Prof. Jaekyung Sung – Energy materials – Best Researcher Award

Prof. Jaekyung Sung - Energy materials - Best Researcher Award

Gyeongsang national university - South Korea

Author ProfileĀ 

SCOPUS

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Early academic pursuits šŸŽ“

Jaekyung Sungā€™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 masterā€™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 šŸ¢

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 šŸ”¬

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 šŸ…

Jaekyungā€™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 šŸŒ

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 šŸ”®

Jaekyung Sungā€™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 PublicationsĀ 

  • 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. 5270ā€“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

Dr. Fengfeng Chen – Materials Science and Engineering – Best Researcher Award

Dr. Fengfeng Chen - Materials Science and Engineering - Best Researcher Award

Zhejiang Sci-Tech University - China

Author Profile

ORCIDĀ 

Early academic pursuits šŸŽ“

Fengfeng Chen embarked on his academic journey by pursuing a master's degree where he honed his skills in the design and synthesis of alkaline ionic liquids, particularly for carbon capture applications. This foundational work not only provided him with extensive hands-on experience in ionic liquids but also ignited his passion for developing innovative solutions to environmental challenges. His dedication to the field continued to flourish during his doctoral studies, where he delved deeper into materials science, focusing on metal-organic frameworks (MOFs) and heterogeneous catalysis.

Professional endeavors šŸ¢

Currently, Fengfeng holds the distinguished position of Professor at Zhejiang Sci-Tech University, where he is a prominent member of the School of Materials Science and Engineering. Under the guidance of Professor Gao Junkuo, he not only contributes to cutting-edge research but also plays a vital role in shaping the next generation of scientists by supervising seven master's students. His commitment to both research and teaching reflects his dedication to advancing knowledge in materials science.

Contributions and research focus šŸ”

Fengfeng's research primarily revolves around the design, synthesis, and application of MOF-based materials and heterogeneous catalysts. He aims to bridge the gap between catalyst exploration and mechanistic studies, focusing on designing catalysts that demonstrate enhanced performance through a thorough understanding of Materials Science and Engineering their mechanisms. His innovative approach to catalyst design contributes significantly to the field, particularly in the context of carbon capture and conversion.

Accolades and recognition šŸ…

Throughout his academic career, Fengfeng has garnered recognition for his research contributions, earning accolades for his innovative work in materials science and catalysis. His expertise in ionic liquids and MOFs has made him a sought-after researcher in the field, and he has published numerous influential papers in reputable Materials Science and Engineering journals. His work continues to receive attention and commendation from peers and the academic community.

Impact and influence šŸŒ

Fengfeng's research has a profound impact on addressing pressing environmental issues, particularly in the realm of carbon capture and sustainable materials development. By focusing on enhancing catalyst performance, his work contributes to advancing technologies that can mitigate climate change and promote Materials Science and Engineering sustainable practices. His influence extends beyond academia, inspiring students and researchers to engage in innovative approaches to environmental challenges.

Legacy and future contributions šŸ”®

Fengfeng Chen's legacy is characterized by his commitment to advancing materials science and catalysis through innovative research and dedicated teaching. His ongoing work in Professor Gao Junkuo's laboratory will continue to foster the development of novel materials and sustainable solutions for environmental challenges. As he mentors the next generation of scientists, his contributions will undoubtedly leave a lasting mark on the field, inspiring future advancements in materials science and catalysis.

Notable PublicationsĀ 

  • Title: Enhancement of CO2 adsorption and separation in basic ionic liquid/ZIF-8 with coreā€“shell structure
    Authors: Shiyu Nie, Encheng Liu, Fengfeng Chen, Yilin Ma, Kai Chen, Junkuo Gao
    Journal: Chemical Communications
    Year: 2024
    DOI: 10.1039/D4CC00478G
  • Title: In Situ Pyrolysis of ZIF-67 to Construct Co2N0.67@ZIF-67 for Photocatalytic CO2 Cycloaddition Reaction
    Authors: Lingjing Jiang, Dengqi Wu, Zishan Huang, Fengfeng Chen, Kai Chen, Aziz Bakhtiyarovich Ibragimov, Junkuo Gao
    Journal: Inorganic Chemistry
    Year: 2024-08-05
    DOI: 10.1021/acs.inorgchem.4c02504
  • Title: Metalā€“Organic-Framework-Derived Bromine and Nitrogen Dual-Doped Porous Carbon for CO2 Photocycloaddition Reaction
    Authors: Tingting Wang, Fengfeng Chen, Lingjing Jiang, Jinze Li, Kai Chen, Junkuo Gao
    Journal: Inorganic Chemistry
    Year: 2024-03-04
    DOI: 10.1021/acs.inorgchem.3c04308
  • Title: Construction of Hollow Ultrasmall Co3O4 Nanoparticles Immobilized in BN for CO2 Conversion
    Authors: Tingting Wang, Xiaomin Ma, Fengfeng Chen, Hong An, Kai Chen, Junkuo Gao
    Journal: Langmuir
    Year: 2024-02-07
    DOI: 10.1021/acs.langmuir.3c03804
  • Title: An ionic liquid as an interface modulator for highly efficient and stable perovskite solar cells
    Authors: Xiang Chen, Lixin Song, Ningxia Gu, Pengyun Zhang, Lei Ning, Pingfan Du, Fengfeng Chen, Jie Xiong
    Journal: Sustainable Energy & Fuels
    Year: 2023
    DOI: 10.1039/D2SE01535H

Dr. Camila De Oliveira Melo – Nanotecnologia – Young Scientist Award

Dr. Camila De Oliveira Melo - Nanotecnologia - Young Scientist Award

Universidade Estadual da ParaĆ­ba - Brazil

Author Profile

SCOPUS

ORCID

šŸŽ“ Early academic pursuits

Camila De Oliveira melo began her journey into the world of pharmaceuticals with a bachelorā€™s degree in pharmacy from universidade estadual da paraĆ­ba (uepb) in 2015. her early academic interests focused on innovative drug delivery systems, specifically the pre-formulation study of polymeric nanoparticles to carry l-asparaginase, a promising approach for cancer treatment. her drive to explore advanced biotechnological solutions led her to pursue a masterā€™s degree in pharmaceutical sciences (2018), where she worked on pla nanoparticles containing spiro-acridinic derivatives with anticancer activity. her strong foundation in biotechnology and pharmacy culminated in her doctoral degree from rede nordeste de biotecnologia (renorbio) at universidade federal do rio grande do norte (ufrn), where she focused on drug delivery systems aimed at cancer therapy using spiro-acridinic derivatives.

šŸ”¬ Professional endeavors

Camilaā€™s professional experience is deeply rooted in biotechnology and pharmaceutical sciences. she has worked extensively in developing polymeric nanoparticles, contributing to innovative cancer treatments. her research during her doctorate involved the development and biological evaluation of spiro-acridinic-derived drug delivery systems, demonstrating her commitment to advancing cancer therapies. her expertise also extends to the creation of nanoemulsions containing essential oils, which offer potential in various pharmaceutical applications. camila has shown consistent dedication to improving the efficacy and solubility of hydrophobic drugs through inclusion complexes, broadening her contribution to pharmaceutical sciences.

šŸ§¬ Contributions and research focus

Camila's primary research focus lies in the development of cutting-edge drug delivery systems. her work has emphasized the creation of polymeric nanoparticles, specifically pla-based systems, aimed at improving the accumulation of therapeutic agents in tumor tissues via the enhanced permeability and retention (epr) effect. Nanotecnologia her research has contributed significantly to the advancement of cancer treatment, with a focus on increasing the bioavailability and effectiveness of hydrophobic drugs. additionally, camilaā€™s exploration of nanoemulsions and inclusion complexes has opened doors for future applications in drug solubility and targeted delivery.

šŸ† Accolades and recognition

in 2022, camila was recognized as one of the six brazilian researchers selected for the prestigious course "nanobiotecnologia aplicada ao combate da covid19," funded by the ministry of science, technology, and innovations (mctic). this recognition highlights her role as a leading figure in nanotechnology applications in brazil, Nanotecnologia particularly her expertise in employing nanoparticles for critical health challenges like cancer and covid-19. her work has been supported by notable funding bodies like the foundation for research support of the state of paraĆ­ba (fapesq), showcasing the trust in her research contributions.

šŸŒ Impact and influence

Camilaā€™s contributions to cancer research, particularly in the area of nanoparticle-based drug delivery systems, have had a significant impact on the field of pharmaceutical biotechnology. her research has the potential to revolutionize cancer treatment by offering more effective drug delivery methods, enhancing drug Nanotecnologia solubility, and reducing side effects. her work on nanoemulsions and inclusion complexes also presents a wide range of pharmaceutical applications, influencing future research in drug development. camila's selection for the nanobiotechnology course reflects her growing influence in both national and international scientific communities.

šŸ”® Legacy and future contributions

Camila de Oliveira meloā€™s legacy lies in her groundbreaking research on nanoparticle-based drug delivery systems for cancer therapy. her work is a testament to her commitment to innovation and improving patient outcomes. moving forward, she is likely to continue making strides in the development of advanced drug delivery technologies, with the potential to influence future research in oncology, nanotechnology, and biopharmaceuticals. her expertise in enhancing drug solubility and efficacy positions her as a key player in the future of pharmaceutical biotechnology.

Notable PublicationsĀ 

  • Title: Enhancing the Antischistosomal Activity of Carvacryl Acetate Using Nanoemulsion
    Authors: De Souza, R.L., Mengarda, A.C., Roquini, D.B., Moraes, J.D., Oliveira, E.E.
    Journal: Nanomedicine, 2023, 18(4), pp. 331ā€“342
  • Title: Nanotechnology as a Tool to Improve the Biological Activity of Carvacrol: A Review
    Authors: Souza, R.L.D., Dantas, A.G.B., Melo, C.D.O., FelĆ­cio, I.M., Oliveira, E.E.
    Journal: Journal of Drug Delivery Science and Technology, 2022, 76, 103834
  • Title: Therapeutic Efficacy of Carvacrol-Loaded Nanoemulsion in a Mouse Model of Schistosomiasis
    Authors: Xavier, E.S., de Souza, R.L., Rodrigues, V.C., Oliveira, E.E., de Moraes, J.
    Journal: Frontiers in Pharmacology, 2022, 13, 917363
  • Title: The Compound (E)-2-Cyano-N,3-diphenylacrylamide (JMPR-01): A Potential Drug for Treatment of Inflammatory Diseases
    Authors: Da Silva, P.R., Do EspĆ­rito Santo, R.F., Melo, C.O., de Moura, R.O., Dos Santos, V.L.
    Journal: Pharmaceutics, 2022, 14(1), 188
  • Title: Xylan Microparticles for Controlled Release of Mesalamine: Production and Physicochemical Characterization
    Authors: Urtiga, S.C.D.C., Alves, V.M.O., Melo, C.D.O., Oliveira, E.E., Egito, E.S.T.D.
    Journal: Carbohydrate Polymers, 2020, 250, 116929

Prof. oh Seok kwon – Interfacial chemistry – Excellence in Research

Prof. oh Seok kwon - Interfacial chemistry - Excellence in Research

Sungkyunkwan University - South Korea

Author Profile

SCOPUS

šŸŽ“ Early academic pursuits

oh Seok kwon embarked on his academic journey with a strong foundation in chemistry, earning his bachelor of science degree from yeungnam university in gyeongsan, south korea, in 2007. driven by a passion for chemical engineering and biosensors, he pursued further studies at seoul national university. here, he obtained his master of science in 2010, with a thesis focused on biosensor applications using polypyrrole nanotubes. his academic excellence continued as he completed his doctorate at the same institution in 2013, under the guidance of professor jyongsik jang. his dissertation on the fabrication of chemical vapor deposition-grown graphene and its flexible sensor applications laid the groundwork for his future research in nanotechnology.

šŸ’¼ Professional endeavors

following his phd, dr. kwon gained valuable experience in some of the most prestigious research institutions in the world. he served as a postdoctoral researcher at yale university's department of chemical and environmental engineering, working under the mentorship of professor jaehong kim from september 2013 to may 2015. during this period, he also conducted research at the massachusetts institute of technology (mit) with professor jeremiah a. johnson. his expertise in nanotechnology led him to a senior researcher position at the infectious research center at the korea research institute of bioscience and biotechnology from may 2015 to february 2023. dr. kwon's career trajectory continued its upward momentum when he joined sungkyunkwan university as an associate professor in the skku advanced institute of nanotechnology & department of nano engineering in february 2023.

šŸ”¬ Contributions and research focus

dr. kwon's research has primarily focused on the development and application of nanomaterials in chemical and biological sensing. his work on the fabrication of graphene through chemical vapor deposition and its subsequent application in flexible sensors has made significant Interfacial chemistry contributions to the field. additionally, his research has explored biosensor applications using polypyrrole nanotubes, highlighting his versatility in utilizing different nanomaterials for sensor technologies. dr. kwon has also played a key role as a guest editor for the special issue "ultra-sensitive chem/bio sensors" in the mdpi journal sensors and serves on the editorial board of polymers, further demonstrating his influence in the scientific community.

šŸ… Accolades and recognition

dr. kwon's contributions to nanotechnology and sensor development have earned him widespread recognition in the academic community. his role as an editorial board member for reputable journals like polymers and his position as a guest editor for special issues in sensors showcase his Interfacial chemistry standing as an expert in his field. his academic achievements and research excellence have positioned him as a leading figure in the development of ultra-sensitive chemical and biological sensors.

šŸŒ Impact and influence

through his groundbreaking research and innovative approaches to nanomaterials and sensors, dr. kwon has significantly impacted the fields of chemical and biological engineering. his work has advanced the understanding and application of graphene and polypyrrole nanotubes in flexible and biosensor technologies. dr. kwon's influence extends beyond his research; his editorial roles and involvement in special issues Interfacial chemistry highlight his commitment to advancing scientific knowledge and supporting the dissemination of cutting-edge research in his areas of expertise.

šŸ† Legacy and future contributions

as dr. kwon continues his academic career at sungkyunkwan university, his legacy in nanotechnology and sensor development is poised to grow. his research contributions have already paved the way for future advancements in ultra-sensitive sensors, and his ongoing work is expected to further enhance the capabilities of nanomaterials in various applications. dr. kwon's dedication to innovation and excellence will undoubtedly inspire the next generation of scientists and researchers in the field of nanotechnology.

Notable Publications

Mr. Yugesh Kumar – Perovskite solar cells – Best Researcher Award

Mr. Yugesh Kumar - Perovskite solar cells - Best Researcher Award

IIT Kanpur - India

AUTHOR PROFILE

ORCID

EARLY ACADEMIC PURSUITS šŸŽ“

Yugesh Kumar's academic journey began with a B.Tech. in Mechanical Engineering from GCE Gaya, Bihar, where he graduated with a commendable CGPA of 7.88. His passion for physics and engineering led him to further his studies at NIT Durgapur, where he earned an M.Tech. from the Physics Department, achieving a CGPA of 8.48. His academic background laid a strong foundation for his future research endeavors in material science and engineering.

PROFESSIONAL ENDEAVORS šŸ«

Yugesh is currently a research scholar at IIT Kanpur, a prestigious institution known for its advanced research facilities. He is affiliated with the Materials Science and Engineering (MSE) Department, where he is engaged in cutting-edge research. His work focuses on improving the stability of triple cation perovskite solar cells, a promising area in renewable energy technologies. His role at IIT Kanpur positions him at the forefront of innovation in the field of solar energy.

CONTRIBUTIONS AND RESEARCH FOCUS šŸŒž

Yugesh's primary research area involves the study and enhancement of triple cation perovskite solar cells. These materials have gained attention for their potential to revolutionize solar energy due to their high efficiency and low production costs. His work aims to address the stability issues associated with these cells, thereby contributing to the development of more reliable and efficient solar energy solutions. His research not only Perovskite solar cells advances the scientific understanding of perovskite materials but also has practical implications for sustainable energy.

ACCREDITATIONS AND RECOGNITION šŸ…

Although still in the early stages of his research career, Yugesh has made notable contributions to the field. His academic achievements and research endeavors have positioned him as a promising young scholar. His work has been recognized within the academic community, and he continues to build a reputation for excellence in materials science. Yugesh's commitment to his research is evident in his continuous efforts to Perovskite solar cells publish and present his findings.

IMPACT AND INFLUENCE šŸŒ

Yugesh's research on perovskite solar cells has the potential to make a significant impact on the renewable energy sector. By improving the stability of these cells, his work could lead to more efficient and durable solar panels, making solar energy more accessible and affordable. This contribution is particularly relevant in the context of global efforts to transition to clean and sustainable energy sources. Yugesh's research not Perovskite solar cells only advances scientific knowledge but also contributes to the broader societal goal of reducing carbon emissions and combating climate change.

LEGACY AND FUTURE CONTRIBUTIONS šŸ”®

Yugesh Kumar's ongoing work at IIT Kanpur sets the stage for a future filled with potential breakthroughs in solar energy technology. His focus on the stability of perovskite solar cells is likely to lead to further innovations and improvements in the field. As he continues to explore new materials and techniques, Yugesh is poised to make lasting contributions to the advancement of renewable energy technologies. His dedication to his research and his passion for sustainability ensure that his work will continue to influence and inspire future generations of scientists and engineers.

NOTABLE PUBLICATIONS

Dr. Ananda Kumar Chettupalli – Nanotechnology – Best Researcher Award

Dr. Ananda Kumar Chettupalli - Nanotechnology - Best Researcher Award

Galogotias University - India

Professional Profile

ORCID

GOOGLE SCHOLAR

Early Academic Pursuits

Dr. Ananda Kumar Chettupalli embarked on his academic journey with a strong focus on pharmaceutical sciences, culminating in a Ph.D. under the guidance of Dr. Kunduri Rajeswar Dutt. His early academic pursuits laid the foundation for his extensive career in academics and research, emphasizing advanced nanotechnology formulations, statistical modeling for drug design, and core pharmacokinetic studies.

Professional Endeavors

Dr. Chettupalli has accumulated over 12.6 years of professional experience in academia and research: During his tenure, he has made significant contributions to the field, publishing 35 articles in reputed national and international journals. He has also secured several patents, including grants from Australia and Germany, demonstrating his innovative research contributions in novel drug delivery systems and pharmaceutical technology.

Contributions and Research Focus

Dr. Chettupalli's research interests are centered on developing novel and targeted drug delivery systems: He specializes in Ethosomes, Liposomes, Niosomes, Phytosomes, Spanlastics, Microspheres, Solid lipid nanocarriers, Nanostructured lipid carriers, and Polyherbal drug Nanotechnology formulations.His expertise extends to conducting Phytochemical studies, in-silico evaluations, and both in-vitro and in-vivo assays, enhancing the efficacy and safety profiles of pharmaceutical formulations.

Accolades and Recognition

His contributions have earned him recognition, including invitations as a resource person to international conferences like the ICNPU in Bulgaria Nanotechnology (2019). His patent grants and publications underscore his impact on advancing pharmaceutical sciences through innovative research.

Impact and Influence

Dr. Chettupalli's influence spans academia and industry, evident from his collaborations with governmental agencies for project funding and industry interactions. His research outputs and mentorship have contributed to the development of cutting-edge pharmaceutical technologies Nanotechnology and methodologies.

Legacy and Future Contributions

Dr. Chettupalli's commitment to learning and growth, coupled with his positive attitude and perseverance, positions him to make significant future contributions. His ongoing research in novel drug delivery systems and continued mentorship of doctoral and master's students will likely leave a lasting impact on the pharmaceutical sciences community, fostering innovation and academic excellence.

NOTABLE PUBLICATIONS

Central composite design for the development of carvedilol-loaded transdermal ethosomal hydrogelĀ  2021(51)

Nano phytomedicine based delivery system for CNS disease 2020(38)

Nanocrystals: Characterization overview, applications in drug delivery, and their toxicity concernsĀ  2020(36)

Design, formulation, in-vitro and ex-vivo evaluation of atazanavir loaded cubosomal gel 2021(31)

Pharmaceutical drug product development and process optimization: effective use of quality by design 2020(28)