| 1 |
Destruction of oxytetracycline using a microwave-assisted fused TiO2 photocatalytic oxidation system
Park JG, Park YK, Jung SC
Inpress KJChE, 1000(1000), 1, 2022 |
| 2 |
Catalytic removal of volatile organic compounds using black mass from spent batteries
Park YK, Shim WG, Jung SC, Jung HY, Kim SC
Korean Journal of Chemical Engineering, 39(1), 161, 2022 |
| 3 |
Preparation of N and Eu doped TiO2 using plasma in liquid process and its photocatalytic degradation activity for diclofenac
Lee HO, Park YK, Jung SC
Korean Journal of Chemical Engineering, 39(8), 2080, 2022 |
| 4 |
Strong lithium-polysulfide anchoring effect of amorphous carbon for lithium-sulfur batteries
Jeon T, Lee YC, Hwang JY, Choi BC, Lee S, Jung SC
Current Applied Physics, 22, 94, 2021 |
| 5 |
Recent applications of the liquid phase plasma process
Kim SC, Park YK, Jung SC
Korean Journal of Chemical Engineering, 38(5), 885, 2021 |
| 6 |
Rapid decomposition of chloroform by a liquid phase plasma reaction with titanium dioxide and hydrogen peroxide
Jung SC, Lee H, Ki SJ, Kim SJ, Park YK
Catalysis Today, 352, 54, 2020 |
| 7 |
Effect of constituent processes and conditions of the hybrid TiO2 photocatalytic system on 1,4-dichlorobenzene degradation
Jung SC, Lee H, Ki SJ, Kim SJ, Park YK
Catalysis Today, 348, 270, 2020 |
| 8 |
Catalytic co-conversion of Kraft lignin and linear low-density polyethylene over mesoZSM-5 and Al-SBA-15 catalysts
Shafaghat H, Lee HW, Yang L, Oh D, Jung SC, Rhee GH, Jae J, Park YK
Catalysis Today, 355, 246, 2020 |
| 9 |
Assessment of photocatalytic performance of Fe/N-TiO2 photocatalysts prepared by liquid phase plasma process
Lee H, Kim BJ, Park YK, Kim JS, Jung SC
Catalysis Today, 355, 435, 2020 |
| 10 |
Boron-, nitrogen-, aluminum-, and phosphorus-doped graphite electrodes for non-lithium ion batteries
Jeon T, Lee S, Jung SC
Current Applied Physics, 20(8), 988, 2020 |
