Lithium Alloy (LiX, X= B, In, Sn, Zn, Mg, Al) Chips (D=16.0 mm, T=0.6 mm) as Anode Electrode for Li-Ion Battery, 10 g/bottle, CLIBAELiXC
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A lithium alloy battery anode is a composite material designed to improve the performance of lithium metal anodes by mitigating issues like dendrite formation and reactivity with electrolytes. It typically consists of a host structure, such as a 3D scaffold, made of other metals like aluminum, indium, or zinc, which holds and interacts with metallic lithium. This alloy structure helps provide a more stable and uniform lithium deposition during charging, which leads to enhanced cycling stability, safety, and a higher energy density compared to pure lithium metal anodes, while still outperforming conventional graphite anodes.
| Part Number |
CLIBAELiXC (C-LIB-AE-LiXC) |
| Chemical Composition |
Li-B (Li: ~99%, B: ~1%) Li-In (Li: ~50%, In: ~50%) Li-Sn (Li: ~95%, Sn: ~5%) Li-Zn (Li: ~97%, Sn: ~3%) Li-Mg (Li: ~75%, Mg: ~25%) Li-Al (Li: ~99.5%, Al: ~0.5%) |
| Bottle Size |
10 g/bottle (~100-150 pcs) Other chip diameters within 6 mm to 25 mm and thickness in 0.2 mm to 1.0 mm can be provided upon request. |
| Sample Package |
The lithium chips are sealed in an aluminum can that is further sealed with a vacuum bag. |
| Attention |
The aluminum can with lithium alloy chips must be opened inside a glove box with Argon Gas and moisture less than 1%RH (0.1 ppm is better). |
References:
- S. Tan, et al. Multiple Modifications of Li-B Alloy Anodes for Primary Batteries, J. Electrochem. Soc., 2023, 170, 010531.
- G. Wang, et al. New insights into Li diffusion in Li–Si alloys for Si anode materials: role of Si microstructures, Nanoscale, 2019, 11, 14042-14049.
- J. Aspinall, et al. Effect of Microstructure on the Cycling Behavior of Li–In Alloy Anodes for Solid-State Batteries, ACS Energy Letter, 2024, 9, 578–585.