Additively manufactured microfluidics-based “peel-and-replace” RF sensors for wearable applications
This paper demonstrates the first-of-its-kind additively manufactured microfluidics-based
flexible RF sensor, combining microfluidics, inkjet-printing technology, and soft lithography,
which could potentially enable the first “real-world” wearable “smart skin” applications. A low-
cost, rapid, low-temperature, and zero-waste fabrication process is introduced, which can be
used to realize complex microfluidic channel networks with virtually any type of sensing
element embedded. For proof-of-concept purposes, a reusable and flexible microfluidics …
flexible RF sensor, combining microfluidics, inkjet-printing technology, and soft lithography,
which could potentially enable the first “real-world” wearable “smart skin” applications. A low-
cost, rapid, low-temperature, and zero-waste fabrication process is introduced, which can be
used to realize complex microfluidic channel networks with virtually any type of sensing
element embedded. For proof-of-concept purposes, a reusable and flexible microfluidics …
Additively manufactured microfluidics-based" peel-and-replace" RF sensors for wearable applications
S Wenjing, SC Benjamin, MT Manos - 2016 - dspace.usthb.dz
This paper demonstrates the first-of-its-kind additively manufactured microfluidics-based
flexible RF sensor, combining microfluidics, inkjet-printing technology, and soft lithography,
which could potentially enable the first “real-world” wearable “smart skin” applications. A low-
cost, rapid, lowtemperature, and zero-waste fabrication process is introduced, which can be
used to realize complex microfluidic channel networks with virtually any type of sensing
element embedded. For proof-ofconcept purposes, a reusable and flexible microfluidics …
flexible RF sensor, combining microfluidics, inkjet-printing technology, and soft lithography,
which could potentially enable the first “real-world” wearable “smart skin” applications. A low-
cost, rapid, lowtemperature, and zero-waste fabrication process is introduced, which can be
used to realize complex microfluidic channel networks with virtually any type of sensing
element embedded. For proof-ofconcept purposes, a reusable and flexible microfluidics …
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