Add to ORKGMicrofluidic devices for glucose detection have been constructed and developed by integration of covalently immobilised single-walled carbon nanotube arrays functionalised with glucose oxidase into a poly (dimethylsiloxane)-based microfluidic channel. With biocompatible ferrocenecarboxylic acid as electron transfer mediator, these microfluidic devices were tested systematically for electrochemical glucose detection by changing some geometrical parameters such as the width of detecting electrode as well as electrode gap between the enzyme electrode and the detecting electrode. Numerical simulations were also carried out using a finite difference model and used to further understand the concentration profiles in michochannels. The experimenta...
Point-of-care devices that are inexpensive, disposable, and environmentally friendly are becoming in...
This article reviews current efforts to make glucose sensors based on the inherent optical propertie...
This pioneering study involved the fabrication of a new class of nanohybrid-based electrochemical gl...
Microfluidic devices for glucose detection have been constructed and developed by integration of cov...
Microfluidic devices for glucose detection have been constructed and developed by integration of glu...
Increased sensitivity of glucose sensors is important for enabling detection of very low glucose con...
We developed glucose biosensing electrodes using single-walled carbon nanotube (SWCNT) films on flex...
[[abstract]]This study aims to develop an amperometric glucose biosensor, based on carbon nanotubes ...
Enzymatic glucose electrodes based on mediated electron transfer have potential for application as s...
In this contribution, a reagent free glucose biosensor was prepared based on multi walled carbon na...
In recent years, carbon nanotubes have received widespread attention as promising carbonbased nanoel...
We report for the first time the development of a sensitive and selective glucose biosensor based on...
A simple and efficient method using enzyme immobilized microfluidic channel as open tubular microrea...
[[abstract]]This study aims to develop an amperometric glucose biosensor, based on carbon nanotubes ...
A simple procedure has been described for the fabrication of multi-wall carbon nanotube (CNT) based ...
Point-of-care devices that are inexpensive, disposable, and environmentally friendly are becoming in...
This article reviews current efforts to make glucose sensors based on the inherent optical propertie...
This pioneering study involved the fabrication of a new class of nanohybrid-based electrochemical gl...
Microfluidic devices for glucose detection have been constructed and developed by integration of cov...
Microfluidic devices for glucose detection have been constructed and developed by integration of glu...
Increased sensitivity of glucose sensors is important for enabling detection of very low glucose con...
We developed glucose biosensing electrodes using single-walled carbon nanotube (SWCNT) films on flex...
[[abstract]]This study aims to develop an amperometric glucose biosensor, based on carbon nanotubes ...
Enzymatic glucose electrodes based on mediated electron transfer have potential for application as s...
In this contribution, a reagent free glucose biosensor was prepared based on multi walled carbon na...
In recent years, carbon nanotubes have received widespread attention as promising carbonbased nanoel...
We report for the first time the development of a sensitive and selective glucose biosensor based on...
A simple and efficient method using enzyme immobilized microfluidic channel as open tubular microrea...
[[abstract]]This study aims to develop an amperometric glucose biosensor, based on carbon nanotubes ...
A simple procedure has been described for the fabrication of multi-wall carbon nanotube (CNT) based ...
Point-of-care devices that are inexpensive, disposable, and environmentally friendly are becoming in...
This article reviews current efforts to make glucose sensors based on the inherent optical propertie...
This pioneering study involved the fabrication of a new class of nanohybrid-based electrochemical gl...