RESEARCH ACHIEVEMENTS

RESEARCH ACHIEVEMENTS OF THE STARLAB

RESEARCH ARTICLES / PATENTS / BOOKS

These are the research achievements of STARLAB.

For detailed accomplishments and to download papers authored by the professor, please refer to Google Scholar.

국제저명학술지

INTERNATIONAL PAPER PUBLICATIONS

Clicking on the paper title below for detailed page of the paper.

29. Kim, S., Ju, J., Jo, J., Choi, D., Yoo, Y., Kang, D., 2025. Advancing CO2 absorbents through structural innovation: Implementation of the aromatic multi-ring based nucleophilic structure. Chemical Engineering Journal, 512, p.162328

*Seonho Kim, Jihun Ju, and Jaehan Jo as co-first author*

28. Kwon, S., Park, M., Jo, J., Yoo, Y., Kang, D., 2025. Innovative CO2 capture via deep eutectic solvents: Molecular design, mechanistic insights, and enhanced sorption in functionalized porous materials. Chemical Engineering Journal, 503, p.158172

*Seokho Kwon and Minseok Park as co-first author*

27. Ju, J., Choi, D., Cho, S., Yoo, Y., Kang, D., 2024. Absorption characteristics and rheological properties of quaternized polyamine-based deep eutectic solvents for high performance CO2 capture. Chemical Engineering Journal, 496, p. 153922

*Jihun Ju and Dongyun Choi as co-first author*

26. Park, M., Kwon, S., Park, J., Jo, J., Yoo, Y., Kang, D., 2023. Tailoring the Characteristics of Deep Eutectic Solvents Comprising Quaternized Linear Polyamine Based on the Order of Amines for CO2 Capture. Chemical Engineering Journal, 468, p. 143552

*Minseok Park and Seokho Kwon as co-first author*

25. Jo, J., Park, J., Kwon, S., Park, M., Jung, J., Yoo, Y., Kang, D., 2023. Revolutionizing CO2 Capture: Molecular Complexes of Deep Eutectic Solvents with Enhanced Hydrogen Bond Accpeting Interaction for Superior Absorption Performance. Journal of Environmental Chemical Engineering, 11, p.110108, *Jaehan Jo and Jihyeon Park as co-first author*

24. Yoo, Y., Kang, D., 2023. Inorganic CO2 Conversion through Reaction with Concentrated Reject Brine: Polymorphic Characteristics of Intermediate Carbonate Salts. Process Safety and Environmental Protection, 175, p.70-77

23. Yoo, Y., Kim, I., Lee, D., Choi, WY., Choi, J., Jang, K., Park, J., Kang, D., 2022. Review of Contemporary Research on Inorganic CO2 Utilization via CO2 Conversion into Metal Carbonate-Based Materials. Journal of Industrial and Engineering Chemistry, 116, p.60-74

22. Cho, S., Lim, J., Cho, H., Yoo, Y., Kang, D., Kim, J., 2022. Novel process design of desalination wastewater recovery for CO2 and SOx utilization. Chemical Engineering Journal, 433, p.133602

21. Cho, S., Kang, D., Kwon, J. S.-I., Kim, M., Cho, H., Moon, I., Kim, J., 2021. A Framework for Economically Optimal Operation of Explosive Waste Incineration Process to Reduce NOx Emission Concentration. Mathematics, 9 (2174), p.1-11.

20. Choi, W., Yoo, Y.,Park, J., Kang, D., 2021. Performance prediction and evaluation of CO2 utilization with conjoined electrolysis and carbonation using desalinated rejected seawater brine. Desalination, 509, p.115068

19. Yoo, Y., Kang, D., Park, J., 2021. Advanced Pseudopolymorph Control of Magnesium Carbonates using Structural Properties of Amines for CO2 Utilization based on Post-treatment of Desalinated Brine. Desalination, 505, p.114904

18. Kang, D., Yoo, Y. and Park, J., 2021. Stabilization of heavy metals in municipal solid waste incineration fly ash via CO2 uptake procedure by using various weak acids. Journal of Industrial and Engineering Chemistry. 94, p.472-481.

17. Yoo, Y., Kang, D., Park, S. and Park, J., 2020. Carbon utilization based on post-treatment of desalinated reject brine and effect of structural properties of amines for CaCO3 polymorphs control. Desalination, 479, p.114325.

16. Kim, I., Yoo, Y., Son, J., Park, J., Huh, I.S. and Kang, D., 2020. Two-step mineral carbonation using seawater-based industrial wastewater: an eco-friendly carbon capture, utilization, and storage process. Journal of Material Cycles and Waste Management, 22(2), p.333-347.

15. Kang, D., Son, J., Yoo, Y., Park, S., Huh, I.S. and Park, J., 2020. Heavy-metal reduction and solidification in municipal solid waste incineration (MSWI) fly ash using water, NaOH, KOH, and NH4OH in combination with CO2 uptake procedure. Chemical Engineering Journal, 380, p.122534.

14. Kang, D., Yoo, Y. and Park, J., 2020. Accelerated chemical conversion of metal cations dissolved in seawater-based reject brine solution for desalination and CO2 utilization. Desalination, 473, p.114147.

13. Yoo, Y., Kang, D., Choi, E., Park J., Huh I. -S., 2019. Morphology control of magnesium carbonate for CO2 utilization using Mg2+ ions in industrial wastewater depending on length of alkyl chain of primary alkanolamine, reaction temperature, CO2 concentration, and Mg2+/Na+ ratio. Chemical Engineering Journal, 370, p.237-250.

12. Yoo, Y., Kang, D., Kim, I., Park, J., 2018. Characteristics of Metal Cation Carbonation and Carbon Dioxide Utilization Using Seawater‐Based Industrial Wastewater. ChemistrySelect, 3 (32), p.9284-9292.

11. Kang, D., Yoo, Y., Park, J., Lee, M.-G., 2018. Chemical conversion of carbon dioxide via target metal separation using seawater‐derived wastewater. ChemistrySelect, 3 (30), p.8628-8636.

10. Yoo, Y., Kang, D., Kim, I., Park, J., 2018. Investigation of thermodynamic properties on CO2 absorbents blended with ammonia, amino acids, and corrosion inhibitors at 313.15, 333.15, and 353.15 K. Journal of Chemical & Engineering Data, 63 (8), p.2856-2867.

09. Kang, D., Lee, M.-G., Yoo, Y., Park, J., 2018. Absorption characteristics of potassium carbonate-based solutions with rate promoters and corrosion inhibitors. Journal of Material Cycles and Waste Management, 20 (3), p.1562-1573.

08. Kang, D., Lee, M.-G., Jo, H., Yoo, Y., Lee, S.-Y., Park, J., 2017. Carbon capture and utilization using industrial wastewater under ambient conditions. Chemical Engineering Journal, 308, p.1073-1080.

07. Lee, M.-G., Kang, D., Yoo, Y., Jo, H., Song, H.-J., Park, J., 2016. Continuous and Simultaneous CO2 Absorption, Calcium Extraction, and Production of Calcium Carbonate Using Ammonium Nitrate. Industrial & Engineering Chemistry Research, 55 (45), p.11795-11800.

06. Lee, M.-G., Kang, D., Jo, H., Park, J., 2016. Carbon dioxide utilization with carbonation using industrial waste-desulfurization gypsum and waste concrete. Journal of Material Cycles and Waste Management, 18 (3), p.407-412.

05. Kang, D., Jo, H., Lee, M.-G., Park, J., 2016. Carbon dioxide utilization using a pretreated brine solution at normal temperature and pressure. Chemical Engineering Journal, 284, p.1270-1278.

04. Park, S., Jo, H., Kang, D., Park, J., 2014. A study of CO2 precipitation method considering an ionic CO2 and Ca(OH)2 slurry. Energy, 75, p.624-629.

03. Kang, D., Park, S., Jo, H., Park, J., 2014. Carbon fixation using calcium oxide by an aqueous approach at moderate conditions. Chemical Engineering Journal, 248, p.200-207.

02. Lee, M.-G., Park, S., Jo, H., Kang, D., Song, H.-J., Park, J., 2014. Effect of organic inhibitors in aqueous potassium carbonate on the corrosion of carbon steel. Journal of Chemical Engineering of Japan, 47 (6), p.457-462.

01. Kang, D., Park, S., Jo, H., Min, J., Park, J., 2013. Solubility of CO2 in Amino-Acid-Based Solutions of (Potassium Sarcosinate), (Potassium Alaninate + Piperazine), and (Potassium Serinate + Piperazine). Journal of Chemical & Engineering Data, 58 (6), p.1787-1791. *First author as an undergraduate student*

국내저명학술지

DOMESTIC PAPER PUBLICATIONS

03. Choi, E., Kang, D., Yoo, Y., Park, J., Huh, I.-S., 2019. Characteristic of Precipitated Metal Carbonate for Carbon Dioxide Conversion Using Various Concentrations of Simulated Seawater Solution. Korean Chemical Engineering Research, 57 (4), p. 539-546.

02. Kim, I., Kang, D., Yoo, Y., Kim, B.-H., Park, J., 2018. A Study on Tendency of Metal Carbonate Formation and Crystal Structures using Seawater-based Concentrated Wastewater. Journal of Korea Society of Waste Management, 35 (1), p.31-41.

01. Yoo, Y., Jo, H., Kang, D., Lee, M.-G., Lee, S.-Y., Hong, B., Choi, C., Park, J., 2016. A Study of CO2 Capture and Utilization using Amino Acid Salt Absorbent. Journal of Korea Society of Waste Management, 33 (1), p.92-100.

특허 출원 및 등록

PATENTS APPLICATIONS AND REGISTRATIONS

01. [국내특허출원] 방향족 친핵성 구조를 활용한 이산화탄소 흡수제의 구조 고도화 및 제조 방법,

10-2025-0022196, 2025.02.20.

02. [국내특허출원] 아미노산 기반 공융 용매를 이용한 이산화탄소 포집 소재 제조법,

10-2025-0022195, 2025.02.20.

03. [국내특허출원] 흡수능이 우수한 이산화탄소 흡수용 공융용매 및 이를 포함하는 이산화탄소 흡착제,

10-2024-0198224, 2024.12.27.

04. [국내특허출원] 흡수능이 향상된 이산화탄소 흡수용 공융용매 및 이를 포함하는 이산화탄소 흡착제,

10-2024-0140276, 2024.10.15.

05. [국내특허출원] 흡수능이 향상된 이산화탄소 흡수용 공융용매, 그 제조방법 및 이를 포함하는 흡착제,

10-2024-0002211, 2024.01.05.

06. [국내특허출원] 공융용매를 활용한 이산화탄소 흡수용 조성물 및 이의 제조방법, 10-2023-0023059, 2023.02.21.

07. [국내특허출원] 전기분해 및 금속 이온 분리를 이용한 금속탄산염의 제조방법, 10-2021-0119572, 2021.09.08.

08. [국내특허출원] 아민계 흡수제를 이용한 탄산마그네슘의 제조방법, 10-2021-0119571, 2021.09.08.

09. [국내특허등록] 탄산마그네슘의 성상 제어방법 및 탄산마그네슘의 제조방법, 10-2249885, 2021.05.03.

10. [국내특허등록] 산업폐수를 이용한 금속 탄산염의 분별 생산방법, 10-21993897, 2020.12.30.

11. [국내특허출원] 아민계 흡수제의 구조적 특성을 활용한 탄산칼슘 성상제어 및 해수담수화 폐수 활용 CO2 재이용 기술,

10-2020-0149267, 2020.11.10.

12. [국내특허출원] 알칼리성 추출 및 포집 용액을 이용한 생활 폐기물 소각 비산재 무해화 방법, 10-2019-0172795, 2019.12.23.

13. [국내특허등록] 해수기반 산업폐수 중 칼슘이온의 선택적 회수를 통한 탄산염 생성 및 고순도화, 10-2032949, 2019.10.10.

14. [국내특허등록] pH 조절을 통한 해수유래 산업폐수 내 금속이온 분리 및 고순도 탄산염의 제조방법, 10-2032948, 2019.10.10.

15. [국내특허출원] 질산암모늄을 이용한 이산화탄소 흡수, 칼슘 이온 추출 및 침강성 탄산칼슘 생성이 동시에 가능한 연속공정,

10-2016-0036732, 2016.06.28.

16. [국내특허등록] 무기 탄산화 반응에서 폐기물을 이용한 이산화탄소 고정 및 흡수제 재이용 방법, 10-1568616, 2015.11.05.

17. [국내특허출원] 무기 탄산화 반응기, 10-2013-0156366, 2013.12.16.

저서

BOOK and CHAPTER PUBLICATIONS

1. [저서] 이산화탄소 및 대기오염물질 제거기술 최신동향 (2020.05.)

2. [저서] 기후변화 대응 기술개발 최신동향 (2019.07.)

3. [저서] 해수기반 무기자원화 기술의 소개 (2019.01.)

4. [저서] 이산화탄소 포집 및 자원화기술: 습식흡수법 및 무기탄산화 (2017.06.)

5. [저서] 이산화탄소 저감특론(1) (2016.06.)

Last Update: 2025-04-15