Google Scholar:


122. Van-Dung Mai, Gihyun Kwon, Yewon Jang, Jiho Min, Jee-hoon Han* , Sung-Kon Kim* , High-performance and economic biodegradable composites based on polybutylene adipate terephthalate and modified lignin, Polymer Testing, 2024, 133, 108412, IF = 5.1, Top 1.6%

121. Byeongmin Ha, Seolji Nam, Jaewon Byun, Jeehoon Han, Soonho Hwangbo*, Stochastic techno-economic assessment of future renewable energy networks based on integrated deep-learning framework: A case study of South Korea, Chemical Engineering Journal, 2024. 485, 150050 IF = 15.1, Top 3.2%

120. Van-Dung Mai, Dongseong Kang, Yeji Kim, Yewon Jang, Jiho Min, Jee-hoon Han*, Sung-Kon Kim*, Preparation and environmental analysis of biodegradable polylactic acid and modified cellulose nanofiber composites, Journal of Industrial and Engineering Chemistry, 2024, 130, 401-411. IF = 6.1, Top 16.1%


119. Aqsa Fatima, Muhammad Asif Hanif, Umer Rashid*, Muhammad Idrees Jilani, Fahad A.Alharthi, Jeehoon Han, Adsorption, Modeling, Thermodynamic, and Kinetic Studies of Acteray Golden Removal from Polluted Water Using Sindh Clay and Quartz as Low-Cost Adsorbents, Separations, 2023, 10, 538. IF = 2.6, Top 56.4%

118. Tayaba Saeed, Muhammad Asif Hanif, Umer Rashid*, Hafeez Anwar, Ijaz Ahmad Bhatti, Fahad A. Alharthi, Jiyun Yoo, Jeehoon Han, Utilisation of Sunflower Marble Waste Nanocomposites for Efficient Removal of Dyes from Wastewater: Synthesis, Adsorption Performance, and Characterisation, Water, Air, & Soil Pollution, 2023, 234, 678. IF = 2.9, Top 42.2%

117. Myungho Choi, Jaewon Byun, Dongseong Kang, Kwanyong Jeong, Juseong Lee, Soo Min Kim*, Jee-hoon Han*, Environmental analysis of nylon 6,6 production from gamma-valerolactone derived from kenaf, Industrial Crops and Products, 2023, 204, 117365. IF = 5.9, Top 7.4%

116. Yewon Jang, Minseo Kim, Yeji Kim, Jaeyoung Yu, Sung-Kon Kim, Jeehoon Han, Yang-Hoon Kim, and Jiho Min*, Enhancing Biodegradation of PBAT through Bio-Stimulation using Pseudozyma jejuensis for Effective Plastic Waste Reduction, Chemosphere, 2023, 340, 139867 IF = 8.8, Top 10.8%

115. Seonho Lee, Jiwon Kim, Jaewon Byun, Junghee Joo, Yoonjae Lee, Taehyun Kim, Soonho Hwangbo, Jeehoon Han*, Sung-Kon Kim*, Jechan Lee*, Environmentally-viable Utilization of Chicken Litter as Energy Recovery and Electrode Production: A Machine Learning Approach, Applied Energy, 2023, 350, 121782, IF = 11.2, Top 6.1%

114. Jaeyoung Yu, Yewon Jang, Wooil Choi, Sung-Kon Kim, Jeehoon Han, Jiho Min *, Transcriptomic analysis of Brevibacillus brevis according to polylactic acid (PLA) biodegradation, International Biodeterioration & Biodegradation2023, 183, 105645, IF = 4.8, Top 24.7%

113. Oseok Kwon, Myungsuk Son, Juyeon Kim and Jeehoon Han*, Organic waste derived bioethanol supply chain network: Multiobjective snapshot model with a real-Korea case study, Journal of Environmental Management, 2023, 342, 118279. IF = 8.7, Top 11.1%

112. Dongseong Kang, Jeehoon Han*, Environmental Impact Analysis of Steelmaking Off-Gases on Methanol Production, Energy2023, 277, 127603, IF = 9.0, Top 4.0%

111. Rajendiran Naveenkumar, Jayaraj Iyyappan, Ravichandran Pravin, Seifedine Kadry, Jeehoon Han, Raveendran Sindhu, Mukesh Kumar Awasthi, Samuel Lalthazuala Rokhum, Gurunathan Baskar, A strategic review on sustainable approaches in municipal solid waste management and energy recovery: Role of artificial intelligence, economic stability and life cycle assessment, Bioresource Technology2023, 379, 129044, IF = 11.4, Top 11.7%

110. Jaewon Byun, Jeehoon Han*, Economic feasible hydrogen production system from carbohydrate-rich food waste, Applied Energy, 2023, 340, 121044, IF = 11.2, Top 6.1%

109. Pa Do Kim, Hoyoung Park, Naveenkumar Rajendran, Jaeyoung Yu, Jiho Min, Sung-Kon Kim, Jeehoon Han*, Economic and Environmentally Viable Preparation of a Biodegradable Polymer Composite from Lignocellulose, Journal of Industrial and Engineering Chemistry. 2023, 122, 221-230 , IF = 6.1, Top 16.1%

108. Jeehoon Han*, Myungsuk Son, Dongseong Kang, Process design and environmental analysis for catalytic production of gamma-valerolactone from Kenaf, Journal of Industrial and Engineering Chemistry. 2023, 120, 254-260 , IF = 6.1, Top 16.1%

107. Naveenkumar Rajendran , Jeehoon Han*, Techno-economic analysis and life cycle assessment of poly (butylene succinate) production using food waste, Waste Management2023, 156, 168-176 , IF = 8.1, Top 12.6%


106. Jaewon Byun, Jeehoon Han*, Green methane as a future fuel for light-duty vehicles. FERMENTATION . 2022, 8(12), 680, IF = 3.7, Top 41.3%

105. Marcel Jonathan Hidajat, Oseok Kwon, Hoyoung Park, Jeehoon Han*, Gwang-Nam Yun*, Dong Won Hwang*, Highly Selective, Energy-Free, and Environmentally Friendly One-Pot Production of 1-Octene from Biomass-Derived Octanoic Acid in a Dual-Bed Catalyst System, Green Chemistry, 2022, 24 (19), 7556-7573, IF=9.8, Top  13.2%

104. Jiwon Kim, Chanyeong Park, Hoyoung Park, Jeehoon Han*, Sung-Kon Kim*, Jechan Lee*, Upcycling of Cattle Manure for Simultaneous Energy Recovery and Supercapacitor Electrode Production, Energy2022, 241, 124877, IF = 9.0, Top 4.0%

103. Naveenkumar Rajendran, Ashok Pandey, Edgard Gnansounou, Baskar Gurunathan, Jeehoon Han, Techno-economic analysis of biodiesel production from nonedible biooil using catalytic transesterification, Biofuels and Bioenergy2022, 601-626

102. Jaeyoung Yu, Pa Do Kim, Yewon Jang,  Sung-Kon Kim, Jeehoon Han, Jiho Min *, Comparison of polylactic acid biodegradation ability of Brevibacillus brevis and Bacillus amyloliquefaciens and Promotion of PLA biodegradation by soytone, Biodegradation2022, accepted, IF = 3.6, Top 43.3%

101. Naveenkumar Rajendran, Dongseong Kang, Jeehoon Han* , Baskar Gurunathan*, Process optimization, economic and environmental analysis of biodiesel production from food waste using a citrus fruit peel biochar catalyst, Journal of cleaner production2022, 365, 132712, IF = 11.1, Top 7.8%

100. Myungho Choi, Jaewon Byun, Hoyoung Park, Kwanyoung Jeong, Soo Min Kim*, Jeehoon Han*, Economically-Feasible “Greener” Transformation of Gamma-Valerolactone to Nylon 6,6, Biomass and Bioenergy, 2022. 162, 106503, IF = 6.0, Top 10.7%

99. Dongseong Kang, Jeehoon Han*, Environmental analysis of methanol production from steel-making off-gas, Environmental Technology & Innovation2022, 102694IF = 7.1, Top 10.6%

98. Dongseong Kang, Myungho Choi, Dongin Kim, Jeehoon Han*, Environmental analysis of catalytic adipic acid production strategies from two different lignocellulosic biomasses, ACS Sustainable Chemistry & Engineering, 2022, accepted, IF = 8.4, Top 8.9%, Supplementary cover

97. Juyeon Kim, Hoyoung Park, Jeehoon Han*, Jechan Lee*, A Strategy for Food Waste-to-Biofuels: Co-production of Gasoline Alternatives from Volatile Fatty Acids, Journal of cleaner production, 2022, 348, 131408, IF = 11.1, Top 7.8% 

96. Jaewon Byun, Oseok Kwon, Juyeon Kim, Jeehoon Han, Carbon-negative Food waste-derived Bioethanol: a Hybrid Model of Life Cycle Assessment and Optimization, ACS Sustainable Chemistry & Engineering, 2022, 10, 14, 4512-4521, IF = 8.4, Top 8.9% , Supplementary cover

95. Kalavathy Gengiah, Baskar Gurunathan*, Naveenkumar Rajendran, Jeehoon Han, Process evaluation and techno-economic analysis of biodiesel production from marine macroalgae Codium tomentosum, Bioresource Technology2022, 351, 126969, IF = 11.4, Top 3.6%

94. Jeehoon Han* , Jaewon Byun, Oseok Kwon and  Jechan Lee* , Climate Variability and Food Waste Treatment: Analysis for Bioenergy Sustainability, Renewable and Sustainable Energy Reviews2022, 160, 112336, IF = 15.9, Top 3.3%

93. Gurunathan Baskar*, Anita Nalathamalar, Jeehoon Han, Naveenkumar Rajendiran, Ionic liquid co-catalyst assisted biodiesel production from waste cooking oil using heterogeneous nanocatalyst: optimization and characterization, Frontiers in Nanotechnology2022, 14,

92. Naveenkumar Rajendran , Jeehoon Han*, Techno-economic analysis of food waste valorization for integrated production of polyhydroxyalkanoates and biofuels, Bioresource Technology2022, 126796, IF = 11.4, Top 3.6%, Outside front cover  

91. Soosan Kim, Jaewon Byun, Hoyoung Park, Nahyeon Lee, Jeehoon Han*, Jechan Lee*, Energy-Efficient Thermal Waste Treatment Process with No CO2 Emission: A Case Study of Waste Tea Bag, Energy, 2022, 241, 122876, IF = 9.0, Top 4.0% 

90. Naveenkumar Rajendran, Jeehoon Han*, Integrated Bioplastic (PLA) and Biodiesel Production from Food Waste: Process Synthesis and Economics, Bioresource Technology, 2021, 343, 126119, IF = 11.4, Top 3.6%

89. Dongseong Kang and Jeehoon Han*Environmental analysis of methanol production from coke oven gasInternational Journal of Environmental Science and Technology, 2021, IF = 3.1, Top 54.9%

88. Oseok Kwon, Juyeon Kim and Jeehoon Han*Organic waste derived biodiesel supply chain network: Deterministic multi-period planning model, Applied Energy, 2022, 305, 117847, IF = 11.2, Top 6.1%

87. Juyeon Kim, Jaewon Byun and Jeehoon Han*, Process integration and economics of gamma-valerolactone using a cellulose-derived ethyl levulinate intermediate and ethanol solvent , Energy, 2022, 239, 121964, IF = 9.0, Top 4.0%


86. Dongseong Kang, Jaewon Byun, Jeehoon Han*, Evaluating the Environmental Impacts of Formic Acid Production from CO2: Catalytic Hydrogenation vs. Electrocatalytic Reduction, Green Chemistry, 2021. 23, 9470 - 9478, IF=11.034, Top  11.70%, Outside front cover  

85. Heeyoung Choi, Jeehoon Han*, Jechan Lee *, Renewable Butanol Production via Catalytic Routes: A Review, International Journal of Environmental Research and Public Health, 2021, 18(22), IF = 4.614, Top 24.45%

84. Jaewon Byun, Jeehoon Han*. Impact of Uncertainty in Technological Cycle on Circular Economy:  Bio-based Jet Fuel Range Alkenes and Pentanediols Production. Journal of Industrial and Engineering Chemistry. 2021, 104, 356-361, IF = 6.760, Top 16.43%

83. Dongseong Kang, Jaewon Byun, Jeehoon Han*Electrochemical Production of Formic Acid from Carbon Dioxide: A Life Cycle Assessment StudyJournal of Environmental Chemical Engineering, 2021, 9(5), 106130, IF = 7.968, Top 13.64%

82. Juyeon Kim and Jeehoon Han*, Bio-based process for the catalytic production of ethyl levulinate from cellulose, Applied Energy, 2021, 300, 117430, IF = 11.446, Top 5.94% 

81. Oseok Kwon and Jeehoon Han*, Waste-to-bioethanol supply chain network: a deterministic model, Applied Energy, 2021, 300, 117381, 

IF = 11.446, Top 5.94%

80. Naveenkumar Rajendran, Jeehoon Han*Recent advances in valorization of organic municipal waste into energy using biorefinery approach, environment and economic analysisBioresource Technology, 2021, 125498, IF = 11.889, Top 3.57% 

79. Jaewon Byun and Jeehoon Han*, Economically feasible production of green methane from vegetable and fruit-rich food waste, Energy, 2021, 121397, IF = 8.857, Top 3.97%

78. Dongseong Kang and Jeehoon Han*, Lifecycle Assessment of Methanol Production from Blast Furnace Gas, Environmental Science and Pollution Research, 2021, 1-7, IF = 5.190, Top 31.00%

77. Oseok Kwon and Jeehoon Han*Supply chain management of butyric acid-derived butanol: Stochastic approach, Applied Energy, 2021, 297, 117119, IF = 11.446, Top 5.94% 

76. Oseok Kwon and Jeehoon Han*, Organic-waste-derived butyric acid-to-biodiesel supply-chain network: strategic planning design using a deterministic snapshot model, Journal of Environmental Management, 2021, 293. 112848. IF = 8.910, Top 12.01%

75. Jaewon Byun, Oseok Kwon, Hoyoung Park, and Jeehoon Han*, Food Waste Valorization to Green Energy Vehicles: Sustainability Assessment, Energy & Environmental Science, 2021, 14, pp.3651-3663 IF = 39.714, Top 0.18%, Outside back cover     

74. Hoyoung Park, Jaewon Byun and Jeehoon Han*, Economically feasible thermochemical process for methanol production from Kenaf, Energy,  2021, 120729, IF = 8.857, Top 3.97% 

73. Jaewon Byun and Jeehoon Han*, Environmental analysis of bioethanol production strategies from corn stover via enzymatic and nonenzymatic sugar production, Bioresource Technology, 2021, 328, 124808, IF = 11.889, Top 3.57% 

72. Jeehoon Han*, Catalytic syngas production from carbon dioxide of two emission source scenarios : Techno-economic assessment.. Journal of Industrial and Engineering Chemistry, 2021, 96, pp.213-218. IF = 6.760, Top 16.43% 

71. Younghyun Lee, Hoyoung Park, Jechan Lee*, Jeehoon Han*, Economically-feasible production of a nylon monomer using RANEY® catalysts. Reaction Chemistry & Engineering, 2021, 6(2), pp.225-234. IF = 5.200, Top 24.83%, Outside front cover



70. Jaewon Byun and Jeehoon Han*, Sustainable development of biorefineries: integrated assessment method for co-production pathways, Energy & Environmental Science, 2020, 13, pp.2233-2242. IF = 38.532 , Outside back cover  

69. Yuchan Ahn, Junghwan Kim, Jeehoon Han*, Optimization of Microalgae-Based Biodiesel Supply Chain Network Under the Uncertainty in Supplying Carbon Dioxide, Korean Chemical Engineering Research, 2020, 58(3), pp.396-407.

68. Jaewon Byun, Hoyoung Park, Dongseong Kang, Oseok Kwon, Jeehoon Han*, Process Design and Economics for Conversion of Kenaf to Syngas, Korean Chemical Engineering Research, 2020, 58(3), pp.362-368. 

67. Jiah Yu, In-Beum Lee, Jeehoon Han, and Yuchan Ahn*, Stochastic approach to supply chain network of microalgae-based biodiesel under uncertain diesel demand, Journal of Chemical Engineering of Japan2020, 53, pp. 1–12. IF = 0.732

66. Jaewon Byun and Jeehoon Han*, Economic feasible strategy of cellulosic biofuels: co-production of pentanediols, Energy, 2020, 193, 116797. IF = 7.147

65. Dongin Kim and Jeehoon Han*, Techno-economic and climate impact anlysis of carbon utilization process for methanol production from Blast furnace gas over Cu/ZnO/Al2O3 catalyst, Energy, 2020, 198, 117355.  IF = 7.147

64. Dongin Kim and Jeehoon Han*, Comprehensive analysis of two catalytic processes to produce formic acid from carbon dioxide, Applied energy, 2020, 264, 114711. IF = 9.746


63. Seong-Heon Cho, Juyeon Kim , Jeehoon Han*, Daewon Lee, Hyung Ju Kim, Yong Tae Kim, Xun Cheng, Ye Xu,  Jechan Lee*, and Eilhann E Kwon*Bioalcohol Production from Acidogenic Products via a Two-step Process: A Case Study of Butyric Acid to Butanol, Applied Energy2019, 252, 113482. IF = 8.426

62. Yuchan Ahn and Jeehoon Han*, Development of an integrated network for utility supply and carbon dioxide mitigation systems: applicability of biodiesel production, Journal of cleaner production, 2019, 232, pp.542-558. IF = 6.395

61. Yuchan Ahn, Jaewon Byun, Beom-Sik Kim, Cheol-Seung Lee, and Jeehoon Han*System-level analysis and life cycle assessment of CO2 and fossil-based formic acid strategiesGreen Chemistry2019, 21, pp.3442-3455. IF = 9.405

60. Yuchan Ahn, Prashanth Siddhamshetty, Kaiyu Cao, Jeehoon Han and Joseph Kwon*Optimal design of shale gas supply chain network considering MPC-based pumping schedule of hydraulic fracturing in unconventional reservoirsChemical Engineering Research and Design2019, 147, pp.412-429. IF = 3.073

59. Jaewon Byun and Jeehoon Han*, Catalytic conversion of corn stover for< gamma>-valerolactone production by two different solvent strategies: Techno-economic assessment, Energy, 2019, 175, pp.546-553. IF = 5.537

58. Jeong keun Lee, Inbeum Lee and Jeehoon Han*, Techno-economic analysis of methanol production from joint feedstock of coke oven gas and basic oxygen furnace gas from steel-making, Journal of Industrial and Engineering Chemistry, 2019, 75, pp.77-85. IF = 4.978

57. Jaewon Byun, Dongin Kim, Daewon Lee, Hyung Ju Kim, and Jeehoon Han*, Integrated Strategy for Concurrent Production of Furfuryl Alcohol and Glycerol Oxygenates, Journal of Industrial and Engineering Chemistry, 2019, 73, pp.268-275. IF = 4.978

56. Suh-Young Lee and Jeehoon Han*, Design  under Uncertainty of Carbon Capture, Utilization, and Storage Infrastructure Considering Environmental Impact, and Risk Preference, Applied energy, 2018, 238, pp.33-44.  IF = 8.426


55. Yuchan Ahn and Jeehoon Han*,A stochastic programming approach for the integrated network with utility supply and carbon dioxide mitigation systems in uncertain utility demand, Energy Conversion and Management2018. 176, pp.299-308 IF = 7.181

54. Juyeon Kim and Jeehoon Han*, Simulation study of a strategy to produce gamma-valerolactone from ethyl levulinate, Energy2018, 163, pp.986-991 IF = 5.537

53. Jaewon Byun, Yuchan Ahn, Juyeon Kim, Dongin Kim and Jeehoon Han, Techno-economic Feasibility Study for Catalytic Production of 1, 2-Pentanediol from Bio-renewable Furfural, Computer Aided Chemical Engineering2018, 44, pp.145-150

52. Yuchan Ahn, Jaewon Byun, Juyeon Kim and Jeehoon Han, Integrated Design Strategy for Optimization of Utility Supply and Carbon Utilization: Multiperiod Deterministic Model, Computer Aided Chemical Engineering2018, 44, pp.1567-1572

51. Suh-Young Lee, In-Beum Lee and Jeehoon Han, Optimal design under uncertainty of carbon capture, utilization, and sequestration network considering benefit, environmental impact, and preference on risk, Computer Aided Chemical Engineering2018, 44, pp.1585-1590

50. Juyeon Kim, Jaewon Byun, Yuchan Ahn and Jeehoon Han, Catalytic Production of Gamma-Valerolactone from Two Different Feedstocks, Computer Aided Chemical Engineering2018, 44, pp.295-300

49. Soonho Hwangbo, KiJeon Nam, Jeehoon Han, In-Beum Lee and Chang Kyoo Yoo*, Integrated Hydrogen Supply Networks for Waste Biogas Upgrading and Hybrid Carbon-Hydrogen Pinch Analysis under Hydrogen Demand Uncertainty, Applied  Thermal  Engineering, 2018, 140, pp.386-397 IF = 4.026

48.  Jaewon Byun, Yuchan Ahn, Juyeon Kim, Jeong-Rang Kim, Soon-Yong Jeong, Beom-Sik Kim, Hyungju Kim*, and Jeehoon Han*, Integrated process for electrocatalytic conversion of glycerol to chemicals and catalytic conversion of corn stover to fuels, Energy conversion and management 2018, 163, pp.180-186  IF = 7.181

47. Yuchan Ahn and Jeehoon Han*, Economic optimization of integrated network for utility supply and carbon dioxide mitigation with multi-site and multi-period demand uncertainties, Applied energy2018, 220, pp.723-734  IF = 8.426


46. Yuchan Ahn and Jeehoon Han*, Catalytic production of 1, 4-pentanediol from corn stover. Bioresource Technology, 2017, 245(part A). pp.442-448.  IF = 6.669

45. Jaewon Byun and Jeehoon Han*, An integrated strategy for catalytic co-production of jet fuel range alkenes, tetrahydrofurfuryl alcohol, and 1,2-pentanediol from lignocellulosic biomass. Green Chemistry, 2017, 19 (21), pp. 5214-5229.  IF = 9.405

44. Jaewon Byun and Jeehoon Han*, Process development and economic evaluation for catalytic conversion of furfural to tetrahydrofurfuryl alcohol. Korean  Chemical Engineering Research, 2017, 55(5), pp.1-9.

43. Hyung Ju Kim, Youngmin Kim, Daewon Lee, Jeong-Rang Kim, Ho-Jeong Chae, Soon-Yong Jeong, Beom-Sik Kim, Jechan Lee, George W Huber, Jaewon Byun, Sunghoon Kim, Jeehoon Han*,Coproducing Value-added Chemicals and Hydrogen with Electrocatalytic Glycerol Oxidation Technology: Experimental and Techno-economic Investigations. ACS Sustainable Chemistry & Engineering. 2017, 5(8). pp.6626-6634.  IF = 6.97

42. Jeehoon Han*, Process design and techno-economic evaluation for catalytic production of cellulosic γ-Valerolactone using lignin derived propyl guaiacol, Journal of Industrial and Engineergin Chemistry. 2017, 52. pp.218-223.  IF = 4.978

41. Soonho Hwangbo, In-Beum Lee, Jeehoon Han*, Mathematical model to optimize design of integrated utility supply network and future global hydrogen supply network under demand uncertainty. Applied Energy, 2017, 195, pp.257-267.  IF = 8.426

40. Jeehoon Han*, Process systems engineering studies for catalytic production of bio-based platform molecules from lignocellulosic biomass, Energy Conversion & Management, 2017, 138, pp.511-517.   IF = 7.181

39. Sunghoon Kim and Jeehoon Han*, Enhancement of energy efficiency and economics of process designs for catalytic co-production of bioenergy and bio-based products from lignocellulosic biomass, International Journal of Energy Research, 2017. 41(11). pp.1553-1562.  

IF = 3.343

38. Suh-Young Lee, Jae-Uk Lee, In-Beum Lee, Jeehoon Han*, Design under uncertainty of carbon capture and storage infrastructure considering cost, environmental impact, and preference on risk. Applied Energy, 2017, 189, pp.725-738.   IF = 8.426

37. Jeehoon Han*, Integrated process for simultaneous production of jet fuel range alkenes and N-methylformanilide using biomass-derived gamma-valerolactone, Journal of Industrial & Engineering Chemistry, 2017, 48. pp.173-179.  IF = 4.978

36. Wangyun Won, Hweeung Kwon, Jee-Hoon Han, Jiyong Kim*, Design and operation of renewable energy sources based hydrogen supply system: Technology integration and optimization. Renewable energy, 2017, 103, pp 226-238.  IF = 5.439

35. Jeehoon Han*,Biorenewable strategy for catalytic ε-caprolactam production using cellulose-and hemicellulose-derived γ-valerolactoneACS Sustainable Chemistry & Engineering, 2017, 5(2), pp 1892-1898.  IF =  6.97

34. Jeehoon Han*,Integrated strategy for N-methylformanilide production from carbon dioxide of flue gas in coal-fired power plant. Energy Conversion and Management.  2017, 139, pp 135-139.  IF = 7.181


33. Jeehoon Han*, A bio-based 'green' process for catalytic adipic acid production from lignocellulosic biomass using cellulose and hemicellulose derived <gamma>-valerolactone, Energy Conversion and Management, 2016, 129, pp.75-80.  IF = 7.181

32. Soonho Hwangbo, In-Beum Lee, Jeehoon Han*, Multi-period stochastic mathematical model for the optimal design of integrated utility and hydrogen supply network under uncertainty in raw material prices. Energy, 2016, 114, pp.418-430.  IF = 5.537

31. Jaewon Byun and Jeehoon Han*, Catalytic production of biofuels (butene oligomers) and biochemical (tetrahydrofurfuryl alcohol) from corn stover. Bioresource technology, 2016, 211, pp.360-366.  IF = 6.669

30. Sunghoon Kim and Jeehoon Han*, catalytic biofuel production strategy involving separate conversion of hemicellulose and cellulose using 2-sec-butylphenol (SBP) and lignin-derived (LD) alkylphenol solvents. Bioresource technology, 2016, 204, pp. 1-8.  IF = 


29. Jaewon Byun and Jeehoon Han*, Process synthesis and analysis for catalytic conversion of lignocellulosic biomass to fuels: Separate conversion of cellulose and hemicellulose using 2-sec-butylphenol (SBP) solvent. Applied Energy, 2016, 171, pp.483-490.  IF = 8.426


28. Yuchan Ahn, In-Beum Lee, Kun-Hong Lee and Jeehoon Han*, Strategic planning design of microalgae biomass-to-biodiesel supply chain network: multi-period deterministic model. Applied Energy, 2015, 154, pp.528-542.  IF =  8.426

27. Hansol Kim, Jaewook Lee, Soobin Lee, In-Beum Lee, Joo-hyoung Park and Jeehoon Han*, Economic process design for CO2 separation from multicomponent off-gas mixtures containing highly-concentrated combustible CO and H2 in ironmaking and steelmaking plantsEnergy2015, 88, pp.756-764.  IF = 5.537

26. Jeehoon Han, S. Murat Sen, Jeremy S. Luterbacher, David Martin Alonso, James A. Dumesic and Christos T. Maravelias, Process Systems Engineering Studies for the Synthesis of Catalytic Biomass-to-fuels Strategies. Computers & Chemical Engineering, 2015, 81, pp.57-69. 

IF = 3.334

25. Jeehoon Han, Jeremy S. Luterbacher, David Martin Alonso, James A. Dumesic and Christos T. Maravelias, A Lignocellulosic Ethanol Strategy via Nonenzymatic Sugar Production: Process Synthesis and Analysis. Bioresource Technology, 2015, 182, pp.258-266.  IF =  6.669

24. Hansol Kim, Jaewook Lee, Soobin Lee, Jeehoon Han* and In-Beum Lee, Operating optimization and economic evaluation of multicomponent gas separation process using pressure swing adsorption and membrane process. Korean Chemical Engineering Research, 2015. 53(1), pp 31-38.  


23. Jeehoon Han and In-Beum Lee, A systematic process integration framework for the optimal design and techno-economic performance analysis of energy supply and CO2 mitigation strategies. Applied Energy, 2014, 125, pp. 136-146.  IF =  8.426

22. Murat Sen, Jeehoon Han, Jeremy Luterbacher, David Alonso, James Dumesic, Christos Maravelias , Synthesis of catalytic biomass-to-fuels strategies. Computer Aided Chemical Engineering, 2014, 34, pp. 615-620.  

21. Jeehoon Han, S. Murat Sen, David Martin Alonso, James A. Dumesic and Christos T. Maravelias, A strategy for the simultaneous catalytic conversion of hemicellulose and cellulose from lignocellulosic biomass to liquid transportation fuels. Green chemistry, 2014, 16(2), pp 653-661.  IF = 9.405

20. Jeremy S Luterbacher, Jacqueline M Rand, David Martin Alonso, Jeehoon Han, J Tyler Youngquist, Christos T Maravelias, Brian F Pfleger, James A Dumesic, Nonenzymatic Sugar Production from Biomass Using Biomass-Derived γ-Valerolactone. Science, 2014, 343(6188), pp 277–280.  IF = 41.037

19. Soonho Hwangbo, Jeehoon Han and In-Beum Lee, Development of a Deterministic Optimization Model for Design of an Integrated Utility and Hydrogen Supply Network. Korean Chemical Engineering Research, 2014. 52(5), pp 603-612.


18. Jeehoon Han, Junhyung Ryu and In-Beum Lee, Multi-objective optimization design of hydrogen infrastructures simultaneously considering economic cost, safety and CO2 emission. Chemical Engineering Research and Design, 2013, 91(8), pp 1427–1439.  IF = 2.281

17. Jeehoon Han and In-Beum Lee, A comprehensive infrastructure assessment model for carbon capture and storage (CiamCCS) in responding to climate change under uncertainty. Industrial & Engineering Chemistry Research, 2013, 52(10), pp3805–3815.  IF = 2.235

16. Heewon Hwang, Jeehoon Han* and In-Beum Lee, Techno-economic feasibility study of monoethanolamine-based COcapture system deployment to be retrofitted to an existing utility system in a chemical plant. Industrial & Engineering Chemistry Research, 2013, 52(51), pp 18334-18344.  IF =  2.235


15. Jeehoon Han, Junhyung Ryu and In-Beum Lee, Developing a Mathematical Modeling Framework of Carbon Dioxide Capture, Transport and Storage Networks. Journal of Chemical Engineering of Japan, 2012, 45(7), pp 1–24, 2012.  IF =  0.616

14. Junhyung RyuJeehoon Han and In-Beum Lee, Development an optimization model for green supply chains: Integration of CO2 disposal and renewable energy supply. Computer aided chemical engineering, 2012, 30, pp 317–321, 2012.

13. Jeehoon Han, Jae-Uk Lee and In-Beum Lee, Development of a Multiperiod Model for Planning CO2DisposalandUtilizationInfrastructure. Industrial & Engineering Chemistry Research2012, 51 (7), p. 2983–2996.  IF = 2.206

12. Jeehoon Han, Junhyung Ryu and In-Beum Lee, Developing a two-stage stochastic programming model for CO2disposalplanningunderuncertainty. Industrial & Engineering Chemistry Research2012, 51 (8), pp 3368–3380.  IF = 2.206

11. Jeehoon Han, Junhyung Ryu and In-Beum Lee, Modeling the operation of hydrogen supply networks considering facility location. International Journal of Hydrogen Energy, 2012, 37 (6), pp 5328–5346.  IF = 3.548

10. Jeehoon Han, Yuchan Ahn, Jae-Uk Lee and In-Beum Lee, Optimal Strategy for CCS Infrastructure: A review. Korean Journal of Chemical Engineering, 2012, 29(8), pp. 975–984.  IF = 1.059

9. Jeehoon Han and In-Beum Lee, Multiperiod stochastic optimization model for carbon capture and storage infrastructure under uncertainty in CO2 emissions, product prices, and operating costs.Industrial & Engineering Chemistry Research, 2012, 51 (35), pp 11445–11457.  IF = 2.206

8. Jae-Uk Lee, Jeehoon Han* and In-Beum Lee, A Multiobjective Optimization Approach for CCS Infrastructure Considering Cost and Environmental Impact. Industrial & Engineering Chemistry Research, 2012, 51 (43), pp 14145–14157.  IF =  2.206

7. Jeehoon Han, Junhyung Ryu and In-Beum Lee, A Preliminary Infrastructure Design to use fossil fuels with Carbon Capture and Storage and Renewable Energy Systems. International Journal of Hydrogen Energy, 2012, 37 (22), pp 17321–17335.  IF = 3.548

6. Jeehoon Han, Yuchan Ahn and In-Beum Lee, A multi-objective optimization model for sustainable electricity generation and COmitigation(EGCM) infrastructure design considering economic profit and financial risk. Applied Energy, 2012, 95: pp. 186-195.  IF = 4.781

5. Jeehoon Han and In-Beum Lee, Strategic planning of carbon capture & storage (CCS) system considering the uncertainty in the operating cost and carbon tax. Korean Chemical Engineering Research, 2012, 50(3), pp 471-478.


4. Jeehoon Han and In-Beum Lee, Development of a Scalable and Comprehensive Infrastructure Model for Carbon Dioxide Utilization and Disposal. Industrial & Engineering Chemistry Research, 2011. 50(10), pp 6297-6315.  IF = 2.237

3. Jeehoon Han and In-Beum Lee, Two-Stage Stochastic Programming Model for Planning CO2Utilization and Disposal Infrastructure Considering the Uncertainty in the COEmission. Industrial & Engineering Chemistry Research, 2011, 50(23), pp 13435-13443.  IF = 2.237

2. Jeehoon Han and In-Beum Lee, Development of a scalable infrastructure model for planning electricity generation and COmitigation strategies under mandated reduction of GHG emission.Applied Energy, 2011, 88(12), pp 5056-5068.  IF = 5.106


1. In-Chan Hwang, Jeehoon Han, and So-Jin Park, Binary LLE for Propyl Vinyl Ether (PVE)+ Water, Ternary LLE for PVE+ Methanol or Ethanol+ Water at 298.15 K, and VE and Δ R at 293.15 K for the Mixture of PVE+ Ethanol+ 2, 2, 4-Trimethylpentane. Journal of Chemical & Engineering Data, 2007, 52(6), pp2395–2399. IF =  1.729