Add to ORKGActive biofluid management is central to the realization of wearable bioanalytical platforms that are poised to autonomously provide frequent, real-time, and accurate measures of biomarkers in epidermally-retrievable biofluids (e.g., sweat). Accordingly, here, a programmable epidermal microfluidic valving system is devised, which is capable of biofluid sampling, routing, and compartmentalization for biomarker analysis. At its core, the system is a network of individually-addressable microheater-controlled thermo-responsive hydrogel valves, augmented with a pressure regulation mechanism to accommodate pressure built-up, when interfacing sweat glands. The active biofluid control achieved by this system is harnessed to create unprecedented wea...
Presented herein are devices for collecting and/or channeling a biofluid (e.g., sweat, tears, saliva...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
This paper presents a method to integrate biocompatible passive microfluidic systems within a sensin...
Active biofluid management is central to the realization of wearable bioanalytical platforms that ar...
Simultaneous access to different biofluids enables an accurate analysis of multiple analytes, leadin...
Simultaneous access to different biofluids enables an accurate analysis of multiple analytes, leadin...
The development of wearable biosensors for continuous noninvasive monitoring of target biomarkers is...
Despite tremendous recent efforts, noninvasive sweat monitoring is still far from delivering its ear...
To track dynamically varying and physiologically relevant biomarker profiles in sweat, autonomous we...
Capabilities in health monitoring enabled by capture and quantitative chemical analysis of sweat cou...
Personal biomarker sensors are poised to transform personalized medicine by providing frequent and r...
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...
Abstract—Textile-based sensors offer an unobtrusive method of continually monitoring physiological p...
The wearable biochemical sweat sensor's capability to provide insight into molecular information of ...
Presented herein are devices for collecting and/or channeling a biofluid (e.g., sweat, tears, saliva...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
This paper presents a method to integrate biocompatible passive microfluidic systems within a sensin...
Active biofluid management is central to the realization of wearable bioanalytical platforms that ar...
Simultaneous access to different biofluids enables an accurate analysis of multiple analytes, leadin...
Simultaneous access to different biofluids enables an accurate analysis of multiple analytes, leadin...
The development of wearable biosensors for continuous noninvasive monitoring of target biomarkers is...
Despite tremendous recent efforts, noninvasive sweat monitoring is still far from delivering its ear...
To track dynamically varying and physiologically relevant biomarker profiles in sweat, autonomous we...
Capabilities in health monitoring enabled by capture and quantitative chemical analysis of sweat cou...
Personal biomarker sensors are poised to transform personalized medicine by providing frequent and r...
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...
Abstract—Textile-based sensors offer an unobtrusive method of continually monitoring physiological p...
The wearable biochemical sweat sensor's capability to provide insight into molecular information of ...
Presented herein are devices for collecting and/or channeling a biofluid (e.g., sweat, tears, saliva...
Wearable sweat sensing is a rapidly rising research area driven by its promising potential in health...
This paper presents a method to integrate biocompatible passive microfluidic systems within a sensin...