SDS
SAMSUNG SDI Co., Ltd.
Date: January 2
nd
2020 Revision no.: 01
MODEL INR18650-22P
Page 4 of 22
114435-02-8 4-Fluoro-1,3-dioxolan-2-one < 1%
24937-78-8 Acetic acid ethenyl ester polymer with ethene < 1%
7429-90-5 Aluminium < 8%
8052-42-4 Asphalt < 1%
110-61-2 Butanedinitrile < 1%
7440-44-0 Carbon < 1%
1333-86-4 Carbon black < 1%
9004-32-4 Cellulose, carboxymethyl ether, sodium salt < 1%
7440-47-3 Chromium < 1%
12190-79-3 cobalt lithium dioxide < 5%
7440-50-8 Copper < 15%
1309-37-1 diiron trioxide < 1%
616-38-6 dimethyl carbonate < 6%
623-53-0 Ethyl methyl carbonate < 2%
100-41-4 ethylbenzene < 1%
68604-67-1 Fatty acids, coco polymers with benzoic acid, pentaerythritol and
phthalic anhydride
< 1%
7782-42-5 Graphite < 17%
7439-89-6 Iron < 15%
554-13-2 lithium carbonate < 1%
21324-40-3 lithium hexafluorophosphate(1-) < 2%
12057-17-9 Lithium manganese oxide < 19%
12031
-
65
-
1
Lithium nickelate
< 13%
14283-07-9 lithium tetrafluoroborate, anhydrous < 1%
244761-29-3 Lithium-bis-oxaiatoborate < 1%
7439-96-5 Manganese < 1%
108-38-3 m-xylene < 1%
7440-02-0 Nickel < 1%
16812-54-7 Nickel monosulfide < 1%
7786-81-4 Nickel sulfate < 1%
95-47-6 o-xylene < 1%
9002-88-4 Polyethylene < 3%
9003-07-0 Polypropyllene < 1%
106-42-3 p-xylene < 1%
7440-21-3 Silicon < 1%
9003-55-8 Styrene, butadiene copolymer < 1%
14807-96-6 Talc (Mg3H2(SiO3)4) < 1%
13463-67-7 titanium dioxide < 1%
Further Information
Because of the cell structure the dangerous ingredients will not be available if used properly.
During charge process a lithium graphite intercalation phase is formed.