Renata SA Chemistry and Construction User Manual

38

www.renata.com

Chemistry and Construction

Chemistry of RENATA Li/MnO

2

cells

Renata CR lithium coin cells use a non-aqueous,
aprotic organic electrolyte containing lithium per-
chlorate in a mixture of organic solvents. The pro-
prietary formulation of the active cathode material
consists of a heat-treated mixture of electrolytic
MnO

2

and other specific components, yielding an

outstanding volume/capacity ratio for this Li/MnO

2

system.

The cell reactions for this electrochemical system
are:

Anode: Li –> Li

+

+ e-

Cathode: Mn

IV

O

2

+ Li

+

+ e- –> Mn

III

O

2

(Li

+

)

Overall cell reaction: Li + Mn

IV

O

2

–> Mn

III

O

2

(Li

+

)

Manganese dioxide is reduced from the
tetravalent to the trivalent state by lithium.

The separator system in Renata coin cells is
especially designed to ensure the best
performance in terms of mechanical strength, ion
permeability over a wide temperature range
(-40 to +100°C) and a low self-discharge rate.
Additional care in cell design also minimizes
self-discharge rate.

The combination of these several features
provides the best performance for long life
applications (back-up etc.)

Separator

Gasket

Anode

(Lithium)

Absorbent

Layer and

Electrolyte

Cathode

(MnO

2

)

Cup
Contact

Lid
Contact

Separator

Gasket

Current Collector

Anode (Lithium)

Absorbent Layer and
Electrolyte

Cathode (MnO

2

)

Cup Contact

Lid Contact

Construction of RENATA Li/MnO

2

cells