Add to ORKGThis paper presents a disposable minimally invasive self-calibrating continuous glucose monitor consisting of hollow out-of-plane microneedles to sample interstitial fluid from the epidermis, an integrated porous poly-Si dialysis membrane and an integrated enzyme-based flow-through glucose sensor. The proposed system can be fabricated on a wafer-level using standard MEMS technology and a novel in-device enzyme immobilization technique that allows wafer-level patterning of enzymes inside micro-scale flow channels after wafer bonding. This technique solves the compatibility issue of high temperature wafer bonding and temperature sensitive enzymes. A prototype of the glucose monitor is fabricated in order to demonstrate the high potential of o...
[[abstract]]A novel fluidic network system for batch enzyme-immobilization and glucose sensing has b...
This article describes the fabrication of tube-like microchannels made of UV curable polymer on a gl...
The next generation of devices for personal healthcare monitoring will comprise molecular sensors to...
Interdisciplinary research between medicine and microsystem engineering creates new possibilities to...
Microneedle enzyme sensors by virtue of their minimally invasive and hence pain-free penetration of ...
New approaches to enable more effective management of diabetes mellitus, such as continuous glucose ...
Abstract Microneedles (MNs) have been established as promising medical devices as they are minimally...
The first invention of glucose biosensor was made by Leland Clark in the mid of 20th century. He wa...
A continuous blood glucose monitoring system (CGMS) which include a microneedle-array blood glucose ...
A set of silicon microneedle arrays was tested and biofunctionalized. All the aspects of the microne...
In this work a novel self-powered microneedle-based transdermal biosensor for pain-free high-accurac...
Abstract Diabetes is a prevalent chronic metabolic disease with multiple clinical manifestations and...
[[abstract]]This paper reports a novel fluidic network dispensing equal amount of enzymes to arrays ...
Abstract- Enzyme based biosensors suffer from loss of activity and sensitivity through a variety of ...
We report fabrication of a microneedle-based three-electrode integrated electrochemical sensor and i...
[[abstract]]A novel fluidic network system for batch enzyme-immobilization and glucose sensing has b...
This article describes the fabrication of tube-like microchannels made of UV curable polymer on a gl...
The next generation of devices for personal healthcare monitoring will comprise molecular sensors to...
Interdisciplinary research between medicine and microsystem engineering creates new possibilities to...
Microneedle enzyme sensors by virtue of their minimally invasive and hence pain-free penetration of ...
New approaches to enable more effective management of diabetes mellitus, such as continuous glucose ...
Abstract Microneedles (MNs) have been established as promising medical devices as they are minimally...
The first invention of glucose biosensor was made by Leland Clark in the mid of 20th century. He wa...
A continuous blood glucose monitoring system (CGMS) which include a microneedle-array blood glucose ...
A set of silicon microneedle arrays was tested and biofunctionalized. All the aspects of the microne...
In this work a novel self-powered microneedle-based transdermal biosensor for pain-free high-accurac...
Abstract Diabetes is a prevalent chronic metabolic disease with multiple clinical manifestations and...
[[abstract]]This paper reports a novel fluidic network dispensing equal amount of enzymes to arrays ...
Abstract- Enzyme based biosensors suffer from loss of activity and sensitivity through a variety of ...
We report fabrication of a microneedle-based three-electrode integrated electrochemical sensor and i...
[[abstract]]A novel fluidic network system for batch enzyme-immobilization and glucose sensing has b...
This article describes the fabrication of tube-like microchannels made of UV curable polymer on a gl...
The next generation of devices for personal healthcare monitoring will comprise molecular sensors to...