This report describes a convenient method for the fabrication of a miniaturized, reliable Ag/AgCl reference electrode with nanofluidic channels acting as a salt bridge that can be easily integrated into microfluidic chips. The Ag/AgCl reference electrode shows high stability with millivolt variations. We demonstrated the application of this reference electrode in a portable microfluidic chip that is connected to a USB-port microelectrochemical station and to a computer for data collection and analysis. The low fabrication cost of the chip with the potential for mass production makes it disposable and an excellent candidate for real-world analysis and measurement. We used the chip to quantitatively analyze the concentrations of heavy metal i...
The subject of this work was the construction and long term stability measurement of micro-reference...
In this study, an ultramicro interdigital electrode array chip (UIEA) was designed and fabricated by...
The need for potable water is increasing with the ever-increasing world population. Further developm...
Aggravating pressures on the world’s water resources are likely to continue due to growth in populat...
A new concept of a solid reference electrode integrated with microfluidic paper-based sampling was i...
We describe the fabrication process and characterization of polymer coated multielectrode array chip...
To improve the reference potential stability of on-chip amperometric sensors, we propose a novel int...
[[abstract]]A new technique to fabricate planar solid-state reference electrodes for ISFET sensors i...
[[abstract]]To miniaturize the size of conventional reference electrode and achieve the requirement ...
Electroanalysis offers cheap and selective analysis of interesting solutions. However, one of the mo...
Potentiometry provides a simple but powerful platform technology to determine the concentration of s...
Over the past two decades, there has been an increasing trend towards miniaturization of both biolog...
The design of a solid state practical reference electrode, consisting of very simple fabrication st...
To be able to monitor concentration of hazardous metal ions in the environment using a simple, quick...
Micromachined glucose sensors were fabricated and integrated with the plasma-treated Ag/AgCl refere...
The subject of this work was the construction and long term stability measurement of micro-reference...
In this study, an ultramicro interdigital electrode array chip (UIEA) was designed and fabricated by...
The need for potable water is increasing with the ever-increasing world population. Further developm...
Aggravating pressures on the world’s water resources are likely to continue due to growth in populat...
A new concept of a solid reference electrode integrated with microfluidic paper-based sampling was i...
We describe the fabrication process and characterization of polymer coated multielectrode array chip...
To improve the reference potential stability of on-chip amperometric sensors, we propose a novel int...
[[abstract]]A new technique to fabricate planar solid-state reference electrodes for ISFET sensors i...
[[abstract]]To miniaturize the size of conventional reference electrode and achieve the requirement ...
Electroanalysis offers cheap and selective analysis of interesting solutions. However, one of the mo...
Potentiometry provides a simple but powerful platform technology to determine the concentration of s...
Over the past two decades, there has been an increasing trend towards miniaturization of both biolog...
The design of a solid state practical reference electrode, consisting of very simple fabrication st...
To be able to monitor concentration of hazardous metal ions in the environment using a simple, quick...
Micromachined glucose sensors were fabricated and integrated with the plasma-treated Ag/AgCl refere...
The subject of this work was the construction and long term stability measurement of micro-reference...
In this study, an ultramicro interdigital electrode array chip (UIEA) was designed and fabricated by...
The need for potable water is increasing with the ever-increasing world population. Further developm...