Micro-fluidic device for sorting particles, and methods for sorting particles

The invention claimed is: 1. A micro-fluidic device for sorting particles in a liquid sample, the device comprising a micro-fluidic channel comprising a particle separation region comprising an array of grooves, the grooves being oriented at an angle in the range of 20 degrees to 70 degrees with respect to a main axis of the channel; a means for injecting the liquid sample into said micro-fluidic channel; a means for collecting particles whereby the means for injecting the liquid sample and the means for collecting particles are interconnected via the micro-fluidic channel; and the liquid sample comprising the particles to be sorted, the liquid sample being disposed within the micro-fluidic channel, wherein the dimensions of the micro-fluidic channel are considerably larger than the dimensions of the grooves to prevent confinement effects, the height of the micro-fluidic channel being at least five times the depth of the grooves, the micro-fluidic channel being configured to avoid recirculation effects inside the micro-fluidic channel, and wherein the width and spacing between the grooves is at least 2 times the size of the particles to be sorted. 2. A micro-fluidic device according to claim 1 , wherein the array of grooves is partly patterned at the bottom surface of the micro-fluidic channel such that the bottom surface of the micro-fluidic channel comprises a non-patterned part, and wherein the non-patterned part of the bottom surface is configured to flow-focus the stream of particles. 3. A micro-fluidic device according to claim 1 , wherein the height of the micro-fluidic channel is at least 10 times the depth of the grooves. 4. A micro-fluidic device according to claim 1 , wherein said grooves are open-ended. 5. A micro-fluidic device according to claim 1 , wherein the width of the channel is at least 50 times the width of the grooves. 6. A micro-fluidic device according to claim 1 , wherein the depth of each groove of the array of grooves is at least the size of the particles to be sorted. 7. A micro-fluidic device according to claim 1 , wherein the width and spacing between the grooves is at least 10 times the size of the particles to be sorted. 8. A micro-fluidic device according to claim 1 , wherein the array of grooves are slanted and patterned at the bottom of the surface of the micro-fluidic channel. 9. A micro-fluidic device according to claim 1 , wherein the means for injecting the liquid sample into to the micro-fluidic channel does so in a flow-focused manner. 10. A micro-fluidic device according to claim 1 , wherein the means for injecting the liquid sample comprises at least one inlet. 11. A micro-fluidic device according to claim 1 , wherein the means for injecting the liquid sample comprises an inlet and one or more micro-fluidic channels. 12. A micro-fluidic device according to claim 1 , wherein the means for collecting particles are one or more micro-fluidic channels, the channels being arranged to prevent recombining the segregated streams. 13. A micro-fluidic device according to claim 12 , wherein the channels are evenly spaced, thereby ensuring that they have the same hydrodynamic resistance. 14. A micro-fluidic device according to claim 1 , further comprising a sedimentation region arranged to let particles partly sediment in order to diminish recirculation effects on the particles present above the array of grooves. 15. A method for sorting particles in a liquid sample with a device according to claim 1 , the method comprising injecting the liquid sample into the micro-fluidic channel such that the liquid sample comprising the particles to be sorted is disposed within the micro-fluidic channel, separating the particles with the separation region and capturing streams of different particles with the means for collecting particles. 16. A method according to claim 15 , wherein injecting the liquid sample into the micro-channel is performed in a flow focused manner. 17. A method according to claim 15 , further comprising allowing the sedimentation of the particles in said liquid sample before injecting the liquid sample into the micro-fluidic channel. 18. A method according to claim 15 , the method further comprising adjusting focusing and sample injection flow of one or more micro-fluidic channels for focusing the flow of particles. 19. A method for sorting particles in a liquid sample with a device according to claim 1 , comprising flowing the liquid sample comprising the particles to be sorted in the micro-fluidic channel at an average velocity which is comparable to the sedimentation velocity of said particles. 20. A method for sorting particles in a liquid sample with a device according to claim 1 , comprising flowing the liquid sample comprising the particles to be sorted in the micro-fluidic channel at an average velocity which is substantially larger than the sedimentation velocity of said particles. 21. A micro-fluidic device according to claim 1 , wherein the width and spacing between the grooves is at least 5 times the size of particles to be sorted. 22. A micro-fluidic device according to claim 1 , wherein the array of grooves is fully-patterned at the bottom surface of the micro-fluidic channel. 23. A micro-fluidic device according to claim 1 , wherein the width and spacing between the grooves is at least 5 times the size of particles to be sorted; and the depth of each groove of the array of grooves is at least the size of the particles to be sorted. 24. A method for sorting particles in a liquid sample with a device according to claim 23 , the method comprising injecting the liquid sample comprising the particles to be sorted into the micro-fluidic channel, separating the particles with the separation region and capturing streams of different particles with the means for collecting particles.