Add to ORKGPrecursor (Metal-organic decomposition (MOD)) inks are used to fabricate 2D and 3D printed conductive structures directly onto a substrate. By formulating a nanoalloy structure containing multiple metals, the opportunity to modify chemical and physical properties exists. In this paper, a copper-nickel bimetallic nanoalloy film was fabricated by mixing copper and nickel precursor inks and sintering them in vacuum. The individual elemental inks were formulated and characterized using SEM, EDS, and XRD. During thermal processing, elemental copper forms first and is followed by the formation of bimetallic copper-nickel alloy. The encapsulation of the underlying copper by the nickel-rich alloy provides excellent oxidation resistance. No change i...
In this study, a thermally triggered self-reducible copper ink is developed to print conductive patt...
In the growing and ever-evolving world of technology, the prospect of printable and flexible electro...
4D printing has the potential to create complex 3D geometries which are able to react to environment...
Precursor (Metal-organic decomposition (MOD)) inks are used to fabricate 2D and 3D printed conductiv...
3D printing of multifunctional components using two or more materials is a rapidly growing area of r...
This paper is focused on copper–nickel nanoparticle resistive inks compatible with thick printed cop...
This paper is focused on copper–nickel nanoparticle resistive inks compatible with thick printed cop...
The aim of this work is preparation and investigation of copper conductive paths by printing with a ...
In the past few years, the synthesis of Cu nanoparticles has attracted much attention because of its...
Metal-organic decomposition (MOD) inks have been developed for printed electronics applications. Cu-...
ABSTRACT: There is an increasing need for 3D printing of metallic structures in a green and cost-eff...
Research was conducted for the development of formulations for additive manufacturing of metal nanop...
Printed electronics is an emerging manufacturing technology with applications in consumer electronic...
Printable functional materials opened up a new area of applications that have immense market potenti...
A new manufacturing paradigm may lower the cost and environmental impact of existing products, as we...
In this study, a thermally triggered self-reducible copper ink is developed to print conductive patt...
In the growing and ever-evolving world of technology, the prospect of printable and flexible electro...
4D printing has the potential to create complex 3D geometries which are able to react to environment...
Precursor (Metal-organic decomposition (MOD)) inks are used to fabricate 2D and 3D printed conductiv...
3D printing of multifunctional components using two or more materials is a rapidly growing area of r...
This paper is focused on copper–nickel nanoparticle resistive inks compatible with thick printed cop...
This paper is focused on copper–nickel nanoparticle resistive inks compatible with thick printed cop...
The aim of this work is preparation and investigation of copper conductive paths by printing with a ...
In the past few years, the synthesis of Cu nanoparticles has attracted much attention because of its...
Metal-organic decomposition (MOD) inks have been developed for printed electronics applications. Cu-...
ABSTRACT: There is an increasing need for 3D printing of metallic structures in a green and cost-eff...
Research was conducted for the development of formulations for additive manufacturing of metal nanop...
Printed electronics is an emerging manufacturing technology with applications in consumer electronic...
Printable functional materials opened up a new area of applications that have immense market potenti...
A new manufacturing paradigm may lower the cost and environmental impact of existing products, as we...
In this study, a thermally triggered self-reducible copper ink is developed to print conductive patt...
In the growing and ever-evolving world of technology, the prospect of printable and flexible electro...
4D printing has the potential to create complex 3D geometries which are able to react to environment...