In situ study of current-induced thermal expansion in printed conductors using stylus profilometry

An in situ technique that uses a stylus profilometer has been developed for studying current-induced thermal expansion in printed conductive traces and for investigating the effects of expansion on trace resistance and power handling. It was employed to study printed silver traces (50-100 m linewidt...

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Published inFlexible and printed electronics Vol. 1; no. 1; pp. 12001 - 12007
Main Authors Aga, Roberto S, Kreit, Eric B, Dooley, Steven R, Devlin, Christie L, Bartsch, Carrie M, Heckman, Emily M
Format Journal Article
LanguageEnglish
Published IOP Publishing 01.03.2016
Subjects
interconnects
power handling
printed electronics
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Abstract An in situ technique that uses a stylus profilometer has been developed for studying current-induced thermal expansion in printed conductive traces and for investigating the effects of expansion on trace resistance and power handling. It was employed to study printed silver traces (50-100 m linewidths) subjected to a pulsed, millisecond-range current. The traces were aerosol jet printed on a glass substrate using a commercial nanoparticle-based ink. At low peak current densities (Jp < 5 × 104 A mm−2), trace expansion is reversible with no permanent resistance increase. At Jp ≥ 5 × 104 A mm−2 the expansion becomes irreversible, resulting in reduced power handling and a permanent resistance increase of up to 50%. Since the irreversible expansion decreases density and weakens nanoparticle connectivity, further expansion easily distends the material to the point of forming a void. This is one breakdown mechanism of printed nanoparticle-based silver at high pulsed current.
AbstractList An in situ technique that uses a stylus profilometer has been developed for studying current-induced thermal expansion in printed conductive traces and for investigating the effects of expansion on trace resistance and power handling. It was employed to study printed silver traces (50-100 m linewidths) subjected to a pulsed, millisecond-range current. The traces were aerosol jet printed on a glass substrate using a commercial nanoparticle-based ink. At low peak current densities (Jp < 5 × 104 A mm−2), trace expansion is reversible with no permanent resistance increase. At Jp ≥ 5 × 104 A mm−2 the expansion becomes irreversible, resulting in reduced power handling and a permanent resistance increase of up to 50%. Since the irreversible expansion decreases density and weakens nanoparticle connectivity, further expansion easily distends the material to the point of forming a void. This is one breakdown mechanism of printed nanoparticle-based silver at high pulsed current.
Author Heckman, Emily M
Aga, Roberto S
Devlin, Christie L
Kreit, Eric B
Dooley, Steven R
Bartsch, Carrie M
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crossref_primary_10_1016_j_microrel_2017_10_037
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crossref_primary_10_1038_s41598_018_29195_y
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Snippet An in situ technique that uses a stylus profilometer has been developed for studying current-induced thermal expansion in printed conductive traces and for...
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SubjectTerms interconnects
power handling
printed electronics
Title In situ study of current-induced thermal expansion in printed conductors using stylus profilometry
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