| In-situ transesterification of wet spent coffee grounds for sustainable biodiesel production J Park, B Kim, JW Lee Bioresource Technology 221, 55-60, 2016 | 149 | 2016 |
| In situ transesterification of highly wet microalgae using hydrochloric acid B Kim, H Im, JW Lee Bioresource technology 185, 421-425, 2015 | 113 | 2015 |
| Concurrent production of biodiesel and chemicals through wet in situ transesterification of microalgae H Im, B Kim, JW Lee Bioresource technology 193, 386-392, 2015 | 83 | 2015 |
| Wet in situ transesterification of microalgae using ethyl acetate as a co-solvent and reactant J Park, B Kim, YK Chang, JW Lee Bioresource technology 230, 8-14, 2017 | 77 | 2017 |
| Wet in situ transesterification of spent coffee grounds with supercritical methanol for the production of biodiesel J Son, B Kim, J Park, J Yang, JW Lee Bioresource technology 259, 465-468, 2018 | 68 | 2018 |
| Simplifying biodiesel production from microalgae via wet in situ transesterification: A review in current research and future prospects B Kim, HY Heo, J Son, J Yang, YK Chang, JH Lee, JW Lee Algal Research 41, 101557, 2019 | 66 | 2019 |
| Solvo-thermal in situ transesterification of wet spent coffee grounds for the production of biodiesel J Park, B Kim, J Son, JW Lee Bioresource technology 249, 494-500, 2018 | 37 | 2018 |
| Catalyst-free production of alkyl esters from microalgae via combined wet in situ transesterification and hydrothermal liquefaction (iTHL) B Kim, J Park, J Son, JW Lee Bioresource technology 244, 423-432, 2017 | 28 | 2017 |
| Spent coffee derived hierarchical porous carbon and its application for energy storage B Kim, J Park, S Baik, JW Lee Journal of Porous Materials 27, 451-463, 2020 | 27 | 2020 |
| One-pot selective production of levulinic acid and formic acid from spent coffee grounds in a catalyst-free biphasic system B Kim, J Yang, M Kim, JW Lee Bioresource technology 303, 122898, 2020 | 23 | 2020 |
| Efficient solvothermal wet in situ transesterification of Nannochloropsis gaditana for biodiesel production B Kim, YK Chang, JW Lee Bioprocess and biosystems engineering 40, 723-730, 2017 | 19 | 2017 |
| Enhanced ethyl levulinate production from citrus peels through an in-situ hydrothermal reaction J Yang, J Park, J Son, B Kim, JW Lee Bioresource Technology Reports 2, 84-87, 2018 | 11 | 2018 |
| Production of levulinic acid from wet microalgae in a biphasic one-pot reaction process M Kim, J Yang, B Kim, JW Lee Korean Journal of Chemical Engineering 37, 1933-1941, 2020 | 6 | 2020 |
Jae W. LeeProfessor of Chemical & Biomolecular Engineering, KAIST ICT Chair, Director of ERC, KAIST在 kaist.ac.kr 的电子邮件经过验证
Jae W. LeeProfessor of Chemical & Biomolecular Engineering, KAIST ICT Chair, Director of ERC, KAIST在 kaist.ac.kr 的电子邮件经过验证