The continual trend of miniaturization and increasing complexity in the field of microelectronic devices pose a challenge for today's manufacturing technology. The novel Maskless Mesoscale Material Deposition (M3D) manufacturing technology offers the potential for printing superfine circuitry as well as for the building up of multi-layer systems. Therefore it could be an interesting technology to meet the requirements of miniaturized systems. The M3D process depends on aerosol formation and uses aerodynamic focusing of aerosol streams for a high resolution deposition of cooloidal suspensions and liquid raw material. Since M3D is a contactless and maskless Direct Write Technolgy, it also offers new possibilities for 3D devices.
This paper will report on first results of depositing conductive and non conductive materials onto glass substrates as well as onto typical MID (Moulded Interconnect Devices) substrates. Furthermore it will present first mult-layer systems that have been fabricated using the M3D technology.
%0 Conference Paper
%1 obliershommrich2008single
%A Obliers-Hommrich, B
%A Fischer, Alexander
%A Willek, Hannes
%A Eberhardt, Wolfgang
%A Kueck, Heinz
%B Proceedings of the 4th International Conference on Multi-Material Micro Manufacture
%D 2008
%E Dimov, Stefan
%E Menz, Wolfgang
%I Whittles Publishing
%K fischer ifm_conf kueck
%P 77-80
%T Single- and multi-layer conductive patterns fabricated using maskless mesoscale material deposition
%U https://www.4m-association.org/content/4M-conference-series/4m-conference-series.html
%X The continual trend of miniaturization and increasing complexity in the field of microelectronic devices pose a challenge for today's manufacturing technology. The novel Maskless Mesoscale Material Deposition (M3D) manufacturing technology offers the potential for printing superfine circuitry as well as for the building up of multi-layer systems. Therefore it could be an interesting technology to meet the requirements of miniaturized systems. The M3D process depends on aerosol formation and uses aerodynamic focusing of aerosol streams for a high resolution deposition of cooloidal suspensions and liquid raw material. Since M3D is a contactless and maskless Direct Write Technolgy, it also offers new possibilities for 3D devices.
This paper will report on first results of depositing conductive and non conductive materials onto glass substrates as well as onto typical MID (Moulded Interconnect Devices) substrates. Furthermore it will present first mult-layer systems that have been fabricated using the M3D technology.
@inproceedings{obliershommrich2008single,
abstract = {The continual trend of miniaturization and increasing complexity in the field of microelectronic devices pose a challenge for today's manufacturing technology. The novel Maskless Mesoscale Material Deposition (M3D) manufacturing technology offers the potential for printing superfine circuitry as well as for the building up of multi-layer systems. Therefore it could be an interesting technology to meet the requirements of miniaturized systems. The M3D process depends on aerosol formation and uses aerodynamic focusing of aerosol streams for a high resolution deposition of cooloidal suspensions and liquid raw material. Since M3D is a contactless and maskless Direct Write Technolgy, it also offers new possibilities for 3D devices.
This paper will report on first results of depositing conductive and non conductive materials onto glass substrates as well as onto typical MID (Moulded Interconnect Devices) substrates. Furthermore it will present first mult-layer systems that have been fabricated using the M3D technology. },
added-at = {2023-06-16T07:20:41.000+0200},
author = {Obliers-Hommrich, B and Fischer, Alexander and Willek, Hannes and Eberhardt, Wolfgang and Kueck, Heinz},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/262ff7a668a3685a6aeb21729779c721f/holgerruehl},
booktitle = {Proceedings of the 4th International Conference on Multi-Material Micro Manufacture},
editor = {Dimov, Stefan and Menz, Wolfgang},
eventtitle = {4th International Conference on Multi-Material Micro Manufacture},
interhash = {209a2bef3f2ae1aeb3846d7fe24ce12b},
intrahash = {62ff7a668a3685a6aeb21729779c721f},
keywords = {fischer ifm_conf kueck},
month = {09},
pages = {77-80},
publisher = {Whittles Publishing},
timestamp = {2023-06-16T07:20:41.000+0200},
title = {Single- and multi-layer conductive patterns fabricated using maskless mesoscale material deposition},
url = {https://www.4m-association.org/content/4M-conference-series/4m-conference-series.html},
venue = {Cardiff},
year = 2008
}