Add to ORKGStretchable conductive ink is one of the developing technology for the recent decades. In this research, stretchable conductive composite is prepared by using polydimethylsiloxane (PDMS) as substrate and silver nanoparticles (AgNPs) as the conductive material. The ingredients used for the substrate preparation are polydimethylsiloxane-hydroxide (PDMS-OH), fumed silica, toluene, dibutyltin dilaurate and 3-glycidoxypropyl-3 trimethoxysilane. The silver conductive ink was printed on the PDMS substrate and cured at 80°C for 16 hours. Various tests have been conducted to study and investigate the electrical, mechanical and chemical properties of the PDMS-Ag composite. The PDMS-Ag sample shows low electrical resistance which reflects to good ...
The necessity to place sensors far away from the processing unit in smart clothes or artificial skin...
In this work, an effective method was developed to fabricate bendable circuits on a polydimethylsilo...
This paper introduces a cost-effective method for the fabrication of stretchable circuits on polydim...
Stretchable conductive ink is one of the developing technology for the recent decades. In this resea...
The main objective of this project was to fabricate stretchable graphene conductive ink. The stretch...
Several research methodologies have recently been developed to allow for the patterning of conductiv...
An approach to polymer surface modification using self-assembled layers (SALs) of functional alkoxys...
This study reports a facile fabrication method for highly conductive stretchable electrodes composed...
The strain sensor is an essential part of a smart system. In this research, a strain sensor is being...
In recent years, additive manufacturing of polydimethylsiloxane (PDMS) has gained interest for the d...
Smart wearable devices and sensors have been fabricated by screen printing of metal paste as functio...
Thesis (Master's)--University of Washington, 2018Nowadays, conductive ink has attracted our attentio...
The inkjet printing process is a promising electronic printing technique for large-scale, printed, f...
Inkjet printing is a promising technique for large-scale printed flexible and stretchable electronic...
Inkjet printing of conductive tracks on flexible and stretchable materials have gained considerable...
The necessity to place sensors far away from the processing unit in smart clothes or artificial skin...
In this work, an effective method was developed to fabricate bendable circuits on a polydimethylsilo...
This paper introduces a cost-effective method for the fabrication of stretchable circuits on polydim...
Stretchable conductive ink is one of the developing technology for the recent decades. In this resea...
The main objective of this project was to fabricate stretchable graphene conductive ink. The stretch...
Several research methodologies have recently been developed to allow for the patterning of conductiv...
An approach to polymer surface modification using self-assembled layers (SALs) of functional alkoxys...
This study reports a facile fabrication method for highly conductive stretchable electrodes composed...
The strain sensor is an essential part of a smart system. In this research, a strain sensor is being...
In recent years, additive manufacturing of polydimethylsiloxane (PDMS) has gained interest for the d...
Smart wearable devices and sensors have been fabricated by screen printing of metal paste as functio...
Thesis (Master's)--University of Washington, 2018Nowadays, conductive ink has attracted our attentio...
The inkjet printing process is a promising electronic printing technique for large-scale, printed, f...
Inkjet printing is a promising technique for large-scale printed flexible and stretchable electronic...
Inkjet printing of conductive tracks on flexible and stretchable materials have gained considerable...
The necessity to place sensors far away from the processing unit in smart clothes or artificial skin...
In this work, an effective method was developed to fabricate bendable circuits on a polydimethylsilo...
This paper introduces a cost-effective method for the fabrication of stretchable circuits on polydim...