This study presents graphene inks produced through the liquid-phase exfoliation of
graphene flakes in water using optimized concentrations of dispersants (gelatin, triton X …

Printed electronic sensors offer a breakthrough in the availability of low-cost sensor devices
for improving the quality of human life. Conductive ink is the core of printing technology and …

Aerosol jet printing is a noncontact, digital, additive manufacturing technique compatible
with a wide variety of functional materials. Although promising, development of new …

Highlights Ultrathin and defect-free graphene ink is prepared through a high-throughput fluid
dynamics process, resulting in a high exfoliation yield (53.5%) and a high concentration …

Graphene-based printable inks are advanced and promising candidates for flexible printed
electronic devices. To develop large-scale graphene-based highly conductive electronics …

Graphene inks have recently enabled the dramatic improvement of printed flexible
electronics due to their low cost, ease of processability, higher conductivity and flexibility. In …

Inkjet printing is one of the emerging methods for fabrication of electronic devices. The
important issue in this area is developing nanomaterial-based inks for different applications …

Graphene, which has fascinating properties, has revolutionized every research field. Its
contribution to the world of electronics is undoubtedly incomparable. This chapter provides a …

Background Inkjet printing of graphene conductive inks plays a critical role in the
technological advancement in flexible and stretchable electronics applications. In this study …

Graphene-based inks are becoming increasingly attractive for printing low-cost and flexible
electrical circuits due to their high electrical conductivity, biocompatibility, and manufacturing …