Lab-on-a-chip design is a key technology for increasing both the reliability and the functionality of many different preparation and diagnostic techniques in biomedicine. The drive towards ever more integrated lab-on-a-chip designs requires increasingly complex microfluidic systems. In order to build these systems, non-invasive actuators such as pumps, filters and mixers are required (1).We have demonstrated microfluidic sorting based on a 3D interference pattern, formed from multiple coherent laser beams, which has the potential to fulfil all the above criteria (2). By interfering five laser beams from a fibre laser at 1070 nm, we have formed a 3D optical lattice. When particles flow through the optical lattice their trajectories depend up...
We present a unique technique for optical sorting of heterogeneous suspensions of microparticles, wh...
This paper presents the development of a microfluidic device for particle sorting using optical radi...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
Lab-on-a-chip design is a key technology for increasing both the reliability and the functionality o...
Lab-on-a-chip design is a key technology for increasing both the reliability and the functionality o...
The growth of research into microfluidics, especially towards micro-Total Analysis Systems (μTAS), i...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
Sorting (or isolation) and manipulation of rare cells with high recovery rate and purity are of crit...
Abstract Contemporary biomedical research requires development of novel techniques for sorting and m...
The use of an optical lattice produced by means of a five-beam interference pattern to perform fract...
The main trend in optofluidics is currently towards full integration of the devices, thus improving ...
We present a unique technique for optical sorting of heterogeneous suspensions of microparticles, wh...
This paper presents the development of a microfluidic device for particle sorting using optical radi...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
Lab-on-a-chip design is a key technology for increasing both the reliability and the functionality o...
Lab-on-a-chip design is a key technology for increasing both the reliability and the functionality o...
The growth of research into microfluidics, especially towards micro-Total Analysis Systems (μTAS), i...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
Sorting (or isolation) and manipulation of rare cells with high recovery rate and purity are of crit...
Abstract Contemporary biomedical research requires development of novel techniques for sorting and m...
The use of an optical lattice produced by means of a five-beam interference pattern to perform fract...
The main trend in optofluidics is currently towards full integration of the devices, thus improving ...
We present a unique technique for optical sorting of heterogeneous suspensions of microparticles, wh...
This paper presents the development of a microfluidic device for particle sorting using optical radi...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...