result laser structuring and laser cutting of solid … · 2021. 7. 22. · 2 laser patterning and...
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9190 Annual Report 2015 Annual Report 2015 91
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Fraunhofer Institute for Laser Technology ILT, www.ilt.fraunhofer.de
DQS certified by DIN EN ISO 9001, Reg.-No.: DE-69572-01
Fraunhofer Institute for Laser Technology ILT, www.ilt.fraunhofer.de
DQS certified by DIN EN ISO 9001, Reg.-No.: DE-69572-01
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2 Laser patterning and cutting of
an SSLB (solid state lithium battery).
3 SSLB fabricated with a laser.
Result
For the selective structuring and fabrication of thin-film
batteries, a processing system was set up, in which the laser
processing is conducted by ultrashort pulsed lasers under
an inert atmosphere. This makes it possible to process even
highly reactive coating systems. When galvanometer and axle
systems are used, the process is also geometrically flexible.
Applications
The know-how gained from the thin-film battery manufac-
turing can be applied to the manufacture of flexible OLED
displays, electronic circuits and on organic and perovskite
solar cells.
The research results are part of the R&D project »PROSOLITBAT«,
which was conducted on behalf of the Federal Ministry
of Education and Research under grant number 13N13241.
Contacts
Dipl.-Ing. Christian Hördemann
Telephone +49 241 8906-8013
christian.hoerdemann@ilt.fraunhofer.de
Dr. Arnold Gillner
Telephone +49 241 8906-148
arnold.gillner@ilt.fraunhofer.de
Task
Solid-state lithium-ion batteries (SSLB) consist of different
solid layers, only a few micrometers thick, thereby reducing
the overall thickness of the battery to less than 1 millimeter.
When individual cells are detached from large area battery
substrates, no electrical connection may be formed between
the layers. In conventional laser-based cutting, material is
melted and expelled from the kerf. For sensitive layers, such
as those within a thin-film battery, this is not allowed since
a connection can be formed between the individual battery
layers during the melting and re-solidification. The use of laser-
based ultrafast processes under inert gas atmosphere makes
this processing task possible.
Method
Laser beam sources with ultra-short pulses can be used to
prevent melt from forming and, thus, a short-circuit from
occurring. In addition, the battery layers can be removed by an
upstream, selective structuring process around the kerf, which
minimizes the risk of short circuits. Likewise, functional ele-
ments such as contact surfaces can be produced by selective
laser ablation.
LASER STRUCTURING AND LASER CUTTING OF SOLID-STATE BATTERIES
2 3
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