Add to ORKGIn this work we have successfully designed, fabricated and extensively characterized a flexible and stretchable temperature sensor that biodegrade in the environment. The design is based on a ultrathin resistance temperature detector (RTD). The core material used is Magnesium, which is transient and biocompatible material. It has been encapsulated from both sides with a transparent and degradable elastomer. It shows high mechanical stability and a transient time of two month
Green electronics on biodegradable substrates from natural sources have gained broad interest becaus...
In this project, a biodegradable material BIOCOM Multi-Degradable Resin will be tested on its shape ...
Abstract Transient electronics that can disappear or degrade via physical disintegration or chemical...
Recent advances in biomaterials, thin film processing, and nanofabrication offer the opportunity to ...
Since the rapid growth of smart technology for the last several years, the trend of technology is fo...
Electronic waste has become a pressing issue, necessitating sustainable solutions for the disposal o...
This work explores the feasibility of temporary implantable devices utilizing an inorganic material ...
Temperature reflects the balance between production and dissipate of heat. Flexible temperature sens...
Biodegradable resonance circuits were studied. The circuits have a novel two-layer resonator structu...
ii Current magnesium and silk materials used in transient devices limit the design possibilities. Pr...
Current magnesium and silk materials used in transient devices limit the design possibilities. Prope...
In the field of flexible electronics, emerging applications require biocompatible and unobtrusive de...
Using wearable devices to monitor respiration rate is essential for reducing the risk of death or pe...
Transient electronics (or biodegradable electronics) is an emerging technology whose key characteris...
Biodegradable nanofibrous polymeric substrates are used to fabricate suturable, elastic, and flexibl...
Green electronics on biodegradable substrates from natural sources have gained broad interest becaus...
In this project, a biodegradable material BIOCOM Multi-Degradable Resin will be tested on its shape ...
Abstract Transient electronics that can disappear or degrade via physical disintegration or chemical...
Recent advances in biomaterials, thin film processing, and nanofabrication offer the opportunity to ...
Since the rapid growth of smart technology for the last several years, the trend of technology is fo...
Electronic waste has become a pressing issue, necessitating sustainable solutions for the disposal o...
This work explores the feasibility of temporary implantable devices utilizing an inorganic material ...
Temperature reflects the balance between production and dissipate of heat. Flexible temperature sens...
Biodegradable resonance circuits were studied. The circuits have a novel two-layer resonator structu...
ii Current magnesium and silk materials used in transient devices limit the design possibilities. Pr...
Current magnesium and silk materials used in transient devices limit the design possibilities. Prope...
In the field of flexible electronics, emerging applications require biocompatible and unobtrusive de...
Using wearable devices to monitor respiration rate is essential for reducing the risk of death or pe...
Transient electronics (or biodegradable electronics) is an emerging technology whose key characteris...
Biodegradable nanofibrous polymeric substrates are used to fabricate suturable, elastic, and flexibl...
Green electronics on biodegradable substrates from natural sources have gained broad interest becaus...
In this project, a biodegradable material BIOCOM Multi-Degradable Resin will be tested on its shape ...
Abstract Transient electronics that can disappear or degrade via physical disintegration or chemical...