Add to ORKGBy sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic radiation forces can be used to enhance the interaction between a functionalized glass surface and polystyrene micro-beads, and distinguish those that bind to the surface, ultimately by using an integrated optical waveguide implanted in the reflector to facilitate optical detection. The movement towards and immobilization of streptavidin coated beads onto a biotin functionalized waveguide surface is achieved by using a quarter-wavelength mode pushing beads onto the surface, while the removal of non-specifically bound beads uses a second quarter-wavelength mode which exhibits a kinetic energy maxima at the boundary between the carrier layer a...
This thesis is embargoed pending a patent application. Please contact the author on ghoss3@gmail.c...
Ultrasonic fields can be used to trap and manipulate micron-scale particles and second-phase fluids,...
Manipulation of micro and nano particles in microfluidic devices with high resolution is a challenge...
By sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic...
AbstractBy sequentially pushing micro-beads towards and away from a sensing surface, we show that ul...
By sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic...
Realisation of a device intended for the manipulation and detection of bead-tagged DNA and other bio...
The handling of biochemically functionalised beads or particles is becoming increasingly important i...
A new acoustic-optical-microfluidic system is presented for the manipulation of bead-tagged DNA mole...
This paper presents the concept and initial work on a microfluidic platform for bead-based analysis ...
Acoustic radiation forces offer a means of manipulating particles within a fluid. Much interest in r...
The paper describes the use of ultrasonic standing waves as bulk acoustic wave actuators, exploiting...
This paper proposes a new dynamic mode of generating bioanalytical arrays based on ultrasonic trappi...
Existing ultrasonic manipulation devices capable of pushing particles to a surface (“quarter-wave” d...
Proteins play a key role in many biological processes and are thus useful indicators of health and d...
This thesis is embargoed pending a patent application. Please contact the author on ghoss3@gmail.c...
Ultrasonic fields can be used to trap and manipulate micron-scale particles and second-phase fluids,...
Manipulation of micro and nano particles in microfluidic devices with high resolution is a challenge...
By sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic...
AbstractBy sequentially pushing micro-beads towards and away from a sensing surface, we show that ul...
By sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic...
Realisation of a device intended for the manipulation and detection of bead-tagged DNA and other bio...
The handling of biochemically functionalised beads or particles is becoming increasingly important i...
A new acoustic-optical-microfluidic system is presented for the manipulation of bead-tagged DNA mole...
This paper presents the concept and initial work on a microfluidic platform for bead-based analysis ...
Acoustic radiation forces offer a means of manipulating particles within a fluid. Much interest in r...
The paper describes the use of ultrasonic standing waves as bulk acoustic wave actuators, exploiting...
This paper proposes a new dynamic mode of generating bioanalytical arrays based on ultrasonic trappi...
Existing ultrasonic manipulation devices capable of pushing particles to a surface (“quarter-wave” d...
Proteins play a key role in many biological processes and are thus useful indicators of health and d...
This thesis is embargoed pending a patent application. Please contact the author on ghoss3@gmail.c...
Ultrasonic fields can be used to trap and manipulate micron-scale particles and second-phase fluids,...
Manipulation of micro and nano particles in microfluidic devices with high resolution is a challenge...