| Scalable synthesis of silicon-nanolayer-embedded graphite for high-energy lithium-ion batteries M Ko, S Chae, J Ma, N Kim, HW Lee, Y Cui, J Cho Nature Energy 1 (9), 1-8, 2016 | 666 | 2016 |
| Integration of graphite and silicon anodes for the commercialization of high‐energy lithium‐ion batteries S Chae, SH Choi, N Kim, J Sung, J Cho Angewandte Chemie International Edition 59 (1), 110-135, 2020 | 577 | 2020 |
| Fast-charging high-energy lithium-ion batteries via implantation of amorphous silicon nanolayer in edge-plane activated graphite anodes N Kim, S Chae, J Ma, M Ko, J Cho Nature communications 8 (1), 812, 2017 | 333 | 2017 |
| Micron-sized Fe–Cu–Si ternary composite anodes for high energy Li-ion batteries S Chae, M Ko, S Park, N Kim, J Ma, J Cho Energy & Environmental Science 9 (4), 1251-1257, 2016 | 161 | 2016 |
| Boosting reaction homogeneity in high‐energy lithium‐ion battery cathode materials H Cha, J Kim, H Lee, N Kim, J Hwang, J Sung, M Yoon, K Kim, J Cho Advanced Materials 32 (39), 2003040, 2020 | 145 | 2020 |
| Subnano-sized silicon anode via crystal growth inhibition mechanism and its application in a prototype battery pack J Sung†, N Kim†, J Ma, JH Lee, SH Joo, T Lee, S Chae, M Yoon, Y Lee, ... Nature Energy, 1-12, 2021 | 129 | 2021 |
| Robust pitch on silicon nanolayer–embedded graphite for suppressing undesirable volume expansion SH Choi, G Nam, S Chae, D Kim, N Kim, WS Kim, J Ma, J Sung, SM Han, ... Advanced Energy Materials 9 (4), 1803121, 2019 | 129 | 2019 |
| Calendering‐Compatible Macroporous Architecture for Silicon–Graphite Composite toward High‐Energy Lithium‐Ion Batteries Y Son†, N Kim†, T Lee, Y Lee, J Ma, S Chae, J Sung, H Cha, Y Yoo, ... Advanced Materials, 2003286, 2020 | 128 | 2020 |
| One‐to‐One Comparison of Graphite‐Blended Negative Electrodes Using Silicon Nanolayer‐Embedded Graphite versus Commercial Benchmarking Materials for High‐Energy Lithium‐Ion … S Chae†, N Kim†, J Ma, J Cho, M Ko Advanced Energy Materials 7 (15), 1700071, 2017 | 119 | 2017 |
| Towards maximized volumetric capacity via pore-coordinated design for large-volume-change lithium-ion battery anodes J Ma, J Sung, J Hong, S Chae, N Kim, SH Choi, G Nam, Y Son, SY Kim, ... Nature Communications 10 (1), 475, 2019 | 100 | 2019 |
| Quantification of pseudocapacitive contribution in nanocage‐shaped silicon–carbon composite anode Y Son, J Ma, N Kim, T Lee, Y Lee, J Sung, SH Choi, G Nam, H Cho, Y Yoo, ... Advanced Energy Materials 9 (11), 1803480, 2019 | 84 | 2019 |
| Critical role of cations in lithium sites on extended electrochemical reversibility of co‐rich layered oxide W Cho, S Myeong, N Kim, S Lee, Y Kim, M Kim, SJ Kang, N Park, P Oh, ... Advanced Materials 29 (21), 1605578, 2017 | 67 | 2017 |
| Strategic pore architecture for accommodating volume change from high Si content in lithium‐ion battery anodes J Ma, J Sung, Y Lee, Y Son, S Chae, N Kim, SH Choi, J Cho Advanced Energy Materials 10 (6), 1903400, 2020 | 65 | 2020 |
| Fabrication of Lamellar Nanosphere Structure for Effective Stress‐Management in Large‐Volume‐Variation Anodes of High‐Energy Lithium‐Ion Batteries J Sung, J Ma, SH Choi, J Hong, N Kim, S Chae, Y Son, SY Kim, J Cho Advanced Materials 31 (33), 1900970, 2019 | 58 | 2019 |
| Gas phase synthesis of amorphous silicon nitride nanoparticles for high-energy LIBs S Chae, S Park, K Ahn, G Nam, T Lee, J Sung, N Kim, J Cho Energy & Environmental Science 13 (4), 1212-1221, 2020 | 54 | 2020 |
| Stress relief principle of micron‐sized anodes with large volume variation for practical high‐energy lithium‐ion batteries Y Lee, T Lee, J Hong, J Sung, N Kim, Y Son, J Ma, SY Kim, J Cho Advanced Functional Materials 30 (40), 2004841, 2020 | 45 | 2020 |
| Issues impeding the commercialization of laboratory innovations for energy-dense Si-containing lithium-ion batteries N Kim, Y Kim, J Sung, J Cho Nature Energy 8 (9), 921-933, 2023 | 24 | 2023 |
| Comparison of Li-ion battery chemistries under grid duty cycles N Kim, N Shamim, A Crawford, VV Viswanathan, BM Sivakumar, Q Huang, ... Journal of Power Sources 546, 231949, 2022 | 17 | 2022 |
| Graphit‐und‐Silicium‐Anoden für Lithiumionen‐Hochenergiebatterien S Chae, SH Choi, N Kim, J Sung, J Cho Angewandte Chemie 132 (1), 112-138, 2020 | 17 | 2020 |
| Dendrite-free lithium deposition on conventional graphite anode by growth of defective carbon-nanotube for lithium-metal/ion hybrid batteries G Yeo, J Sung, M Choi, N Kim*, M Ko* Journal of Materials Chemistry A, 2022 | 12 | 2022 |
Jaephil ChoUNIST (Ulsan National Institute of Science and Technology)在 unist.ac.kr 的电子邮件经过验证
