Abstract:
:Conventional rigid electronic systems use a number of metallization layers to route all necessary connections to and from isolated surface mount devices using well-established printed circuit board technology. In contrast, present solutions to prepare stretchable electronic systems are typically confined to a single stretchable metallization layer. Crossovers and vertical interconnect accesses remain challenging; consequently, no reliable stretchable printed circuit board (SPCB) method has established. This article reports an industry compatible SPCB manufacturing method that enables multilayer crossovers and vertical interconnect accesses to interconnect isolated devices within an elastomeric matrix. As a demonstration, a stretchable (260%) active matrix with integrated electronic and optoelectronic surface mount devices is shown that can deform reversibly into various 3D shapes including hemispherical, conical or pyramid.
journal_name
Nat Communjournal_title
Nature communicationsauthors
Biswas S,Schoeberl A,Hao Y,Reiprich J,Stauden T,Pezoldt J,Jacobs HOdoi
10.1038/s41467-019-12870-7subject
Has Abstractpub_date
2019-10-28 00:00:00pages
4909issue
1issn
2041-1723pii
10.1038/s41467-019-12870-7journal_volume
10pub_type
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