| 1 |
Electrolyte recovery from spent Lithium-Ion batteries using a low temperature thermal treatment process
Zachmann N, Petranikova M, Ebin B
Journal of Industrial and Engineering Chemistry, 118, 351, 2023 |
| 2 |
Intertwining porous silicon with conducting polymer for high-efficiency stable Li-ion battery anodes
Ryu JG, Park SJ, Hong DK, Shin SH
Korean Journal of Chemical Engineering, 40(3), 497, 2023 |
| 3 |
Dual-effect-assisted cross-linkable poly(N-allyl-vinylimidazolium)∙TFSI- as alternative electrode binder of lithium-ion battery
Park HG, Son YK, Kim JS, Lee JS
Korean Journal of Chemical Engineering, 40(3), 504, 2023 |
| 4 |
Degradation mechanism of polyethylene separators in lithium-ion batteries after prolonged cycling
Ha YJ, Choi YJ, Choi JI, Park BK, Yang JH, Kim KJ
Korean Journal of Chemical Engineering, 40(3), 519, 2023 |
| 5 |
비정질 탄소가 제거된 흑연을 이용한 황화물계 전고체 리튬이온전지 음극소재 전기화학적 특성 분석
최재홍, 오필건
Applied Chemistry for Engineering, 33(1), 58, 2022 |
| 6 |
리튬이온 전지용 분리막의 표면 개질 기술 및 연구 동향
하성민, 김대섭, 곽철환, 이영석
Applied Chemistry for Engineering, 33(4), 343, 2022 |
| 7 |
석유계 잔사유 기반 음극재 제조 및 그 전기화학적 특성
김대섭, 임채훈, 김석진, 이영석
Applied Chemistry for Engineering, 33(5), 496, 2022 |
| 8 |
One-dimensional lithium-rich Li1.17Ni0.35Mn0.48O2 cathode and carbon-coated MnO anode materials for highly reversible Li-ion configurations
Kim JG, Noh YS, Kim YM
Journal of Industrial and Engineering Chemistry, 107, 280, 2022 |
| 9 |
Fabrication of polyacrylic acid-based composite binders with strong binding forces on copper foils for silicon anodes in lithium-ion batteries
Su TT, Ren WF, Yuan JM, Wang K, Chi BY, Sun RC
Journal of Industrial and Engineering Chemistry, 109, 521, 2022 |
| 10 |
Effective transportation of electrons/Li ions in V2O3 nanoparticle/carboncoated stainless steel composite electrodes for lithium-ion storage
Tian Y, Zhang J, Otitoju TA, Wang H, Chen H, Zhu L, Feng Z, Sun T
Journal of Industrial and Engineering Chemistry, 114, 297, 2022 |
