 Profile Li-ion
Polymer BatteryFeatures |
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FEATURES |
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 Li-ion
POLYMER BATTERY |
|
 Specification
tables |
1.No Electrolyte Leakage Problem |
| Overview |
Traditional
battery electrolytes are liquid solutions such as aqueous solutions
or organic
solvents. Any tiny crevices would cause electrolyte leakage problem.
If the electrolyte
is a strong acid or strong base, it would further cause product
failure. Theelectrolyte
in Nernst Lithium-ion polymer batteries is thoroughly absorbed in
thepolymer
matrix. No free liquid electrolyte exists. Therefore, there is no
electrolyte leakage
problem. |
| Features |
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| Comparisons
between LIP and 0ther secondary batteries |
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| Major
applications |
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| Structural
designs |
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| Electrochemical
processes |
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| Characteristics
of Li-ion batteries |
2.Development Toward Thinner Batteries |
| Electrical
& mechanical test methods |
The
thickness of the GREENCELL Lithium polymer battery can be as thin
as 0.6mm.Because
it contains no free liquid electrolyte, there is no need for metal
outer cans.
It only takes 0.1mm thick Al laminate film to pack the battery.
As to the increase
in capacities of the batteries it can be accomplished by stacking
multiple bicells
or enlarging the battery areas. |
| Precautions
for using Li-ion batteries |
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| 3.Better Battery Design Flexibility | |
The
size of developed GREENCELL Lithium-ion Polymer Batteries can be
as small as
stamps, name cards, or as large as paper size A4 or A5. They can
be of triangle or
donut shapes, regardless of the costs. Product designers do not
have muchflexibility
in adopting traditional Li-ion batteries because of the limitations
on the choice
of battery dimensions. However,the presence of GREENCELL Lithium-ionpolymer
batteries' unique feature in size flexibility provides the designers
morespace
for creativity. |
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| 4.Light-weight and Low Cost | |
GREENCELL Lithium-ion
polymer battery not only possesses small volume, but alsosaves
the heavy metal container and complicated cap, naturally lowering
a lot of weights.
This promotes the specific energy density and reduces the battery
materials
cost a great deal. Also the excellent manufacturability of the Lithium-ion
polymer
batteries can expectedly lower the manufacturing cost as well.
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