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2. A nanotwinned-alloy strategy enables fast sodium deposition dynamics. (2025). Zou, Guodong ; Wang, Jinming ; Sun, Yong ; Niu, Tingting ; Peng, Qiuming ; Seh, Zhi Wei ; Yang, Weihao ; Ren, Liqun ; Li, Jinyu.
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1. Roll-to-roll prelithiation of lithium-ion battery anodes by transfer printing. (2023). Wu, Hui ; Ma, Huachun ; Zhang, Haitian ; Xu, Fei ; Long, Yuanzheng ; Yang, Cheng ; Li, Xiaoyan ; Yuan, Ruichuan ; Wang, Kuangyu ; Liu, Kai.
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2. Interfacial friction enabling ≤ 20 μm thin free-standing lithium strips for lithium metal batteries. (2023). Qing, Piao ; He, Pan ; Chen, Libao ; Long, Kecheng ; Johannessen, Bernt ; Wu, Zhibin ; Ji, Xiaobo ; Wei, Weifeng ; Huang, Shaozhen.
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3. Operando monitoring of thermal runaway in commercial lithium-ion cells via advanced lab-on-fiber technologies. (2023). Albert, Jacques ; Liu, Zhi ; Tam, Hwa-Yaw ; Xiao, Gaozhi ; Wu, Chuang ; Han, Xile ; Wang, Chengdong ; Xue, Xiaobin ; Mei, Wenxin ; Guo, Tuan ; Sun, Jinhua.
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4. A family of oxychloride amorphous solid electrolytes for long-cycling all-solid-state lithium batteries. (2023). Huang, Yining ; Luo, Jing ; Zhao, Yang ; Chen, Jiatang ; Sun, Xueliang ; Liang, Jianwen ; Fu, Jiamin ; Sham, Tsun-Kong ; Zhang, Shumin ; Alahakoon, Sandamini H ; Feng, Renfei ; Shakouri, Mohsen ; Chang, Lo-Yueh.
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5. A non-academic perspective on the future of lithium-based batteries. (2023). Ulissi, Ulderico ; Lacey, Matthew J ; Frith, James T.
   In: Nature Communications.
   RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-35933-2.

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6. Understanding the failure process of sulfide-based all-solid-state lithium batteries via operando nuclear magnetic resonance spectroscopy. (2023). Wang, Kangjun ; Liang, Ziteng ; Zhu, Jianping ; Chen, Zirong ; Xiang, Yuxuan ; Wu, Yuqi ; Zheng, Bizhu ; Yang, Yong ; Jin, Yanting ; Liu, Xiangsi ; Fu, Riqiang ; Tao, Mingming ; Winter, Martin.
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7. Issues Related to Power Supply Reliability in Integrated Electronic Security Systems Operated in Buildings and Vast Areas. (2023). Pa, Jacek.
   In: Energies.
   RePEc:gam:jeners:v:16:y:2023:i:8:p:3351-:d:1120231.

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8. Comprehensive Review of Recent Advancements in Battery Technology, Propulsion, Power Interfaces, and Vehicle Network Systems for Intelligent Autonomous and Connected Electric Vehicles. (2023). Asirvadam, Vijanth Sagayan ; Azrin, Saiful ; el Ouanjli, Najib ; Mossa, Mahmoud A ; Kumar, Kundan ; Mustafa, Ghulam E.
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9. Design of a 350 kW DC/DC Converter in 1200-V SiC Module Technology for Automotive Component Testing. (2023). Fioravanti, Matteo ; Pagliuca, Jacopo ; Ronchi, Fabio ; Florian, Corrado ; Rossi, Carlo ; Alemanno, Alessio.
   In: Energies.
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10. Smart wireless power transfer — opportunities and challenges. (2023). Hua, Zhichao ; Tian, Xiaoyang ; Liu, Wei ; Chau, K T ; Wang, Hui.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:180:y:2023:i:c:s1364032123001545.

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11. Explainability-driven model improvement for SOH estimation of lithium-ion battery. (2023). Shang, Zuogang ; Zhai, Zhi ; Zhao, Zhibin ; Chen, Xuefeng ; Yan, Ruqiang ; Wang, Fujin.
    In: Reliability Engineering and System Safety.
    RePEc:eee:reensy:v:232:y:2023:i:c:s0951832022006615.

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12. Feature disentanglement and tendency retainment with domain adaptation for Lithium-ion battery capacity estimation. (2023). Zhao, Zhibin ; Guo, Yanjie ; Chen, Xuefeng ; Wang, Shibin ; Zhai, Zhi.
    In: Reliability Engineering and System Safety.
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13. Dynamic early recognition of abnormal lithium-ion batteries before capacity drops using self-adaptive quantum clustering. (2023). Chen, Yunxia ; Zhang, Qingyuan ; Zhu, Jiaxiao ; Wang, Cong.
    In: Applied Energy.
    RePEc:eee:appene:v:336:y:2023:i:c:s0306261923002052.

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14. Battery capacity estimation using 10-second relaxation voltage and a convolutional neural network. (2023). Zhang, XI ; Fan, Guodong.
    In: Applied Energy.
    RePEc:eee:appene:v:330:y:2023:i:pa:s0306261922015653.

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15. Technological options and design evolution for recycling spent lithium‐ion batteries: Impact, challenges, and opportunities. (2023). Sahajwalla, Veena ; Sarkar, Montajar ; Hossain, Rumana.
    In: Wiley Interdisciplinary Reviews: Energy and Environment.
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16. Green batteries for clean skies: Sustainability assessment of lithium‐sulfur all‐solid‐state batteries for electric aircraft. (2023). Michalowski, Peter ; Popien, Janlinus ; Cerdas, Felipe ; Steckermeier, Dominik ; Herrmann, Christoph ; Thies, Christian ; Kwade, Arno ; Cistjakov, Walter ; Barke, Alexander ; Krewer, Ulrike ; Spengler, Thomas S ; Melo, Sofia Pinheiro.
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17. Rapid battery cost declines accelerate the prospects of all-electric interregional container shipping. (2022). Popovich, Natalie D ; Kersey, Jessica ; Phadke, Amol A.
    In: Nature Energy.
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18. Lithium hexamethyldisilazide as electrolyte additive for efficient cycling of high-voltage non-aqueous lithium metal batteries. (2022). Li, Kaikai ; Chen, Zhen ; Ma, Jiabin ; Kang, Feiyu ; Wei, Yinping ; Zhang, Danfeng ; Lv, Wei ; Yang, Quan-Hong ; Wang, Peng ; Zhou, Min ; Liu, Ming.
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19. Comparing the levelized cost of electric vehicle charging options in Europe. (2022). Schmidt, Tobias S ; Lanz, Lukas ; Steffen, Bjarne ; Noll, Bessie.
    In: Nature Communications.
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20. Redox-homogeneous, gel electrolyte-embedded high-mass-loading cathodes for high-energy lithium metal batteries. (2022). Cho, Seok-Kyu ; Lee, Sang-Young ; Kim, Nag-Young.
    In: Nature Communications.
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21. Aluminum-copper alloy anode materials for high-energy aqueous aluminum batteries. (2022). Zeng, Shu-Pei ; Ran, Qing ; Jiang, Qing ; Meng, Huan ; Shi, Hang ; Wen, ZI ; Lang, Xing-You ; Wan, Wu-Bin ; Zhang, Wei.
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22. Online Prediction of Remaining Useful Life for Li-Ion Batteries Based on Discharge Voltage Data. (2022). Zhang, Yong ; Wei, Yiying ; Zou, Lin ; Yang, Jie ; Wen, Baoyi.
    In: Energies.
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23. Insights into Enhancing Electrochemical Performance of Li-Ion Battery Anodes via Polymer Coating. (2022). Molaiyan, Palanivel ; Abdollahifar, Mozaffar ; Perovic, Milena ; Kwade, Arno.
    In: Energies.
    RePEc:gam:jeners:v:15:y:2022:i:23:p:8791-:d:980363.

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24. Mn-Rich NMC Cathode for Lithium-Ion Batteries at High-Voltage Operation. (2022). Koralalage, Milinda Kalutara ; Yoshio, Masaki ; Sunkara, Mahendra K ; Jasinski, Jacek B ; Wang, Hui ; Sumanasekera, Gamini U ; Lavery, Brandon W ; Druffel, Thad ; Ajayi, Babajide Patrick ; Hona, Ram K ; Adeniran, Ayodeji ; Sapkota, Nawraj ; Thapa, Arjun Kumar ; Zain, Muhammad Akram.
    In: Energies.
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25. Novel Materials and Advanced Characterization for Energy Storage and Conversion. (2022). Liu, Xingbo ; Fang, Jen-Hung.
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    RePEc:gam:jeners:v:15:y:2022:i:20:p:7536-:d:940618.

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26. Carbon binder domain networks and electrical conductivity in lithium-ion battery electrodes: A critical review. (2022). Ge, Ruihuan ; Smith, Rachel ; Pardikar, Kunal ; Entwistle, Jake ; Cumming, Denis.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:166:y:2022:i:c:s1364032122005184.

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27. Thermal runaway and fire of electric vehicle lithium-ion battery and contamination of infrastructure facility. (2022). Tuchschmid, Martin ; Zennegg, Markus ; Held, Marcel ; Nachef, Lea ; Mellert, Lars Derek ; Schreiner, Claudia ; Welte, Urs ; Figi, Renato ; Kompatscher, Michael ; Hermann, Michael.
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    RePEc:eee:rensus:v:165:y:2022:i:c:s1364032122003793.

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28. Recycling of lithium iron phosphate batteries: Status, technologies, challenges, and prospects. (2022). Dutta, Shanta ; Wang, Mengmeng ; Liu, Kang ; Rinklebe, Jorg ; Alessi, Daniel S ; Ok, Yong Sik.
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    RePEc:eee:rensus:v:163:y:2022:i:c:s1364032122004191.

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29. Thermal energy storage for electric vehicles at low temperatures: Concepts, systems, devices and materials. (2022). Ding, Yulong ; Xie, Peng ; Jin, LU ; Qiao, Geng ; Lin, Cheng ; Barreneche, Camila.
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30. Model for payback time of using retired electric vehicle batteries in residential energy storage systems. (2022). Al-Wreikat, Yazan ; Sodre, Jose Ricardo ; Attfield, Emily Kate.
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31. A deep learning method for lithium-ion battery remaining useful life prediction based on sparse segment data via cloud computing system. (2022). Guo, Wenchao ; Zhang, Qisong ; Li, Qinyi ; Yang, Lin ; Qiang, Jiaxi ; Peng, Cheng ; Deng, Zhongwei.
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32. Fast capacity estimation for lithium-ion battery based on online identification of low-frequency electrochemical impedance spectroscopy and Gaussian process regression. (2022). Su, Xiaojia ; Zhang, Weige ; Ma, Shichang ; Wang, Jiaju ; Ruan, Haijun ; Sun, Bingxiang ; He, Xitian.
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33. Sparse data machine learning for battery health estimation and optimal design incorporating material characteristics. (2022). Lu, Wei ; Zhang, Jianyu.
    In: Applied Energy.
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34. Running battery electric vehicles with extended range: Coupling cost and energy analysis. (2022). Yang, Chen.
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35. Toward a life cycle inventory for graphite production. (2022). Pell, Robert ; Stamford, Laurence ; Crossin, Enda ; Surovtseva, Daria.
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36. Project portfolio planning under CO2 fleet emission restrictions in the automotive industry. (2022). Spengler, Thomas S ; Kieckhafer, Karsten ; Wansart, Jorg ; Huls, Christoph ; Thies, Christian.
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37. Selective cobalt and nickel electrodeposition for lithium-ion battery recycling through integrated electrolyte and interface control. (2021). Su, Xiao ; Candeago, Riccardo ; Kim, Kwiyong ; Raymond, Darien.
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38. Rational design of mechanically robust Ni-rich cathode materials via concentration gradient strategy. (2021). Lu, Jun ; Cai, Zhonghou ; Gim, Jihyeon ; Chu, Yong S ; Wen, Jianguo ; Ren, Yang ; Arslan, Ilke ; Huang, Xiaojing ; Dai, Alvin ; Xiao, Xianghui ; Liu, Tongchao ; Zhou, Tao ; Holt, Martin V ; Yu, Lei ; Amine, Khalil.
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39. Porous Manganese Oxide Networks as High-Capacity and High-Rate Anodes for Lithium-Ion Batteries. (2021). Byun, Woo Jin ; Lee, Jung Kyoo ; Choi, Jaeho ; Kang, Donghwan.
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40. Low Power Modular Battery Management System with a Wireless Communication Interface. (2021). Przerywacz, Tomasz ; Gozdur, Roman ; Bogdaski, Dariusz.
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41. The impact of climate policy implementation on lithium, cobalt and nickel demand: The case of the Dutch automotive sector up to 2040. (2021). Mogollon, Jose M ; Tang, Chen ; Sprecher, Benjamin ; Tukker, Arnold.
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42. Economies of scale in battery cell manufacturing: The impact of material and process innovations. (2021). Mauler, Lukas ; Leker, Jens ; Duffner, Fabian.
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43. Enhancing thermal safety in lithium-ion battery packs through parallel cell ‘current dumping’ mitigation. (2021). Plunkett, Samuel T ; Al-Hallaj, Said ; Rojaee, Ramin ; Doherty, Patrick ; Krishnamurthy, Mahesh ; Chen, Chengxiu ; Galazutdinova, Yana.
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44. A hybrid transfer learning scheme for remaining useful life prediction and cycle life test optimization of different formulation Li-ion power batteries. (2021). Tao, Laifa ; Sun, Jinwen ; Chong, Jin ; Ma, Jian ; Jin, Haizu ; Cheng, Yujie ; Lu, Chen ; Ding, YU ; Lin, Yongshou ; Zou, Xinyu ; Shang, Pengchao.
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45. Approaching energy-dense and cost-effective lithium–sulfur batteries: From materials chemistry and price considerations. (2020). Li, Peng ; Kong, Long ; Zhao, Li-Da ; Yu, Jia ; Yang, Chen.
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46. Transition to electric vehicles in China: Implications for private motorization rate and battery market. (2020). Green, William H ; Pan, Menghsuan Sam ; Hsieh, I-Yun Lisa.
    In: Energy Policy.
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47. Towards the swift prediction of the remaining useful life of lithium-ion batteries with end-to-end deep learning. (2020). Yi, Yung ; Hong, Joonki ; Jeong, Eui-Rim ; Lee, Dongheon.
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48. The Future of Biofuels in an Electrifying Global Transportation Sector: Imperative, Prospects and Challenges. (2019). Zilberman, David ; Khanna, Madhu ; Debnath, Deepayan ; Rajagopal, Deepak.
    In: Applied Economic Perspectives and Policy.
    RePEc:wly:apecpp:v:41:y:2019:i:4:p:563-582.

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49. Effect of the active material type and battery geometry on the thermal behavior of lithium-ion batteries. (2019). Lanceros-Mendez, S ; Miranda, D ; Costa, C M ; Almeida, A M.
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    RePEc:eee:energy:v:185:y:2019:i:c:p:1250-1262.

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50. Life cycle greenhouse gas emissions of Electric Vehicles in China: Combining the vehicle cycle and fuel cycle. (2019). Liu, Zongwei ; He, Xin ; Qiao, Qinyu ; Hao, Han ; Zhao, Fuquan.
    In: Energy.
    RePEc:eee:energy:v:177:y:2019:i:c:p:222-233.

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