DONG-WOOK KWON – Environmental Engineering – Best Researcher Award

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DONG-WOOK KWON - Environmental Engineering - Best Researcher Award

Korea Institute of Science and Technology - South Korea

AUTHOR PROFILE

GOOGLE SCHOLAR

RESEARCH EXPERIENCE

DONG-WOOK KWON has extensive research experience in heterogeneous catalysis for environment and energy. His work focuses on reducing nitrogen oxide (NOx) emissions from combustion exhaust gases through catalytic technology, including selective catalytic reduction (SCR) of NOx by NH3, particularly for diesel engine emission control. Additionally, he has been involved in discovering catalytic materials and improving chemical processes to mitigate atmospheric pollutants from stationary and mobile sources, such as catalytic degradation of NH3, CO, and odorants, and catalytic decomposition of N2O. His research also encompasses the catalytic oxidation of indoor air pollutants to enhance indoor air quality, targeting ambient HCHO & CO oxidation, catalytic oxidation of volatile organic compounds (VOCs), and catalytic decomposition of ozone.

EDUCATION

DONG-WOOK KWON earned his Ph.D. in Environmental Energy Engineering from Kyonggi University, South Korea, in February 2016. His doctoral thesis focused on the roles of promoters and the SCR performance in metal-promoted vanadium-based deNOx catalysts. He also holds a Master's degree (2012) and a Bachelor's degree (2010) in Environmental Energy Engineering from the same institution.

PROFESSIONAL EXPERIENCE

Since March 2020, DONG-WOOK KWON has been a Senior Researcher at the Extreme Materials Research Center, Korea Institute of Science and Technology (KIST). He previously worked as a Researcher at KIST from September 2018 to February 2020 and as a Post-Doc at the Materials Architecturing Research Center, KIST, from July 2017 to August 2018.

REGISTERED PATENTS

DONG-WOOK KWON has several registered patents, including:

  1. NOx reduction catalysts enabling their regeneration at low temperatures (Republic of Korea, Japan, USA, China).
  2. Rare-earth metal vanadates catalysts for nitrogen oxide reduction at low temperatures (Republic of Korea, Japan, USA, China).
  3. Heterogeneous catalysts and preparing methods of the same (Republic of Korea).
  4. Platinum-based catalyst for removing hydrogen at room temperature (Republic of Korea).
  5. Preparing method of platinum/vanadium/titania catalyst for removing ammonia (Republic of Korea).
  6. Vanadium-based denitration catalyst and preparing method of the same (Republic of Korea).

RESEARCH THEMES

His research themes include the catalytic reduction of NOx emissions, discovery and improvement of catalytic materials for atmospheric pollutant mitigation, and the catalytic oxidation of indoor air pollutants. His work significantly contributes to the fields of environmental and energy engineering through advanced catalysis technology.

PATENT CONTRIBUTIONS

DONG-WOOK KWON's patent contributions demonstrate his innovative approaches in developing effective catalysts for environmental applications, showcasing his expertise in creating solutions for low-temperature NOx reduction, ammonia removal, and hydrogen elimination at room temperature.

RESEARCH IMPACT

The impact of DONG-WOOK KWON's research is evident in the advancements in catalytic technologies for emission control and air quality improvement. His contributions provide significant insights and practical solutions for addressing environmental challenges through cutting-edge catalytic processes.

NOTABLE PUBLICATION

Er composition (X)-mediated catalytic properties of Ce1-XErXVO4 surfaces for selective catalytic NOX reduction with NH3 at elevated temperatures 2021 (27)

Unveiling the traits of rare earth metal (RM)-substituted bimetallic Ce0. 5RM0. 5V1O4 phases to activate selective NH3 oxidation and NOX reduction 2020 (28)

A dual catalytic strategy by the nature of the functionalization effect as well as active species on vanadium-based catalyst for enhanced low temperature SCR 2021 (56)

The role of molybdenum on the enhanced performance and SO2 resistance of V/Mo-Ti catalysts for NH3-SCR 2019 (74)

Exploration of surface properties of Sb-promoted copper vanadate catalysts for selective catalytic reduction of NOX by NH3 2018 (62)

Ahmad Shaabani – CO2 fixation – Best Researcher Award

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Ahmad Shaabani - CO2 fixation - Best Researcher Award

Shahid Beheshti University - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

Based on the detailed CV provided for Ahmad Shaabani, it is evident that he is an exceptional candidate for the Research for Community Impact Award. His distinguished career, extensive research contributions, and numerous accolades demonstrate his significant impact on the scientific community and beyond.

EDUCATION

Ahmad Shaabani received his Ph.D. in 1994 from Tarbiat Modarres University, Tehran, Iran. His academic journey has been marked by excellence and innovation, culminating in his current position as a full professor at Shahid Beheshti University.

ACADEMIC EXPERIENCE

Dr. Shaabani has held various academic positions at Shahid Beheshti University. He started as an Assistant Professor from 1994 to 1998, progressed to Associate Professor from 1998 to 2002, and has been a Professor of Organic Chemistry since 2003. His contributions have significantly advanced the field of organic chemistry.

HONORS AND AWARDS

Dr. Shaabani's work has earned him numerous prestigious awards. He was named Distinguished Professor of Shahid Beheshti University multiple times (2002, 2006, and 2007) and received the same title from the Ministry of Science, Research and Technology of Iran in 2003. He won the Prize of the International Kharazmi Festival in Basic Science in 2009 and was recognized as the Iranian Chemical Society’s Distinguished Chemist in 2010. Notably, he is among the Highly Cited Scientists and Engineers of ISI Member States.

MEMBERSHIPS

Dr. Shaabani is a fellow of The World Academy of Sciences (TWAS) for the advancement of science in developing countries since January 2021 and a member of the Academy of Sciences, I.R. Iran. He actively participates in the Iranian Chemical Society and serves on the editorial boards of several prestigious journals, including ACS Combinatorial Science, the Journal of the Iranian Chemical Society, and the Journal of Current Green Chemistry.

RESEARCH INTERESTS

Dr. Shaabani's research interests are diverse and impactful. He focuses on the discovery and design of novel isocyanide-based multicomponent reactions (I-MCRs) for the synthesis of biologically important heterocyclic compounds. His work on functionalizing and modifying nano-materials and natural polymers via I-MCRs has applications in drug delivery and biomedical materials. Additionally, he explores the synthesis of methalophtalocyanines and the development of new synthetic methods through the use of heterogeneous catalysts in chemical transformations.

PROFESSIONAL SERVICE

Dr. Shaabani has been a visiting researcher at the University of Regina, Canada, and the University of California, Santa Cruz, USA, where he worked under the guidance of renowned professors. He has participated in several international training programs and workshops, enhancing his expertise and expanding his collaborative network.

PUBLICATIONS AND PRESENTATIONS

Dr. Shaabani has authored over 350 publications, including several review articles and book chapters. He has presented more than 100 papers at conferences, showcasing his research to the global scientific community. His notable publications include "Recent progress of isocyanide-based multicomponent reactions in Iran," "Carboxymethyl cellulose-based oral delivery systems," and "Nickel nanoparticles immobilized on three-dimensional nitrogen-doped graphene as a superb catalyst for the generation of hydrogen from the hydrolysis of ammonia borane."

IMPACT AND COMMUNITY ENGAGEMENT

Dr. Shaabani's research has a profound impact on the community, particularly in the fields of sustainable chemistry and biomedical applications. His innovative work on functional materials and green chemistry solutions addresses critical environmental and health challenges, demonstrating his commitment to improving community well-being through scientific advancements.

CONCLUSION

Dr. Ahmad Shaabani's distinguished career, groundbreaking research, and significant contributions to science and community well-being make him an outstanding candidate for the Research for Community Impact Award. His dedication to advancing knowledge and his impact on the scientific community are truly commendable.

NOTABLE PUBLICATION

Graphene oxide-iron phthalocyanine catalyzed aerobic oxidation of alcohols 2014 (114)

Nickel nanoparticles immobilized on three-dimensional nitrogen-doped graphene as a superb catalyst for the generation of hydrogen from the hydrolysis of ammonia borane 2014 (138)

Carboxymethyl cellulose-based oral delivery systems 2019 (201)

Recent progress of isocyanide-based multicomponent reactions in Iran 2011 (239)