Add to ORKGThe design and fabrication of a dielectrophoretic "lab-on-a-chip" device for bioparticle processing and counting is presented. The device consists of a multi-layer travelling wave dielectrophoretic electrode array for manipulating particles and/or fluids, micro channels for delivering samples, and optical fibres for counting particles and/or measuring their velocities. Single particles were detected optically using either light scattering or fluorescence emission. The technology described in this work is potentially applicable to a range of particulate diagnostic systems
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Dielectrophoresis (DEP) is a nondestructive and noninvasive method which is favorable for point-of-c...
Chip based particle sensing using 3D capillary fill microfluidics integrated with monolithically int...
A microflow cytometer has been fabricated that detects and counts fluorescent particles flowing thro...
In this paper, we present an optical system for non-destructive assay of nanoscale biological partic...
We have developed a straightforward optics system for lab on chip applications. This system can be u...
The integration of particle counters within lab-on-chip (LOC) microfluidic devices creates a range o...
We present the design of a mixed-technology microsystem for electronically manipulating and opticall...
The development of a novel photonic integrated platform with three dimensional (3D) capillary flow a...
Integrated optical detection is considered to be an important operation in lab-on-a-chips. This pape...
A major problem for surface-based detection techniques such as surface plasmon resonance and quartz ...
This paper reports a new microfluidic device, optically-induced flow cytometry, capable of continuou...
A system for identifying a particle. The system includes a microfluidic device; a microelectrode arr...
A new design of particle sorting chip is presented. The device employs a dielectrophoretic gate that...
AbstractThis paper presents the study of a novel scintillation detector based on standard microfabri...
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Dielectrophoresis (DEP) is a nondestructive and noninvasive method which is favorable for point-of-c...
Chip based particle sensing using 3D capillary fill microfluidics integrated with monolithically int...
A microflow cytometer has been fabricated that detects and counts fluorescent particles flowing thro...
In this paper, we present an optical system for non-destructive assay of nanoscale biological partic...
We have developed a straightforward optics system for lab on chip applications. This system can be u...
The integration of particle counters within lab-on-chip (LOC) microfluidic devices creates a range o...
We present the design of a mixed-technology microsystem for electronically manipulating and opticall...
The development of a novel photonic integrated platform with three dimensional (3D) capillary flow a...
Integrated optical detection is considered to be an important operation in lab-on-a-chips. This pape...
A major problem for surface-based detection techniques such as surface plasmon resonance and quartz ...
This paper reports a new microfluidic device, optically-induced flow cytometry, capable of continuou...
A system for identifying a particle. The system includes a microfluidic device; a microelectrode arr...
A new design of particle sorting chip is presented. The device employs a dielectrophoretic gate that...
AbstractThis paper presents the study of a novel scintillation detector based on standard microfabri...
The development of lab-on-a-chip (LOC) devices over the past decade has attracted growing interest. ...
Dielectrophoresis (DEP) is a nondestructive and noninvasive method which is favorable for point-of-c...
Chip based particle sensing using 3D capillary fill microfluidics integrated with monolithically int...