2023
DOI: 10.1016/j.optlastec.2023.109777
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Picosecond laser writing of highly conductive copper micro-contacts from deep eutectic solvents

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Cited by 5 publications
(4 citation statements)
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“…Previous work [22] has shown, in connection with the presence of large agglomerates in the PC, that a homogeneous surface is urgently required in order to produce reproducible, homogeneous and defect-free Cu structures. Shestakov et al also showed in the context of RLS with deep eutectic solvents that the layer thickness of the PC has a significant influence on the laser-generated Cu structure [30]. Accordingly, it is essential to adapt the viscoelastic behavior of the CuO-based RLS PC to the coating in order to minimize the presence of disturbances in the resulting layers.…”
Section: Discussionmentioning
confidence: 99%
“…Previous work [22] has shown, in connection with the presence of large agglomerates in the PC, that a homogeneous surface is urgently required in order to produce reproducible, homogeneous and defect-free Cu structures. Shestakov et al also showed in the context of RLS with deep eutectic solvents that the layer thickness of the PC has a significant influence on the laser-generated Cu structure [30]. Accordingly, it is essential to adapt the viscoelastic behavior of the CuO-based RLS PC to the coating in order to minimize the presence of disturbances in the resulting layers.…”
Section: Discussionmentioning
confidence: 99%
“…In this regard, DLW has provided increased degrees of freedom for the seamless integration of these components, by allowing for the writing of several highly conductive materials, appropriate for low-power electronics integration, in several platforms, from rigid carriers to flexible substrates. In this regard, DLW processing of metal tracks has been the main approach, targeting useful metallic conductors such as copper, [75,137,169,196,199,246] silver, [35,42,101,118,163,336] platinum, [42] and liquid metals. [194,207,373] Has detailed in previous sections, attainable resolutions using these materials depend on several factors, including precursor formulations (e.g.…”
Section: Circuit Interconnectsmentioning
confidence: 99%
“…Further research on this aspect is needed, regarding the exact formulation of the PC, as well as an adjustment of the laser and process parameters to RLS with CuO PC. In addition, it has been shown, in the context of other PC types, that the thickness of the PC also has an influence on the resulting electrical resistance [58]. To date, no consistent determination of an ideal particle size and shape for CuO-based RLS has been made.…”
Section: Reductive Laser Sintering With the Milled Precursormentioning
confidence: 99%