450197
氢氧化锂 一水合物
99.995% trace metals basis
别名:
氢氧化锂水合物
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关于此项目
线性分子式:
LiOH · H2O
化学文摘社编号:
分子量:
41.96
NACRES:
NA.23
PubChem Substance ID:
UNSPSC Code:
12352302
EC Number:
215-183-4
MDL number:
Assay:
99.995% trace metals basis
Form:
solid
产品名称
氢氧化锂 一水合物, 99.995% trace metals basis
InChI key
GLXDVVHUTZTUQK-UHFFFAOYSA-M
InChI
1S/Li.2H2O/h;2*1H2/q+1;;/p-1
SMILES string
[Li+].O.[OH-]
assay
99.995% trace metals basis
form
solid
reaction suitability
core: lithium
greener alternative product characteristics
Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.
sustainability
Greener Alternative Product
impurities
≤55.0 ppm Trace Metal Analysis
application(s)
battery precursors
catalysts
material synthesis precursor
greener alternative category
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Application
氢氧化锂一水合物(LiOH⋅H2O)是生产锂钴氧化物(LiCoO2)和锂镍锰钴氧化物(NMC)等锂离子电池正极材料的重要前驱体。 氢氧化锂一水合物可用于CO2洗涤器,吸收空气中的二氧化碳。 这种应用在潜艇、航天器和水下栖息地等封闭环境中至关重要。氢氧化锂一水合物可用作催化剂。最近的一项研究发现,氢氧化锂一水合物可作为芳醛与丙二腈和氰基乙酸乙酯进行Knoevenagel缩合的新型催化剂。它还可用作Gewald反应的高效催化剂,用于简单高效地合成亚芳基丙二腈、亚芳基乙基氰基乙酸酯和2-氨基噻吩。
Features and Benefits
以下是该产品的主要特点:
- 用作催化剂时用量少
- 、反应时间短
- 、产品收率高等
- 痕量金属含量低(< 55.0 ppm)
General description
氢氧化锂 一水合物是一种白色盐, 基于痕量金属分析的纯度为99.995%。我们提供高纯度和可控的 规格,以满足研究需求,例如增强电池技术、 改进润滑剂,以确保封闭环境中的空气质量, 促进玻璃、陶瓷和聚合物先进材料的研发。
We are committed to bringing you Greener Alternative Products, which belong to one of the four categories of greener alternatives. Lithium hydroxide monohydrate supports cleaner technologies as a key precursor for high-performance lithium-ion batteries. Click here for more information.
signalword
Danger
hcodes
Hazard Classifications
Acute Tox. 4 Oral - Eye Dam. 1 - Skin Corr. 1B
存储类别
8A - Combustible corrosive hazardous materials
wgk
WGK 1
flash_point_f
Not applicable
flash_point_c
Not applicable
ppe
Eyeshields, Faceshields, Gloves, type P3 (EN 143) respirator cartridges
法规信息
危险化学品
此项目有
Lithium hydroxide as a high capacity adsorbent for CO2 capture: experimental, modeling and DFT simulation
Ahmadi M, et al.
Scientific Reports, 13, 7150 -7150 (2023)
LiOH.H2O as a catalyst for Knoevenagel and Gewald reactions
Gouda M, et al.
Polish Journal of Chemical Technology, 12 (2010)
Precipitation in aqueous lithium-oxygen batteries: a model-based analysis
Horstmann B, et al.
Energy & Environmental Science, 6(4), 1299-1314 (2013)
Environmental impacts of lithium hydroxide monohydrate production from spodumene concentrate ? A simulation-based life cycle assessment
Lappalainen H, et al.
Minerals Engineering, 209, 108632-108632 (2024)
Preparation of high-purity lithium hydroxide monohydrate from technical-grade lithium carbonate by membrane electrolysis
Ryabtsev AD, et al.
Russian Journal of Applied Chemistry, 77(7), 1108-1116 (2004)
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