| Issue |
| Total 41 articles [ 키워드: Silicon ] |
| No. | Article |
| 1 |
Korean Journal of Chemical Engineering, 40 (12), pp.3046-3051 (2023) Effect of hierarchically reduced SiOx on anode performance of Li-ion batteries Dan-Bi Moon, Kue-Ho Kim, Hyo-Jin Ahn |
| 2 |
Korean Journal of Chemical Engineering, 40 (10), pp.2529-2537 (2023) Facile synthesis of polynorbornene-based binder through ROMP for silicon anode in lithium-ion batteries Anjali Nagapadi Preman, Ye Eun Lim, Seungjae Lee, et al. |
| 3 |
Korean Journal of Chemical Engineering, 40 (6), pp.1433-1439 (2023) Two-dimensional silicon carbide monolayer as a promising drug delivery vehicle for hydroxyurea anti-cancer drug Mohaned Adel, Mustafa Mohammed Kadhim, Halah Hasan Muttashar, et al. |
| 4 |
Korean Journal of Chemical Engineering, 40 (5), pp.1240-1246 (2023) Enhancing the electrical conductivity of stretchable silicone composite textiles using ethanol solvent treatment Jin-Wook Kim, Gyu Jin Shin, Do Hyun Kim, et al. |
| 5 |
Korean Journal of Chemical Engineering, 40 (3), pp.497-503 (2023) Intertwining porous silicon with conducting polymer for high-efficiency stable Li-ion battery anodes Ryu JG, Park SJ, Hong DK, et al. |
| 6 |
Korean Journal of Chemical Engineering, 39 (8), pp.2201-2210 (2022) The structure and properties of water-based silicone blended phenolic resin and its application in oil filter paper-based materials Sun L, Yang J, Yan J |
| 7 |
Korean Journal of Chemical Engineering, 39 (4), pp.928-933 (2022) Electrochemical performance of graphite/silicon/pitch anode composite prepared by metal etching process Jo YJ, Choi NH, Lee JD |
| 8 |
Korean Journal of Chemical Engineering, 38 (9), pp.1923-1933 (2021) Unified NCNT@rGO bounded porous silicon composite as an anode material for Lithium-ion batteries Nulu A, Nulu V, Moon JS, et al. |
| 9 |
Korean Journal of Chemical Engineering, 37 (10), pp.1795-1802 (2020) Silicon and porous MWCNT composite as high capacity anode for lithium-ion batteries Nulu A, Nulu V, Sohn KY |
| 10 |
Korean Journal of Chemical Engineering, 37 (5), pp.905-910 (2020) Improved impact strength of poly(lactic acid) by incorporating poly(butylene succinate) and silicon dioxide nanoparticles Jin FL, Hu RR, Park SJ |
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