High-speed on demand microfluidic droplet generation and manipulation

The invention claimed is: 1. A microfluidic droplet generator, said generator comprising: a first microfluidic channel containing a first fluid adjacent to a second microfluidic channel containing a second fluid wherein said first fluid is substantially immiscible in second fluid; and a cavitation channel or chamber where the contents of said cavitation channel or chamber is separated from the contents of said first microfluidic channel by a deformable channel wall or chamber wall, where said cavitation channel or chamber is configured to permit said deformable channel wall or chamber wall to deform when a bubble is formed in said cavitation channel or chamber, and where said cavitation channel or chamber is disposed above or below said first microfluidic channel. 2. The droplet generator of claim 1 , wherein, said first microfluidic channel is in fluid communication with said second microfluidic channel via a port or a channel. 3. The droplet generator of claim 1 , where a first portion of said first microfluidic channel is disposed a first distance away from said second microfluidic channel, and a second portion of said first microfluidic channel is disposed a second distance away from said second microfluidic channel and said second distance is less than said first distance. 4. The droplet generator of claim 3 , wherein said first microfluidic channel comprises a third portion disposed so that said second portion is located between said first portion and said third portion and said third portion of said microfluidic channel is located at a third distance away from said second microfluidic channel and said third distance is greater than said second distance. 5. The droplet generator of claim 1 , wherein: the maximum width of said first microfluidic channel and/or said second microfluidic channel ranges from about 0.1 μm to about 500 μm; and/or the maximum depth of said first microfluidic channel and/or said second microfluidic channel ranges from about 0.1 μm to about 500 μm. 6. The droplet generator of claim 1 , wherein: said droplet generator is configured to generate droplets having a volume ranging from about 1 atto L to about 1 μL; or said droplet generator is configured to generate droplets having a volume ranging from about 1 pL to about 150 pL. 7. The droplet generator of claim 1 , wherein said cavitation channel or chamber is a cavitation channel. 8. The droplet generator of claim 7 , wherein said cavitation channel provides permits the contents of said channel to flow and thereby aid dissipation of a bubble formed therein. 9. The droplet generator of claim 1 , wherein: said cavitation channel or chamber is disposed above said first microfluidic channel; or said cavitation channel or chamber is disposed below said first microfluidic channel. 10. The droplet generator of claim 1 , wherein: said cavitation channel or chamber contains a dye; and/or said cavitation channel or chamber contains light-absorbing nanoparticle and/or microparticles. 11. The droplet generator of claim 1 , wherein said first microfluidic channel is configured to provide said first fluid under a substantially static pressure to create a stable interface between said first fluid and said second fluid. 12. The droplet generator of claim 1 , wherein: said first fluid comprises an aqueous fluid; and said second fluid comprises an oil or an organic solvent. 13. The droplet generator of claim 1 , wherein: said first and/or second microfluidic channel is formed from a material selected from the group consisting of glass, metal, ceramic, mineral, plastic, and polymer; and/or said first and/or second microfluidic channel is formed from an elastomeric material. 14. The droplet generator of claim 1 , wherein: said generator can provide on-demand droplet generation at a speed of greater than about 1,000, more preferably greater than about 2,000 droplets/sec, more preferably greater than about 4,000 droplets/sec, more preferably greater than about 6,000 droplets/sec, or more preferably greater than about 8,000 droplets/sec; and/or said generator can provide on-demand droplet generation at a speed ranging from zero droplets/sec, 1 droplets/sec, 2 droplets/sec, about 5 droplets/sec, about 10 droplets/sec, about 20 droplets/sec, about 50 droplets/sec, about 100 droplets/sec, about 500 droplets/sec, or about 1000 droplets/sec, up to about 1,500 droplets/sec, about 2,000 droplets/sec, about 4,000 droplets/sec, about 6,000 droplets/sec, about 8,000 droplets/sec, about 10,000 droplets/sec, about 20,000 droplets/sec, about 50,000 droplets/sec, or about 100,000 droplets/sec; and/or said generator can provide on-demand droplet generation at a speed of greater than about 1,000, more preferably greater than about 10,000, more preferably greater than about 20,000 droplets/sec, more preferably greater than about 40,000, more preferably greater than about 50,000 droplets/sec, more preferably greater than about 80,000, or more preferably greater than about 100,000 droplets/sec. 15. The droplet generator of claim 1 , wherein said generator is present in a system comprising an energy source configured to form a bubble in said cavitation channel or chamber, where said energy source is selected from the group consisting of an optical energy source or a microwave emitter. 16. The droplet generator of claim 15 , wherein said energy source comprises a laser. 17. The droplet of claim 1 , wherein: said generator is integrated with other microfluidic components selected from the group consisting of PDMS channels, wells, valves; and/or said generator is a component of a lab-on-a-chip. 18. A device for the manipulation of microfluidic droplets, said device comprising a substrate carrying or comprising: one or more droplet generators of claim 1 ; and optionally one or more droplet merger components. 19. The device of claim 18 , wherein: a plurality of droplet generators are configured to share a common second microfluidic channel and to inject droplets into said common second microfluidic channel; and/or a droplet merger component is disposed to receive and merge droplets from said common second microfluidic channel. 20. A system for the generation of droplets and/or the encapsulation of particles or cells said, said system comprising a droplet generator of claim 1 and an excitation source for forming gas bubbles in a fluid. 21. The system of claim 20 , wherein said excitation source comprises a laser or a non-coherent optical energy source. 22. The system of claim 20 , wherein: said system comprises a controller that adjusts at least one of the timing of occurrence of light pulses emitted by the optical energy source, the frequency of occurrence of pulses emitted by the optical energy source, the wavelength of pulses emitted by the optical energy source, the energy of pulses emitted by the optical energy source, and the aiming or location of pulses emitted by the optical energy source; and/or said system further comprises components for detecting particles, droplets, or cells in said system. 23. A method for generating droplets said method comprising: applying an energy source to a droplet generator of claim 1 , where said energy source forms bubbles in said cavitation channel or chamber to deform said deformable channel wall or chamber wall and to inject a droplet of said first fluid into said second fluid in said second microfluidic channel. 24. A method