Add to ORKGPrinted intelligence is a promising new technology to produce low-cost electronics. Non-conductive circuits can be printed using nanoscale metal particle inks. Due to the nanoscale size of the particles, the typical sintering temperatures of 100-300 °C are only a fraction of the macroscopic melting point of the corresponding materials, thus allowing the use of paper or plastic substrates. Sintering of printed nanoparticle structures using laser treatment has been investigated at VTT. Laser sintering can be utilized in manufacturing of printed conductor structures such as antennas, circuits and sensors. A drop-on demand printer was used to print patterns with metallo-organic silver nanoparticles on a flexible polyimide substrate. Laser sinte...
International audienceAbstract In this work, microwave planar resonators are printed with silver nan...
Printing silver nanoparticle inks to generate conductive structures for electronics on polymer subst...
The fabrication of low-cost and mechanically robust flexible electronic patterns has increasingly ga...
Printed intelligence is a promising new technology to produce low-cost electronics. Non-conductive c...
Development of cost-effective and environmentally friendly manufacturing methods will enable importa...
In this study, the laser sintering of inkjet-printed silver lines was evaluated. Silver-nanoparticle...
As an alternative technology to replace lithographic process, direct printing of conductive nanoflui...
The increasing development of flexible and printed electronics has fueled substantial advancements i...
Printed electronics refers to the technologies of fabricating electronic and optoelectronic devices ...
The variation in electric conductivity was examined for laser irradiation with various beam intensit...
Inkjet printing is a technology available since the late 90’s, and has shown widespread adoption in...
As a nascent technology that developed during the last decades from only printing text and graphics ...
A method for sintering nanoparticles by applying voltage is presented. This electrical sintering met...
Laser sintering of metal nanoparticles is a key technology for high-performance printed electronics ...
Sintering of printed metal nanoparticles can be made not only by conventional heating, but also by, ...
International audienceAbstract In this work, microwave planar resonators are printed with silver nan...
Printing silver nanoparticle inks to generate conductive structures for electronics on polymer subst...
The fabrication of low-cost and mechanically robust flexible electronic patterns has increasingly ga...
Printed intelligence is a promising new technology to produce low-cost electronics. Non-conductive c...
Development of cost-effective and environmentally friendly manufacturing methods will enable importa...
In this study, the laser sintering of inkjet-printed silver lines was evaluated. Silver-nanoparticle...
As an alternative technology to replace lithographic process, direct printing of conductive nanoflui...
The increasing development of flexible and printed electronics has fueled substantial advancements i...
Printed electronics refers to the technologies of fabricating electronic and optoelectronic devices ...
The variation in electric conductivity was examined for laser irradiation with various beam intensit...
Inkjet printing is a technology available since the late 90’s, and has shown widespread adoption in...
As a nascent technology that developed during the last decades from only printing text and graphics ...
A method for sintering nanoparticles by applying voltage is presented. This electrical sintering met...
Laser sintering of metal nanoparticles is a key technology for high-performance printed electronics ...
Sintering of printed metal nanoparticles can be made not only by conventional heating, but also by, ...
International audienceAbstract In this work, microwave planar resonators are printed with silver nan...
Printing silver nanoparticle inks to generate conductive structures for electronics on polymer subst...
The fabrication of low-cost and mechanically robust flexible electronic patterns has increasingly ga...