Add to ORKGA concept of novel electrochemical in situ self-calibration technique for an oxygen microsensor has been proposed to devise a convenient calibration method without an externally coupled apparatus. Systemic investigations on the influences of various electrochemical (pH) and hydrodynamic (solution stirring) conditions on the proposed microsensor performances are presented. The results suggest that: 1) The calibrating microenvironments can be manipulated with carefully engineered sensor designs and optimized generating signals; 2) The external oxygen permeable membrane is needed to minimize the electrochemical and hydrodynamic interferences
Our group has previously reported the successful development of a steady state microelectrode sensor...
The cathodic reduction of oxygen at Pt, Au and Ag microelectrodes in aqueous solutions, including pu...
Oxygen consumption rate (OCR) is a significant parameter helpful to determine in vitro respiratory e...
Abstract - Biochemical sensors for continuous monitoring require dependable periodic self- diagnosis...
An in situ self-diagnostic technique for a dissolved oxygen microsensor is proposed in an effort to ...
An on-demand in situ self-diagnosis and self-calibration of biochemical sensors is indispensable for...
A new dissolved oxygen monitoring microsystem is proposed to achieve in situ intelligent self-calibr...
We propose a novel method to overcome significant problems of baseline drift and sensitivity degrada...
Dissolved oxygen sensors are extensively used in many fields of industrial processes, medical diagno...
Most of the biochemical sensors exhibit instabilities such as baseline drift and sensitivity degrada...
We present an intelligent microfluidic system with oxidase enzyme coupled biosensors. Baseline (zero...
This work describes the development of an accurate and reliable electrochemical dissolved oxygen sen...
Plant experiments in space will require active nutrient delivery concepts in which water and nutrien...
A Clark-type oxygen sensor based on a silicon thin film transducer is constructed. Onto the chip a m...
In this master thesis, optical dissolved oxygen (DO) sensors are compared to standard electrochemica...
Our group has previously reported the successful development of a steady state microelectrode sensor...
The cathodic reduction of oxygen at Pt, Au and Ag microelectrodes in aqueous solutions, including pu...
Oxygen consumption rate (OCR) is a significant parameter helpful to determine in vitro respiratory e...
Abstract - Biochemical sensors for continuous monitoring require dependable periodic self- diagnosis...
An in situ self-diagnostic technique for a dissolved oxygen microsensor is proposed in an effort to ...
An on-demand in situ self-diagnosis and self-calibration of biochemical sensors is indispensable for...
A new dissolved oxygen monitoring microsystem is proposed to achieve in situ intelligent self-calibr...
We propose a novel method to overcome significant problems of baseline drift and sensitivity degrada...
Dissolved oxygen sensors are extensively used in many fields of industrial processes, medical diagno...
Most of the biochemical sensors exhibit instabilities such as baseline drift and sensitivity degrada...
We present an intelligent microfluidic system with oxidase enzyme coupled biosensors. Baseline (zero...
This work describes the development of an accurate and reliable electrochemical dissolved oxygen sen...
Plant experiments in space will require active nutrient delivery concepts in which water and nutrien...
A Clark-type oxygen sensor based on a silicon thin film transducer is constructed. Onto the chip a m...
In this master thesis, optical dissolved oxygen (DO) sensors are compared to standard electrochemica...
Our group has previously reported the successful development of a steady state microelectrode sensor...
The cathodic reduction of oxygen at Pt, Au and Ag microelectrodes in aqueous solutions, including pu...
Oxygen consumption rate (OCR) is a significant parameter helpful to determine in vitro respiratory e...