[HTML][HTML] Graphene inks printed by aerosol jet for sensing applications: the role of dispersant on the inks' formulation and performance
A Al Shboul, M Ketabi, D Skaf, A Nyayachavadi… - Sensors, 2023 - mdpi.com
This study presents graphene inks produced through the liquid-phase exfoliation of
graphene flakes in water using optimized concentrations of dispersants (gelatin, triton X …
graphene flakes in water using optimized concentrations of dispersants (gelatin, triton X …
Graphene ink for 3D extrusion micro printing of chemo-resistive sensing devices for volatile organic compound detection
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 …
for improving the quality of human life. Conductive ink is the core of printing technology and …
Systematic design of a graphene ink formulation for aerosol jet printing
L Gamba, ZT Johnson, J Atterberg… - … Applied Materials & …, 2023 - ACS Publications
Aerosol jet printing is a noncontact, digital, additive manufacturing technique compatible
with a wide variety of functional materials. Although promising, development of new …
with a wide variety of functional materials. Although promising, development of new …
[HTML][HTML] Highly concentrated, conductive, defect-free graphene ink for screen-printed sensor application
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 …
dynamics process, resulting in a high exfoliation yield (53.5%) and a high concentration …
[HTML][HTML] A sustainable approach towards printed graphene ink for wireless RFID sensing applications
Graphene-based printable inks are advanced and promising candidates for flexible printed
electronic devices. To develop large-scale graphene-based highly conductive electronics …
electronic devices. To develop large-scale graphene-based highly conductive electronics …
Graphene inks for printed flexible electronics: Graphene dispersions, ink formulations, printing techniques and applications
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 …
electronics due to their low cost, ease of processability, higher conductivity and flexibility. In …
Characterization of graphene-based inkjet printed samples on flexible substrate for wireless sensing applications
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 …
important issue in this area is developing nanomaterial-based inks for different applications …
Graphene based nano-inks for electronic industries
A Tewari, S Böhm - Smart Multifunctional Nano-Inks, 2023 - Elsevier
Graphene, which has fascinating properties, has revolutionized every research field. Its
contribution to the world of electronics is undoubtedly incomparable. This chapter provides a …
contribution to the world of electronics is undoubtedly incomparable. This chapter provides a …
Surfactant-assisted water-based graphene conductive inks for flexible electronic applications
YZN Htwe, M Mariatti - Journal of the Taiwan Institute of Chemical …, 2021 - Elsevier
Background Inkjet printing of graphene conductive inks plays a critical role in the
technological advancement in flexible and stretchable electronics applications. In this study …
technological advancement in flexible and stretchable electronics applications. In this study …
Aerosol-jet-printed graphene immunosensor for label-free cytokine monitoring in serum
K Parate, SV Rangnekar, D Jing… - … applied materials & …, 2020 - ACS Publications
Graphene-based inks are becoming increasingly attractive for printing low-cost and flexible
electrical circuits due to their high electrical conductivity, biocompatibility, and manufacturing …
electrical circuits due to their high electrical conductivity, biocompatibility, and manufacturing …