Add to ORKGNear infrared(NIR) sintering technology is a photonic sintering approach for metal nanoparticle inks, which can selectively sinter metal nanoparticle inks more quickly and efficiently, and it is also compatible with high-throughput manufacturing processes. In this paper, silver nanoparticle (AgNP) ink sintered by near infrared light at a peak wavelength of 1100 nm was investigated. After only 8 seconds of exposure to NIR irradiation, resistivity of 2.78 μΩ cm was achieved for thin films printed with AgNP ink, which was only 1.7-fold higher than that of bulk silver (1.59 μΩ cm). The structure of the sintered silver film was examined by sintering printed silver nanoparticle ink samples having different thicknesses, and the results showed that...
Additive manufacturing for electronics is one of the world's fastest growing technologies in recent ...
Owing to its unique properties, silver (Ag) in the form of nanoparticle (NP) ink promises to play a ...
Drying and sintering of conductive nanoparticle inks for printed electronics attracts more and more ...
Near infrared(NIR) sintering technology is a photonic sintering approach for metal nanoparticle inks...
Printed electronics on flexible substrates has attracted tremendous research interest research thank...
The presented thesis addresses the composition, inkjet-printing and low-temperature sintering of the...
3-dimensional (3D) printed electronics is one of the world’s fastest growing technologies in recent ...
Sintering of printed metal nanoparticles can be made not only by conventional heating, but also by, ...
As an alternative technology to replace lithographic process, direct printing of conductive nanoflui...
In this study, the sintering behavior of silver (Ag) nanoparticle inks was investigated when differe...
Inkjet printing of various nanoparticle inks, made from silver or copper nanoparticles, and its tran...
Despite the advancement of additive manufacturing (AM)/3-dimensional (3D) printing, single-step fabr...
Silver nanoparticles (Ag NPs) of ~ 6 nm in size were synthesized by the reduction of silver 2-[2-(2-...
The fabrication of low-cost and mechanically robust flexible electronic patterns has increasingly ga...
Printing silver nanoparticle inks to generate conductive structures for electronics on polymer subst...
Additive manufacturing for electronics is one of the world's fastest growing technologies in recent ...
Owing to its unique properties, silver (Ag) in the form of nanoparticle (NP) ink promises to play a ...
Drying and sintering of conductive nanoparticle inks for printed electronics attracts more and more ...
Near infrared(NIR) sintering technology is a photonic sintering approach for metal nanoparticle inks...
Printed electronics on flexible substrates has attracted tremendous research interest research thank...
The presented thesis addresses the composition, inkjet-printing and low-temperature sintering of the...
3-dimensional (3D) printed electronics is one of the world’s fastest growing technologies in recent ...
Sintering of printed metal nanoparticles can be made not only by conventional heating, but also by, ...
As an alternative technology to replace lithographic process, direct printing of conductive nanoflui...
In this study, the sintering behavior of silver (Ag) nanoparticle inks was investigated when differe...
Inkjet printing of various nanoparticle inks, made from silver or copper nanoparticles, and its tran...
Despite the advancement of additive manufacturing (AM)/3-dimensional (3D) printing, single-step fabr...
Silver nanoparticles (Ag NPs) of ~ 6 nm in size were synthesized by the reduction of silver 2-[2-(2-...
The fabrication of low-cost and mechanically robust flexible electronic patterns has increasingly ga...
Printing silver nanoparticle inks to generate conductive structures for electronics on polymer subst...
Additive manufacturing for electronics is one of the world's fastest growing technologies in recent ...
Owing to its unique properties, silver (Ag) in the form of nanoparticle (NP) ink promises to play a ...
Drying and sintering of conductive nanoparticle inks for printed electronics attracts more and more ...