Senior Research Engineer, Institute for Advanced Engineering/Bio Resource Recirculation Center, South Korea
Dr. Jung Eun Park is a distinguished Senior Research Engineer at the Bio Resource Recirculation Center, Institute for Advanced Engineering, South Korea. With a robust background in chemical engineering and sustainable material development, she has been pivotal in pioneering green technologies for resource recycling and catalytic processes. Her dynamic research spans biomass valorization, hydrogen energy, lithium-air batteries, and environmental catalyst innovations. π±π¬π°π·
Professional Profile
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π Education
Dr. Park earned her Ph.D. in Energy System Research and Chemical Engineering from Ajou University (2010β2014), focusing on size-controlled catalysts for oxidation reactions. She completed her M.S. in Industrial Chemistry at Chungnam National University (2005β2007), researching hydrogen iodide decomposition on platinum. Her academic journey began with a B.S. in Chemical Engineering from Kyung-il University (2001β2005), laying a strong foundation for her future contributions. πππ
πΌ Experience
Dr. Parkβs research career spans premier institutions. Since 2017, she has served as a Senior Research Engineer at the Institute for Advanced Engineering, leading key projects on organic waste recycling, odor control, and catalytic system development. She has also contributed as a Postdoctoral Researcher at Korea University (2014β2015) and as a Research Assistant at Ajou University, KRICT, and KIER. Her experience covers diverse domains like electrochemical systems, biochar valorization, and methane reforming. π§ͺπ’βοΈ
π¬ Research Interests
Dr. Park’s research interests cover sustainable technologies including biomass-based high surface area activated carbon, silica synthesis from rice husk, hydrogen fuel technologies, CO oxidation catalysts, lithium-air batteries, and catalytic membrane separation. She has developed processes to convert biochar into silicon carbide and alternative battery anodes, advancing green chemistry and energy solutions. Her commitment to low-carbon, zero-waste systems underlines her innovative spirit. πβ»οΈβοΈ
π Awards
Dr. Park has been honored with several accolades including the Best Paper Award (Korea Society of Energy Engineering, 2014), Best Presentation Awards (2012 & 2014), and the prestigious BK-21 Graduate Fellowship from the Ministry of Education (2010β2014). During her undergraduate studies, she consistently received GPA scholarships at KIU. Her achievements reflect both academic excellence and impactful scientific contributions. π
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π Top Noted Publications
π Efficient Removal of Acetaldehyde Using KOHβActivated Adsorbents Derived from Pyrolysis Char of Waste Cigarette Filters β Korean Journal of Chemical Engineering, 2025.
Cited by environmental waste processing studies.
π Optimization of Spent Coffee-Based Activated Carbon Production β Energies, 2024.
Referenced in sustainability and upcycling research.
π Porosity and Crystallinity Effects on Electrochemical Capacitors β Materials Research Express, 2024.
Cited by battery materials research.
π Adsorption of THC Gases on Activated Carbon β Materials, 2024.
Cited by low-boiling-point gas treatment studies.
π Odor Removal from Medical Waste Using Plasma System β Journal of Energy & Climate Change, 2023.
Widely cited in waste odor control technologies.
Conclusion
Dr. Jung Eun Park is highly suitable for the Best Researcher Award. Her career demonstrates dedicated innovation in sustainable technologies, environmental engineering, and applied chemical research with tangible societal benefits. Minor expansions in global collaboration and science communication would further elevate her already remarkable profile.