乙酸锂二水合物 | 6108-17-4
中文名称:
乙酸锂二水合物
英文名称:
Lithium acetate dihydrate
CAS No.:
6108-17-4
分子式:
C2 H7 LiO4
分子量:
102.0156
名称和标识符
MDL
MFCD00066949
InChIKey
IAQLJCYTGRMXMA-UHFFFAOYSA-M
Inchi
1S/C2H4O2.Li.2H2O/c1-2(3)4;;;/h1H3,(H,3,4);;2*1H2/q;+1;;/p-1
SMILES
[O-]C(C([H])([H])[H])=O.O([H])[H].O([H])[H].[Li+]
BRN
3564320
别名信息
- 中文别名 -
乙酸锂
醋酸锂
二水醋酸锂
二水合乙酸锂
乙酸锂二水合物
醋酸锂,二水合物
乙酸锂(二水)
乙酸锂,二水
醋酸锂,二水
二水乙酸锂
乙酸
乙酸 锂盐
- 英文别名 -
Lithium acetate dihydrate
LITHIUM ACETATE, DIHYDRATE REAGENT
LITHIUM ACETATE extrapure
Lithium acetate dihy
LithiuM acetate dihydrous
REAGENT GRADE
Acetic acid lithium salt dihydrate
LITHIUMACETATEDIHYDRATE
T460029GB5
Lithium acetate dihydrate, Reagent Grade
Lithium acetate dihydrate, 98%, extra pure
Lithium acetate dihydrate, 98%, for analysis
LiOAc.2H2O
LiOAc-2H2O
KSC498A1D
LithoTab acetate ion dihydrate
C2H3O2.Li.2H2O
Lithium acetate dihydrate, 98%
IAQLJCYTGRMXMA-UHFFFAOYSA-M
Lithium acetate dihydrate, BioXtra
GK2943
6841AF
AKO
Acetic acid, lithium salt, dihydrate
FT-0627885
Lithium acetate, dihydrate
AKOS015902048
Lithium acetate dihydrate, Vetec(TM) reagent grade
lithium
acetate
dihydrate
UNII-T460029GB5
MFCD00066949
Lithium acetate hydrate, Puratronic?
DTXSID40209954
BS-17732
LITHIUM ACETATE DIHYDRATE [MI]
Lithium acetate dihydrate, 99.999% trace metals basis
Lithium acetate dihydrate, purum p.a., crystallized, >=97.0% (NT)
Q27289645
D78216
6108-17-4
物化性质
实验特性
LogP
-1.37240
PSA
58.59000
Merck
14,5521
水溶性
29 g/100 mL (20 ºC)
沸点
117.1°C at 760 mmHg
熔点
53-56 °C (lit.)
闪点
40°C
溶解度
H2O: 1 M at 20 °C, clear, colorless
颜色与性状
白色晶状粉末
PH值
7.5-9.5 (25℃, 50mg/mL in H2O)
溶解性
易潮解,溶于水和醇。
敏感性
对湿度敏感
密度
1,3 g/cm3
计算特性
精确分子量
102.05000
氢键供体数量
2
氢键受体数量
4
可旋转化学键数量
0
同位素质量
102.05
重原子数量
7
复杂度
34.6
同位素原子数量
0
确定原子立构中心数量
0
不确定原子立构中心数量
0
确定化学键立构中心数量
0
不确定化学键立构中心数量
0
共价键单元数量
4
疏水参数计算参考值(XlogP)
无
互变异构体数量
无
表面电荷
0
拓扑分子极性表面积
42.1
生产方法和用途
用途
用于饱和与不饱和脂肪酸的分离,有机反应催化剂。
生产方法
由碳酸锂与乙酸反应而得。取740g碳酸锂,加1L水,在加热和不断搅拌下,慢慢加入98%乙酸约1200g。此反应放出大量二氧化碳,把握加酸速度,防止溶液溢出。至几乎无二氧化碳逸出时,再加入乙酸50-100ml,煮沸20min。过滤,滤液蒸发至饱和状态后冷至室温,滤出结晶,低温下干燥,得乙酸锂。
相关文献
1.
Influence of deuteration on lithium acetate dihydrate studied by inelastic X-ray scattering, density functional theory, thermal expansion, elastic and thermodynamic measurements
B. Winkler,E. Haussühl,J. D. Bauer,F. Schr?der,K. Refson,V. Milman,B. Hennion,A. Bossak,M. Krisch Dalton Trans. 2011 40 1737
2.
Mechanistic insights into the acetate-accelerated synthesis of crystalline ceria nanoparticles
Tamra J. Fisher,Deepa Choudhry,Kaitlynn Derr,Soodabeh Azadehranjbar,Dan Stasko,Chin Li Cheung RSC Adv. 2020 10 20515
3.
Physicochemical and electrochemical characterization of salt-in-water and water-in-salt potassium and lithium acetate electrolytes
Mona Amiri,Daniel Bélanger J. Mater. Chem. A 2021 9 24012
4.
High-performance silicon-based multicomponent battery anodes produced via synergistic coupling of multifunctional coating layers
Jung-In Lee,Younghoon Ko,Myoungsoo Shin,Hyun-Kon Song,Nam-Soon Choi,Min Gyu Kim,Soojin Park Energy Environ. Sci. 2015 8 2075
5.
Tailored Li4Ti5O12 nanofibers with outstanding kinetics for lithium rechargeable batteries
Mi Ru Jo,Yeon Sik Jung,Yong-Mook Kang Nanoscale 2012 4 6870
6.
Alginic acid aquagel as a template and carbon source in the synthesis of Li4Ti5O12/C nanocomposites for application as anodes in Li-ion batteries
Sanghoon Kim,Johan G. Alauzun,Nicolas Louvain,Nicolas Brun,Lorenzo Stievano,Bruno Boury,Laure Monconduit,P. Hubert Mutin RSC Adv. 2018 8 32558
7.
Vapor-phase production of nanomaterials
Mohammad Malekzadeh,Mark T. Swihart Chem. Soc. Rev. 2021 50 7132
8.
Bond distances are not always what they appear to be: discovery and un-discovery of the longest Cr(v)N triple bond
Yu-Fei Song,John F. Berry,Thomas Weyhermüller,Eckhard Bill Dalton Trans. 2008 1864
9.
A facile route for the synthesis of heterogeneous crystal structures in hierarchical architectures with vacancy-driven defects via the oriented attachment growth mechanism
Li Cheng Kao,Yifan Ye,Yi-Sheng Liu,Chung Li Dong,Jinghua Guo,Sofia Ya Hsuan Liou J. Mater. Chem. A 2018 6 10663
10.
The high capacity and excellent rate capability of Ti-doped Li2MnSiO4 as a cathode material for Li-ion batteries
Min Wang,Meng Yang,Liqun Ma,Xiaodong Shen RSC Adv. 2015 5 1612
乙酸锂二水合物推荐生产厂家
乙酸锂
手机:18522077117
联系人:陈亚东
QQ:26327844
二水醋酸锂
手机:18662920632
电话:0513-66017275
联系人:费小姐
QQ:3485543679
二水醋酸锂
手机:18662919202
电话:0513-66017708
联系人:杨经理
QQ:2186883463
乙酸锂二水合物
手机:18064118002
电话:027-59599240
联系人:陈盼
QQ:1400838822
乙酸锂(二水)
手机:13813996122
联系人:汪经理
QQ:1848231502
960化工网为您提供乙酸锂二水合物专业化合物百科信息,包括中文名,英文名,分子式,分子量,以及该化合物的CasNo.:6108-17-4,和相关理化性质;并提供了优质生产厂家信息包括厂家名称和联系方式等