Highly conductive copper–silver bimodal paste for low-cost printed electronics
Printed electronics are circuits that are additively manufactured using conductive pastes
composed of micro-/nanoconductive metal particles. Silver-based compounds are the most …
composed of micro-/nanoconductive metal particles. Silver-based compounds are the most …
Green Manufacturing of Highly Conductive Cu2O and Cu Nanoparticles for Photonic-Sintered Printed Electronics
Recent advancements in smart electronics have brought an unprecedented number of
electronic devices into our daily life, which leaves the burden of a growing e-waste. In …
electronic devices into our daily life, which leaves the burden of a growing e-waste. In …
Printable and flexible copper–silver alloy electrodes with high conductivity and ultrahigh oxidation resistance
Printable and flexible Cu–Ag alloy electrodes with high conductivity and ultrahigh oxidation
resistance have been successfully fabricated by using a newly developed Cu–Ag hybrid ink …
resistance have been successfully fabricated by using a newly developed Cu–Ag hybrid ink …
Highly durable Cu-based electrodes from a printable nanoparticle mixture ink: flash-light-sintered, kinetically-controlled microstructure
Recently, printable nanomaterials have drawn tremendous attention for low-cost, large-area
electronics applications. In particular, metallic nanoparticles that can facilitate the formation …
electronics applications. In particular, metallic nanoparticles that can facilitate the formation …
Photonic curing of low-cost aqueous silver flake inks for printed conductors with increased yield
HM Cronin, Z Stoeva, M Brown… - … applied materials & …, 2018 - ACS Publications
Printing of highly conductive tracks at low cost is of primary importance for the emerging field
of flexible, plastic, and large-area electronics. Commonly, this is achieved by printing of …
of flexible, plastic, and large-area electronics. Commonly, this is achieved by printing of …
Low-thermal-budget photonic processing of highly conductive Cu interconnects based on CuO nanoinks: potential for flexible printed electronics
In the developing field of printed electronics, nanoparticle based inks such as CuO show
great promise as a low-cost alternative to other metal-based counterparts (eg, silver). In …
great promise as a low-cost alternative to other metal-based counterparts (eg, silver). In …
Inkjet printing and photonic sintering of silver and copper oxide nanoparticles for ultra-low-cost conductive patterns
Printing technologies to produce conductive films and electronic devices are well
established and employ only inexpensive materials and devices as well as rapid post …
established and employ only inexpensive materials and devices as well as rapid post …
Ambient atmosphere-processable, printable Cu electrodes for flexible device applications: structural welding on a millisecond timescale of surface oxide-free Cu …
SJ Oh, Y Jo, EJ Lee, SS Lee, YH Kang, HJ Jeon… - Nanoscale, 2015 - pubs.rsc.org
Recently, various functional devices based on printing technologies have been of
paramount interest, owing to their characteristic processing advantages along with excellent …
paramount interest, owing to their characteristic processing advantages along with excellent …
Fabrication of solderable intense pulsed light sintered hybrid copper for flexible conductive electrodes
Additively printed circuits provide advantages in reduced waste, rapid prototyping, and
versatile flexible substrate choices relative to conventional circuit printing. Copper (Cu) …
versatile flexible substrate choices relative to conventional circuit printing. Copper (Cu) …
Hybrid copper–silver conductive tracks for enhanced oxidation resistance under flash light sintering
We developed a simple method to prepare hybrid copper–silver conductive tracks under
flash light sintering. The developed metal nanoparticle-based ink is convenient because its …
flash light sintering. The developed metal nanoparticle-based ink is convenient because its …