In article number 1704451, Jose Marques‐Hueso and co‐workers present a rapid photopatterning method that allows for selective plating of 2D and 3D microcircuity on polyetherimide. Conductive copper tracks as small as 18 μm are accessible by local light‐induced synthesis of silver nanoparticles on the substrate. Applicability of the method for flexible polytherimide films and 3D‐printed substrates shows promise for electronics manufacturing
We report a new materials system for the fabrication of embedded silver grid electrodes with micron-...
Flexible electronics opened a new class of future electronics. The foldable, light and durable natur...
Flexible and printable electronics are attractive techniques which are believed to be widespread and...
In article number 1704451, Jose Marques‐Hueso and co‐workers present a rapid photopatterning method ...
In this work, a method for the rapid synthesis of metallic microtracks on polyetherimide is presente...
Conventionally, flexible and rigid electronics are produced separately using mask-based lithography ...
Conventionally, flexible and rigid electronics are produced separately using mask-based lithography ...
Main aim of the research has been the development of alternative lithography strategies for the fabr...
International audienceA new efficient approach for selective metallization of flexible substrates su...
The preparation of mechanically flexible and optically transparent electronic circuits plays a key r...
Abstract Conductive micro-patterned copper tracks were fabricated by UV direct-writing of a nanopart...
Precise micro-scale patterning of metal thin-films with semiconductor materials is a critical step i...
The development of printing technologies has enabled the realization of electric circuit fabrication...
Printed electronics is a key technology for realizing next generation of wearable electronics that a...
Nowadays preparation of structures on flexible substrates is highly demanded because of using this p...
We report a new materials system for the fabrication of embedded silver grid electrodes with micron-...
Flexible electronics opened a new class of future electronics. The foldable, light and durable natur...
Flexible and printable electronics are attractive techniques which are believed to be widespread and...
In article number 1704451, Jose Marques‐Hueso and co‐workers present a rapid photopatterning method ...
In this work, a method for the rapid synthesis of metallic microtracks on polyetherimide is presente...
Conventionally, flexible and rigid electronics are produced separately using mask-based lithography ...
Conventionally, flexible and rigid electronics are produced separately using mask-based lithography ...
Main aim of the research has been the development of alternative lithography strategies for the fabr...
International audienceA new efficient approach for selective metallization of flexible substrates su...
The preparation of mechanically flexible and optically transparent electronic circuits plays a key r...
Abstract Conductive micro-patterned copper tracks were fabricated by UV direct-writing of a nanopart...
Precise micro-scale patterning of metal thin-films with semiconductor materials is a critical step i...
The development of printing technologies has enabled the realization of electric circuit fabrication...
Printed electronics is a key technology for realizing next generation of wearable electronics that a...
Nowadays preparation of structures on flexible substrates is highly demanded because of using this p...
We report a new materials system for the fabrication of embedded silver grid electrodes with micron-...
Flexible electronics opened a new class of future electronics. The foldable, light and durable natur...
Flexible and printable electronics are attractive techniques which are believed to be widespread and...