Palygorskite-Derived Ternary Fluoride with 2d Ion Transport Channels for Ampere Hour-scale Li-S Pouch Cell with High Energy Density Advanced Materials 2023 DOI: 10.1002/adma.202307651
图2. 软包电池的结构及性能 Palygorskite-Derived Ternary Fluoride with 2d Ion Transport Channels for Ampere Hour-scale Li-S Pouch Cell with High Energy Density Advanced Materials 2023 DOI: 10.1002/adma.202307651 发布于 2023-12-29 14:30・IP 属地广东 ...
Palygorskite-Derived Ternary Fluoride with 2d Ion Transport Channels for Ampere Hour-scale Li-S Pouch Cell with High Energy DensityAdvanced Materials2023 DOI: 10.1002/adma.202307651
When the coin cell strategy is transplanted to a pouch cell, the possibility to achieve a long-lifespan Li-S pouch cell should be further explored. Herein, the gaps between the coin and pouch cell were probed and the failure mechanism of a Li-S pouch cell was explored. Compared with ...
Furthermore, the scalability of the reinforced glass separator technology is demonstrated by assembling and testing a hybrid single layer pouch cell.doi:10.1111/ijag.15830Thomas YersakChemical and Materials Systems Laboratory General Motors Global R&D Warren MI USAJames R. Salvador...
A high-energy and long-cycling lithium-sulfur pouch cell via a macroporous catalytic cathode with double-end binding sites Nat. Nanotechnol., 16 (2021), pp. 166-173 Google Scholar 40 Y. Ye, F. Wu, Y. Liu, T. Zhao, J. Qian, Y. Xing, W. Li, J. Huang, L. Li, Q. Huang,et...
Gelion has achieved a high energy density milestone by fabricating a 395 Wh/kg lithium-sulfur 9.5 Ah pouch cell (commercial cell format). This result represents a c. 60% increase in the energy density (lower weight) compared with current lithium-ion batteries (approximately 250 Wh/kg). ...
Catalytic Disproportionation for Suppressing Polysulfide Shuttle in Li-S Pouch Cells: Beyond Adsorption Interactions. Adv. Energy Mater. 2022, 12, 2201912. [Google Scholar] 5. Li T, Bai X, Gulzar U, Bai YJ, Capiglia C, Deng W, et al. A Comprehensive Understanding of Lithium-Sulfur ...
calculations. Z.W. and D.Y. carried out the TEM observation. H.W. and J.K. conducted the four-point-probe resistivity test. W.X., C.W. and A.M. made the pouch cell. W.X., L.S., J.L. and Z.S. wrote the paper. All authors discussed the results and reviewed the ...
Moreover, the Li-S pouch cell with rGO/MoSSe@CNF interlayer at sulfur loading of 3 mg cm-2 can maintain a reversible specific capacity of 706.2 mAh g- 1 after the rate test and 175 cycles at 0.2 C. 展开 关键词: Multifunctional interlayer Se-dopedMoS2 adsorption catalysis Li-S batteries...