anode materials for high-energy lithium-ion batteries under the mentorship of professor jaephil cho.

Professional endeavors 🏢

After completing his doctorate, jaekyung embarked on a prolific research career. he first served as a postdoctoral researcher at unist, working on cutting-edge projects in nano energy storage materials. this was followed by a prestigious postdoctoral position at the massachusetts institute of technology (mit) in the united states, where he worked in nuclear science and engineering under professor ju li. in september 2022, jaekyung took on the role of assistant professor at the school of materials science and engineering, gyeongsang national university (gnu), where he continues to contribute to the field of metallurgical engineering.

Contributions and research focus 🔬

Jaekyung sung's research has made significant strides in the field of energy storage, particularly in the development of advanced anode materials for high-energy Energy materials lithium-ion batteries. his work explores the synthesis and application of innovative materials aimed at improving battery efficiency and performance. his contributions extend beyond lithium-ion batteries, as he has also explored non-precious metal electrocatalysts for fuel cells, broadening the scope of his impact in clean energy technologies. his interdisciplinary approach integrates chemical engineering with materials science, driving innovations in sustainable energy solutions.

Accolades and recognition 🏅

Jaekyung’s research has been widely recognized in academic and scientific circles. he has published numerous papers in high-impact journals, showcasing his Energy materials expertise in battery technology and materials science. his groundbreaking work on anode materials for lithium-ion batteries has earned him accolades, highlighting his contributions to advancing energy storage technologies. his time at mit further solidified his reputation as a rising star in materials science, allowing him to collaborate with top researchers in the field.

Impact and influence 🌍

through his innovative research, jaekyung sung has made meaningful contributions to the global pursuit of sustainable energy solutions. his work in improving the performance of lithium-ion batteries and fuel cells directly supports the development of more efficient and environmentally friendly energy storage systems. his Energy materials research not only advances technological innovation but also addresses critical challenges in the transition to clean energy, positioning him as a key figure in the field of energy materials.

Legacy and future contributions 🔮

Jaekyung Sung’s legacy is being built on his dedication to pioneering energy storage technologies. as an assistant professor, he is committed to educating and mentoring the next generation of scientists and engineers, while continuing to push the boundaries of research in energy materials. his future contributions promise to further the development of high-performance batteries and fuel cells, accelerating progress toward a sustainable energy future.

Notable Publications 

  • Title: Comparison of commercial silicon-based anode materials for the design of a high-energy lithium-ion battery
    Authors: Choi, M., Lee, E., Sung, J., Kim, N., Ko, M.
    Journal: Nano Research, 2024, 17(6), pp. 5270–5277
  • Title: Surface fluorinated graphite suppressing the lithium dendrite formation for fast chargeable lithium ion batteries
    Authors: Ko, M., Jayasubramaniyan, S., Kim, S., Nam, S.Y., Sung, J.
    Journal: Carbon, 2024, 219, 118808
  • Title: Architecting Sturdy Si/Graphite Composite with Lubricative Graphene Nanoplatelets for High-Density Electrodes
    Authors: Park, S., Choi, M., Lee, J., Ko, M., Chae, S.
    Journal: Small, 2024
  • Title: Modeling capacitance of carbon-based supercapacitors by artificial neural networks
    Authors: Reddy, B.S., Narayana, P.L., Maurya, A.K., Cho, K.K., Reddy, N.S.
    Journal: Journal of Energy Storage, 2023, 72, 108537
  • Title: A strategy of boosting the effect of carbon nanotubes in graphite-blended Si electrodes for high-energy lithium-ion batteries
    Authors: Choi, M., Sung, J., Yeo, G., Chae, S., Ko, M.
    Journal: Journal of Energy Storage, 2023, 72, 108301

Mr. Ahmad Ra’ed Azzam – Renewable Energy – Best Researcher Award

Mr. Ahmad Ra’ed Azzam - Renewable Energy - Best Researcher Award

Al Hussein Technical University - Jordan

Author Profile 

SCOPUS

Early academic pursuits 🎓

Ahmad Ra’ed Azzam embarked on his academic journey at princess sumaya university for technology, where he completed his bachelor’s in electrical engineering in 2017. his graduation project focused on designing an extra-high voltage transmission line using series capacitor compensation, a critical area for improving the efficiency of power transmission. ahmad's work demonstrated his early interest in innovative solutions for electrical systems. following this, he pursued his msc. in power engineering at the university of jordan, graduating in 2023. his research during this period centered on the techno-economic impacts of electric vehicle charging stations on local power distribution networks—a pressing issue as the world transitions to greener technologies.

Professional endeavors 🔧

Ahmad’s professional career took off at al-hussein technical university in 2018, where he has been working as a teaching and research assistant. his responsibilities include supervising various energy and renewable energy labs and mentoring students. ahmad has also been involved in establishing and upgrading several laboratories, ensuring they meet academic and industry standards. his role as a research assistant in the multi-discipline research group (merg) under dr. emad abdsalam has allowed him to dive into smart grid modeling, high-power converters, and solar chimney power plant simulations. he has made valuable contributions to jordan’s growing energy education sector through his dedication to practical and theoretical instruction.

Contributions and research focus 🔍

Ahmad’s research has focused on renewable energy, smart grid technologies, and power systems, particularly in relation to electric vehicles and solar energy. his master’s thesis explored the impact of electric vehicle charging stations on local power distribution networks—a timely topic in the transition towards electric Renewable Energy mobility. at al-hussein technical university, he has contributed to studies on smart-grid modeling, solar chimney power plants, and photovoltaic system performance. his research combines economic analysis with technical modeling, ensuring that energy solutions are both feasible and effective.

Accolades and recognition 🏅

Ahmad’s academic achievements have been recognized with distinction. he graduated with an impressive gpa of 3.75/4 during his msc., reflecting his dedication to excellence. in addition to his academic accolades, he played a significant role in national events such as the national sumo robot championship, showcasing his Renewable Energy versatility and commitment to advancing technology and innovation in jordan.

Impact and influence 🌍

Ahmad’s work has had a tangible impact on jordan’s energy sector, particularly through his contributions to energy education and research. his efforts to establish and upgrade laboratories at al-hussein technical university have enhanced the learning experience for students and ensured they are equipped with the practical Renewable Energy skills needed to address future energy challenges. his research on electric vehicle integration into power systems and solar energy technologies is highly relevant to jordan’s evolving energy landscape, positioning him as a key figure in the nation’s push towards renewable energy.

Legacy and future contributions 🚀

Ahmad Ra’ed Azzam’s legacy is defined by his commitment to advancing renewable energy education and research in jordan. his work in smart grids, electric vehicles, and solar power systems has laid the groundwork for future developments in these critical areas. as he continues his academic and professional journey, ahmad’s contributions will undoubtedly shape the future of jordan’s energy infrastructure and inspire the next generation of engineers.

Notable Publications 

  • Title: Synergistic energy solutions: Solar chimney and nuclear power plant integration for sustainable green hydrogen, electricity, and water production
    Authors: Abdelsalam, E.; Almomani, F.; Azzam, A.; Abdallah, R.; Shboul, B.
    Journal: Process Safety and Environmental Protection, 2024, Volume 186, Pages 756–772
  • Title: Enhancing the electricity and desalinated water production from solar chimney power plants through integration with nuclear power plants: A case study in Jordan
    Authors: Almomani, F.; Abdelsalam, E.; Kafiah, F.; Al Otoom, R.A.; Qandil, H.
    Journal: Process Safety and Environmental Protection, 2024, Volume 185, Pages 316–324
  • Title: A case study of an integrated solar chimney power plant and water desalination plant in Qatar
    Authors: Abdelsalam, E.; Almomani, F.; Kafiah, F.; Abdallah, R.; Juaidi, A.
    Journal: Desalination, 2024, Volume 575, Article 117283
  • Title: A novel design of a twin-chimney solar power plant for power and distilled water production
    Authors: Abdelsalam, E.; El-Rub, Z.A.; Alkasrawi, M.; Salameh, T.; Olabi, A.G.
    Journal: Thermal Science and Engineering Progress, 2023, Volume 46, Article 102231
  • Title: Microgrid Partitioning: an Impact Assessment of Integrating a Photovoltaic System With Electrical Energy Storage Devices
    Authors: Baniatta, B.; Azzam, A.; Abdelsalam, E.; Kafiah, F.; Qandil, H.
    Journal: ASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE), 2023, Volume 7, Article V007T08A017

Assoc Prof Dr.  Yu-nan Chen – Thermochemical conversion of biomass and organic solid waste – Best Researcher Award

Assoc Prof Dr.  Yu-nan Chen - Thermochemical conversion of biomass and organic solid waste - Best Researcher Award

Xi'an Jiaotong University - China

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Yu-nan Chen's journey in the field of energy and chemical engineering began with his passion for understanding complex chemical reactions. he pursued his education with a focus on chemical processes in extreme conditions, leading him to specialize in the area of supercritical water gasification. his academic foundation was further strengthened by advanced studies at xi’an jiaotong university, where he honed his skills in chemical reaction mechanisms and supercritical fluids.

Professional endeavors 🏛️

currently an associate professor at the state key laboratory of multiphase flow in power engineering at xi’an jiaotong university, yu-nan chen plays a pivotal role in advancing research on energy conversion processes. his professional career is centered around the exploration of coal, biomass, and organic waste gasification, focusing on the utilization of supercritical water. through his leadership in national research projects, chen has positioned himself as a key figure in the field of sustainable energy and resource utilization.

contributions and research focus 🌱

Yu-nan Chen’s research focuses on the supercritical water gasification process, exploring the chemical reaction mechanisms involved. using advanced computational techniques such as density functional theory, he has uncovered the microscopic reaction dynamics of supercritical water, hydrogen, and free radicals. his innovative Thermochemical conversion of biomass and organic solid waste work has contributed significantly to the understanding of how these elements interact during the gasification of coal and biomass, paving the way for more efficient and sustainable energy solutions.

Accolades and recognition 🏅

Yu-nan Chen’s contributions to the field are recognized through his extensive publication record, with over 30 original papers in leading scientific journals. he has also been awarded 11 patents, a testament to the practical application of his research. as a leader in national research initiatives, chen's work has received widespread Thermochemical conversion of biomass and organic solid waste recognition within the scientific community, solidifying his status as an influential figure in chemical engineering and energy research.

Impact and influence 🌍

The impact of yu-nan chen’s research extends beyond academia. his work on supercritical water gasification has practical implications for energy resource management, offering sustainable solutions for the utilization of coal, biomass, and organic waste. by revealing the microscopic reaction mechanisms in these Thermochemical conversion of biomass and organic solid waste processes, his research contributes to the development of cleaner, more efficient energy technologies, influencing both scientific advancements and industrial practices.

Legacy and future contributions 🔮

Yu-nan chen’s legacy lies in his groundbreaking research on supercritical water gasification and his role in promoting sustainable energy utilization. his future work promises to further advance the field, with a continued focus on uncovering deeper insights into the chemical reactions involved in energy conversion processes. chen’s commitment to innovation and sustainability ensures that his research will have lasting influence on both science and society.

Notable Publications

Dr. Peng Chen – Energy transition and storage – Best Researcher Award

Dr. Peng Chen - Energy transition and storage - Best Researcher Award

Tongren University -China

Author Profile

SCOPUS

ORCID

🎓 Early academic pursuits

Peng Chen, born in november 1988, embarked on his academic journey with a strong foundation in chemistry. he earned his bachelor’s degree in chemistry from qinghai normal university in 2010. his passion for inorganic chemistry led him to pursue a master’s degree at yunnan university, where he deepened his knowledge and research skills. motivated by a desire to contribute to materials engineering, peng chen pursued his ph.d. at northeastern university. his doctoral studies were enriched by international experiences as a visiting ph.d. student at nanjing tech university and georgia institute of technology, where he gained exposure to cutting-edge research in metallurgy and materials engineering.

💼 Professional endeavors

peng chen’s career in academia began in 2014 when he joined tongren university as a lecturer. his dedication to teaching and research quickly propelled him to the position of associate professor by 2022. throughout his career, he has been actively involved in several research projects, focusing on the development of advanced materials for energy storage and environmental applications. his work at tongren university has been supported by significant funding from the natural science foundation of guizhou province and the thousands talent program of guizhou province, where he served as the principal investigator.

🔬 Contributions and research focus

peng chen’s research is primarily centered on the development of innovative materials for energy storage, particularly in the field of zinc-ion Energy transition and storage batteries. at nanjing tech university, under the supervision of professor yuping wu, he worked on modifying zinc anodes for high-energy aqueous rechargeable zinc-ion batteries. his time as a visiting ph.d. student at georgia institute of technology under professor nian liu further enhanced his expertise in this area. he contributed to pioneering research on nanoscale carbon shells inspired by pomegranates and the performance of zinc metal anodes with electron-conductive polymer coatings. his work also extended to the design of flexible energy storage devices and the development of self-healing liquid metals for silicon anodes.

🏅 Accolades and recognition

peng chen’s research achievements have been recognized with various awards and grants, reflecting his contributions to the field of materials engineering. his successful acquisition of funding from prestigious programs such as the natural science foundation of guizhou province and the thousands talent program of guizhou province highlights his standing as a leading researcher in his field. his work has been instrumental in Energy transition and storage advancing the understanding and development of materials for energy storage and environmental protection.

🌍 Impact and influence

peng chen’s research has had a significant impact on the scientific community, particularly in the field of energy storage. his work on zinc-ion batteries and advanced materials has not only contributed to academic knowledge but also holds potential for real-world applications in Energy transition and storage sustainable energy solutions. his research on the quantitative analysis of heavy metals in gastrodia elata and the adsorbing performance of metal-organic frameworks (mofs) for nitrogen and sulfur oxides has further expanded the applications of his work into environmental protection.

🔧 Legacy and future contributions

looking forward, peng chen’s legacy is likely to be marked by his innovative contributions to materials engineering and his commitment to advancing sustainable technologies. his ongoing research at tongren university continues to push the boundaries of what is possible in the field of energy storage and environmental protection. as he continues to mentor the next generation of scientists, his influence will extend beyond his own research, shaping the future of materials engineering for years to come.

Notable Publications