Add to ORKGThis paper presents a method to integrate biocompatible passive microfluidic systems within a sensing platform to allow continuous analysis of sweat in a wearable microsystem. The technology is promising for miniaturization of systems to enable access to biochemical information at the surface of human skin. The microfluidics are originally designed to work with ultra-low volumes of liquid to enable sweat analysis at any physiological situation (during intense physical activity or when at rest). Flow rates vary from 10s to 100s of pico-liters per second which can be adjusted by design. Capillary forces are used to move the liquid inside the microchannels in order to avoid power consumption. The SU8-based process is compatible with standard s...
Wearables are becoming pervasive in our society, but they are still mainly based on physical sensors...
This paper reports a novel fully integrated low power multi-sensing smart system, which, by wafer-le...
AbstractThis paper presents the fabrication and the performance of a novel, wearable, robust, flexib...
Wearable systems could offer noninvasive and real-time solutions for monitoring of biomarkers in hum...
In this work the development of an autonomous, robust and wearable micro-fluidic platform capable of...
Here we present the fabrication and the performance of a novel, wearable, robust, flexible and dispo...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
The development of nanotechnologies, and the advent of micro/nano-sensors with novel functionalities...
Capabilities in health monitoring enabled by capture and quantitative chemical analysis of sweat cou...
In this work a robust, non-invasive and wearable micro-fluidic system was developed and employed to ...
In this work the development of an autonomous, robust and wearable micro-fluidic platform capable of...
This paper presents the fabrication and the performance of a novel, wearable, robust, flexible and d...
AbstractIn this work the development of an autonomous, robust and wearable micro-fluidic platform ca...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
Wearable sweat sensing systems offer non-invasive and real-time bio-data streaming solutions. They o...
Wearables are becoming pervasive in our society, but they are still mainly based on physical sensors...
This paper reports a novel fully integrated low power multi-sensing smart system, which, by wafer-le...
AbstractThis paper presents the fabrication and the performance of a novel, wearable, robust, flexib...
Wearable systems could offer noninvasive and real-time solutions for monitoring of biomarkers in hum...
In this work the development of an autonomous, robust and wearable micro-fluidic platform capable of...
Here we present the fabrication and the performance of a novel, wearable, robust, flexible and dispo...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
The development of nanotechnologies, and the advent of micro/nano-sensors with novel functionalities...
Capabilities in health monitoring enabled by capture and quantitative chemical analysis of sweat cou...
In this work a robust, non-invasive and wearable micro-fluidic system was developed and employed to ...
In this work the development of an autonomous, robust and wearable micro-fluidic platform capable of...
This paper presents the fabrication and the performance of a novel, wearable, robust, flexible and d...
AbstractIn this work the development of an autonomous, robust and wearable micro-fluidic platform ca...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
Wearable sweat sensing systems offer non-invasive and real-time bio-data streaming solutions. They o...
Wearables are becoming pervasive in our society, but they are still mainly based on physical sensors...
This paper reports a novel fully integrated low power multi-sensing smart system, which, by wafer-le...
AbstractThis paper presents the fabrication and the performance of a novel, wearable, robust, flexib...