Lithium Carbonate (Battery Grade)

CAS：554-13-2
MF：
Purity：99%
Molecular Weight：

Get the best price

Product Details

CAS： 554-13-2

Factory Supply High Purity Top Purity Lithium Carbonate 554-13-2 with Fast Shipping

Molecular Formula:Li2CO3
Molecular Weight:73.8912
Appearance/Colour:white fine crystalline powder
Melting Point:720 °C
Boiling Point:333.6 °C at 760 mmHg
Flash Point:169.8 °C
PSA：63.19000
Density:2.11 g/cm³
LogP:-2.44700

Lithium carbonate(Cas 554-13-2) Usage

Name		Lithium Carbonate (Battery Grade)
Li2CO3 not less than（%）		99.50
Impurity （ppm）	Na	250
	K	10
	Ca	50
	Mg	80
	Fe	10
	Cu	3
	Pb	3
	Ni	10
	Mn	3
	Zn	3
	Al	10
	Si	30
	SO42-	800
	Cl-	30
H2O(%)		0.25

InChI:InChI=1/CH2O3.2Li/c2-1(3)4;;/h(H2,2,3,4);;/q;2*+1/p-2

554-13-2 Relevant articles

Changes of nitrides characteristics in Li-N system synthesized at different pressures

Ignatenko, Oleg V.,Komar, Valery A.,Leonchik, Sergey V.,Shempel, Natalia A.,Ene, Antoaneta,Cantaragiu, Alina,Frontasyeva, Marina V.,Shvetsov, Valery N.

, p. 23 - 27 (2013)

For the Li-N system samples were obtaine...

A study of binary iron/lithium organometallic complexes as single source precursors to solid state cathode materials for potential Li ion battery application

Khanderi, Jayaprakash,Schneider, J?rg J.

, p. 254 - 259 (2011)

Solid state and solution phase decomposi...

Lithium silicate nanosheets with excellent capture capacity and kinetics with unprecedented stability for high-temperature CO2capture

Belgamwar, Rajesh,Maity, Ayan,Das, Tisita,Chakraborty, Sudip,Vinod, Chathakudath P.,Polshettiwar, Vivek

, p. 4825 - 4835 (2021)

An excessive amount of CO2is the leading...

Synthesis and CO2 adsorption characteristics of lithium zirconates with high lithia content

Yin, Xian-Sheng,Li, Shao-Peng,Zhang, Qin-Hui,Yu, Jian-Guo

, p. 2837 - 2842 (2010)

Pure monoclinic phase Li6Zr2O7 and rhomb...

Thermally driven interfacial degradation between Li7La3Zr2O12 electrolyte and LiNi0.6Mn0.2Co0.2O2 cathode

Kim, Younggyu,Kim, Dongha,Bliem, Roland,Vardar, Gülin,Waluyo, Iradwikanari,Hunt, Adrian,Wright, Joshua T.,Katsoudas, John P.,Yildiz, Bilge

, p. 9531 - 9541 (2020)

Solid-state batteries offer higher energ...

Adsorption and electrodeposition on SnO2 and WO3 electrodes in 1 M LiClO4/PC. In situ light scattering and in situ atomic force microscopy studies

Isidorsson,Lindstroem,Granqvist,Herranen

, p. 2784 - 2795 (2000)

A novel spectroscopic in situ light scat...

Time-Resolved Synchrotron Powder X-ray Diffraction Studies on the Synthesis of Li8SiO6 and Its Reaction with CO2

Cova, Federico,Amica, Guillermina,Kohop??, Katja,Blanco, Maria Valeria

, p. 1040 - 1047 (2019)

Lithium oxosilicate was synthesized via ...

Three-step calcination synthesis of high-purity Li8ZrO 6 with CO2 absorption properties

Yin, Xian-Sheng,Zhang, Qin-Hui,Yu, Jian-Guo

, p. 2844 - 2850 (2011)

Li8ZrO6 contains a high lithium content ...

Dependence of electrochemical properties of spinel LiMn2O4 on Li2CO3 with micro-flaky, micro-flower and nanorod morphologies

Li, Lang,Sui, Jinsong,Huang, Rui,Xiang, Wei,Qin, Wei

, p. 42289 - 42295 (2017)

Herein, the dependence of spinel LiMn2O4...

REMARKS ON THE BINARY SYSTEMS Li//2O-Me//2O//5 (Me equals Nb,Ta).

Abbattista, F.,Vallino, M.,Mazza, D.

, p. 1019 - 1028 (1987)

In the Li//2O-Ta//2O//5 system there are...

Selective production of acetone in the electrochemical reduction of CO2 catalyzed by a Ru-naphthyridine complex

Mizukawa, Tetsunori,Tsuge, Kiyoshi,Nakajima, Hiroshi,Tanaka, Koji

, p. 362 - 363 (1999)

The controlled potential electrolysis of...

Study of the phases in a copper cathode during an electrodeposition process for obtaining Cu-Li alloys

Lambri,Perez-Landazabal,Penaloza,Herrero,Recarte,Ortiz,Woerner

, p. 1023 - 1033 (2000)

The evolution of Cu-18at%Li crystals, Cu...

Reaction mechanisms of Li0.30La0.57TiO3 powder with ambient air: H+/Li+ exchange with water and Li2CO3 formation

Boulant, Anthony,Bardeau, Jean Francois,Jouanneaux, Alain,Emery, Joel,Buzare, Jean-Yves,Bohnke, Odile

, p. 3968 - 3975 (2010)

The proton/lithium exchange property of ...

Mechanism of a reversible CO2 capture monitored by the layered perovskite Li2SrTa2O7

Galven, Cyrille,Fourquet, Jean-Louis,Suard, Emmanuelle,Crosnier-Lopez, Marie-Pierre,Le Berre, Franoise

, p. 4191 - 4197 (2010)

We demonstrate for the first time, a new...

Selective CO2 Splitting by Doubly Reduced Aryl Boranes to Give CO and [CO3]2?

von Grotthuss, Esther,Prey, Sven E.,Bolte, Michael,Lerner, Hans-Wolfram,Wagner, Matthias

, p. 16491 - 16495 (2018)

Alkali metal salts M2[1] (M=Li, Na) of d...

Effect of excess Li+in solution on LiFePO4preparation via wet chemical method

He, Lihua,Zhao, Zhongwei

, p. 386 - 391 (2016)

Olivine structure LiFePO4has attracted m...

MOSSBAUER STUDY OF THE THERMAL DECOMPOSITION OF ALKALI TRIS(OXALATO)FERRATES(III).

Brar,Randhawa

, p. 153 - 156 (1985)

The thermal decomposition of alkali (Li,...

Features of the Thermolysis of Li, Na, and Cd Maleates

Avdin, V. V.,Merzlov, S. V.,Nayfert, S. A.,Polozov, M. A.,Polozova, V. V.,Sakthi Dharan, C. P.,Taskaev, S. V.,Zherebtsov, D. A.

, p. 1311 - 1318 (2020/07/21)

Abstract: Processes of the multi-stage d...

554-13-2 Process route

: lithium carbonyl

: 1333-74-0
hydrogen

: 554-13-2
lithium carbonate

: 7440-44-0
pyrographite

Conditions

Conditions	Yield
With H₂O; In water; on treating with water vigorous explosion with ignition of the gaseous products;;

: 124-38-9,18923-20-1
carbon dioxide

: 67-68-5,8070-53-9
dimethyl sulfoxide

: 67-71-0
dimethylsulfone

: 554-13-2
lithium carbonate