Add to ORKGUltrasonic radiation forces can be used for non-intrusive manipulation and concentration of suspended micrometer-sized particles. For bioanalytical purposes, standing-wave ultrasound has long been used for rapid immuno-agglutination of functionalized latex beads. More recently, detection methods based on laser-scanning fluorometry and single-step homogeneous bead-based assays show promise for fast, easy and sensitive biochemical analysis. If such methods are combined with ultrasonic enhancement, detection limits in the femtomolar region are feasible. In this paper, we review the development of standing-wave ultrasonic manipulation for bioanalysis, with special emphasis on miniaturization and ultrasensitive bead-based immunoassays
Ultrasonic fields can be used to trap and manipulate micron-scale particles and second-phase fluids,...
We combine ultrasonic trapping and capillary electrophoresis (CE) with the goal to detect ultra-low ...
The capture of Bacillus subtilis var. niger spores on an antibody-coated surface can be enhanced whe...
This paper presents the concept and initial work on a microfluidic platform for bead-based analysis ...
This paper proposes a new dynamic mode of generating bioanalytical arrays based on ultrasonic trappi...
The handling of biochemically functionalised beads or particles is becoming increasingly important i...
An emerging demand for the precise manipulation of cells and particles for applications in cell biol...
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...
By sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic...
International audienceThe bioassay of infinitesimal quantities of protein markers in biological samp...
Realisation of a device intended for the manipulation and detection of bead-tagged DNA and other bio...
Acoustofluidics has become a well-established technology in the lab-on-a-chip scientific community. ...
High-frequency (40 MHz) and low-frequency (7 MHz) capacitive micromachined ultrasound transducers (C...
In the past few decades, microfluidic technology has been developed rapidly in both fabrication meth...
Ultrasonic fields can be used to trap and manipulate micron-scale particles and second-phase fluids,...
We combine ultrasonic trapping and capillary electrophoresis (CE) with the goal to detect ultra-low ...
The capture of Bacillus subtilis var. niger spores on an antibody-coated surface can be enhanced whe...
This paper presents the concept and initial work on a microfluidic platform for bead-based analysis ...
This paper proposes a new dynamic mode of generating bioanalytical arrays based on ultrasonic trappi...
The handling of biochemically functionalised beads or particles is becoming increasingly important i...
An emerging demand for the precise manipulation of cells and particles for applications in cell biol...
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...
By sequentially pushing micro-beads towards and away from a sensing surface, we show that ultrasonic...
International audienceThe bioassay of infinitesimal quantities of protein markers in biological samp...
Realisation of a device intended for the manipulation and detection of bead-tagged DNA and other bio...
Acoustofluidics has become a well-established technology in the lab-on-a-chip scientific community. ...
High-frequency (40 MHz) and low-frequency (7 MHz) capacitive micromachined ultrasound transducers (C...
In the past few decades, microfluidic technology has been developed rapidly in both fabrication meth...
Ultrasonic fields can be used to trap and manipulate micron-scale particles and second-phase fluids,...
We combine ultrasonic trapping and capillary electrophoresis (CE) with the goal to detect ultra-low ...
The capture of Bacillus subtilis var. niger spores on an antibody-coated surface can be enhanced whe...