| A critical review on secondary lead recycling technology and its prospect W Zhang, J Yang, X Wu, Y Hu, W Yu, J Wang, J Dong, M Li, S Liang, J Hu, ... Renewable and Sustainable Energy Reviews 61, 108-122, 2016 | 212 | 2016 |
| Lithium fluoride in electrolyte for stable and safe lithium‐metal batteries YH Tan, GX Lu, JH Zheng, F Zhou, M Chen, T Ma, LL Lu, YH Song, ... Advanced Materials 33 (42), 2102134, 2021 | 132 | 2021 |
| Direct conversion of degraded LiCoO2 cathode materials into high-performance LiCoO2: a closed-loop green recycling strategy for spent lithium-ion batteries J Wang, Z Liang, Y Zhao, J Sheng, J Ma, K Jia, B Li, G Zhou, HM Cheng Energy Storage Materials 45, 768-776, 2022 | 113 | 2022 |
| Recycling spent LiNi1-x-yMnxCoyO2 cathodes to bifunctional NiMnCo catalysts for zinc-air batteries M Jiao, Q Zhang, C Ye, Z Liu, X Zhong, J Wang, C Li, L Dai, G Zhou, ... Proceedings of the National Academy of Sciences 119 (20), e2202202119, 2022 | 101 | 2022 |
| Direct regeneration of degraded lithium-ion battery cathodes with a multifunctional organic lithium salt G Ji, J Wang, Z Liang, K Jia, J Ma, Z Zhuang, G Zhou, HM Cheng Nature communications 14 (1), 584, 2023 | 90 | 2023 |
| Direct and green repairing of degraded LiCoO2 for reuse in lithium-ion batteries J Wang, Q Zhang, J Sheng, Z Liang, J Ma, Y Chen, G Zhou, HM Cheng National Science Review 9 (8), nwac097, 2022 | 88 | 2022 |
| Long‐Life Regenerated LiFePO4 from Spent Cathode by Elevating the d‐Band Center of Fe K Jia, J Ma, J Wang, Z Liang, G Ji, Z Piao, R Gao, Y Zhu, Z Zhuang, ... Advanced Materials 35 (5), 2208034, 2023 | 78 | 2023 |
| Synthesis of Nanostructured PbO@ C Composite Derived from Spent Lead‐Acid Battery for Next‐Generation Lead‐Carbon Battery Y Hu, J Yang, J Hu, J Wang, S Liang, H Hou, X Wu, B Liu, W Yu, X He, ... Advanced Functional Materials 28 (9), 1705294, 2018 | 76 | 2018 |
| Adaptable eutectic salt for the direct recycling of highly degraded layer cathodes J Ma, J Wang, K Jia, Z Liang, G Ji, Z Zhuang, G Zhou, HM Cheng Journal of the American Chemical Society 144 (44), 20306-20314, 2022 | 74 | 2022 |
| High-performance lithium metal batteries with a wide operating temperature range in carbonate electrolyte by manipulating interfacial chemistry P Xiao, R Luo, Z Piao, C Li, J Wang, K Yu, G Zhou, HM Cheng ACS energy letters 6 (9), 3170-3179, 2021 | 68 | 2021 |
| Progress, Key Issues, and Future Prospects for Li‐Ion Battery Recycling X Wu, J Ma, J Wang, X Zhang, G Zhou, Z Liang Global Challenges 6 (12), 2200067, 2022 | 64 | 2022 |
| Efficient extraction of lithium from anode for direct regeneration of cathode materials of spent Li-ion batteries J Wang, J Ma, K Jia, Z Liang, G Ji, Y Zhao, B Li, G Zhou, HM Cheng ACS energy letters 7 (8), 2816-2824, 2022 | 64 | 2022 |
| Rational design of functional binder systems for high-energy lithium-based rechargeable batteries Y Zhao, Z Liang, Y Kang, Y Zhou, Y Li, X He, L Wang, W Mai, X Wang, ... Energy Storage Materials 35, 353-377, 2021 | 62 | 2021 |
| An emission-free vacuum chlorinating process for simultaneous sulfur fixation and lead recovery from spent lead-acid batteries K Liu, J Yang, S Liang, H Hou, Y Chen, J Wang, B Liu, K Xiao, J Hu, ... Environmental science & technology 52 (4), 2235-2241, 2018 | 62 | 2018 |
| Study on dewaterability limit and energy consumption in sewage sludge electro-dewatering by in-situ linear sweep voltammetry analysis W Yu, J Yang, X Wu, Y Gu, J Xiao, J Yu, Y Shi, J Wang, S Liang, B Liu, ... Chemical Engineering Journal 317, 980-987, 2017 | 62 | 2017 |
| Crosslinked nanofiber‐reinforced solid‐state electrolytes with polysulfide fixation effect towards high safety flexible lithium–sulfur batteries J Sheng, Q Zhang, C Sun, J Wang, X Zhong, B Chen, C Li, R Gao, Z Han, ... Advanced Functional Materials 32 (40), 2203272, 2022 | 58 | 2022 |
| Facile and cost-effective approach for copper recovery from waste printed circuit boards via a sequential mechanochemical/leaching/recrystallization process K Liu, J Yang, H Hou, S Liang, Y Chen, J Wang, B Liu, K Xiao, J Hu, ... Environmental science & technology 53 (5), 2748-2757, 2019 | 58 | 2019 |
| Sustainable upcycling of spent LiCoO2 to an ultra-stable battery cathode at high voltage J Wang, K Jia, J Ma, Z Liang, Z Zhuang, Y Zhao, B Li, G Zhou, HM Cheng Nature sustainability 6 (7), 797-805, 2023 | 57 | 2023 |
| Precise separation of spent lithium-ion cells in water without discharging for recycling Y Zhao, Y Kang, M Fan, T Li, J Wozny, Y Zhou, X Wang, YL Chueh, ... Energy Storage Materials 45, 1092-1099, 2022 | 53 | 2022 |
| A low-emission strategy to recover lead compound products directly from spent lead-acid battery paste: Key issue of impurities removal W Yu, P Zhang, J Yang, M Li, Y Hu, S Liang, J Wang, S Li, K Xiao, H Hou, ... Journal of cleaner production 210, 1534-1544, 2019 | 50 | 2019 |
Guangmin ZhouTsinghua SIGSVerified email at alum.imr.ac.cn
