UC Case No. 2016-228
SUMMARY:
UCLA researchers in the Department of Bioengineering have developed a microfluidic droplet generation technique that only uses magnetic forces to emulsify ferrofluid containing solutions.
BACKGROUND:
Digital (or droplet) microfluidics is an emerging liquid-handling technology that can be used in a large range of applications including genome profiling, high throughput digital assays and point-of-care (POC) assays. Traditionally, however, droplets are formed using bulky pressure driven or syringe pump driven flow systems. While this has offered significantly improved control over conventional continuous-flow microfluidics, lack of accurate pumps for particle formation has limited its application in POC formats. There is a need for improved digital microfluidic technology that can adjust flow rates and droplet sizes for use in clinical, POC settings.
INNOVATION:
UCLA researchers in the Department of Bioengineering have developed a droplet formation emulsification device that’s based on magnetic induced flow of ferrofluid. The emulsification is done in a single step and operates without any pumps. Reagents mixed with ferrofluids can be introduced from two or more inlets and mixed prior to emulsification, allowing efficient mixing of reagents on chip and formation of compartmentalized droplets using only a small external magnet. The enhanced control of droplet formation allows for narrow size distributions. This technology provides a complete solution to combine mixing of reagents, rapid droplet generation, and droplet control that can also be applied to portable devices for POC applications.
POTENTIAL APPLICATIONS:
• Digital assays at point-of-care
• Single-cell whole genome amplification
• Controlled polymerization of different type of magnetic polymer or hydrogel particles
• Time-sensitive chemical reactions
• Cell or particle sorting
• Particle purity analysis
ADVANTAGES:
• Uniform particle size
• Tunable particle size and rate of formation
• Pump-free microfluidic device
• Small sample volume required
• Adjustable magnetic particles
• Facile on-chip mixing of different fluids and emulsification
• Precise control of reagent ratio
• High operational pressure
DEVELOPMENT-TO-DATE:
Several setups with single and multiple inlets have been fabricated and tested with 2 different aqueous biocompatible ferrofluids. A 10μL solution was emulsified to 125μm droplets in less than 10 minutes with a one-inlet device. The maximum droplet generation rate can be achieved with a permanent magnet of ~0.1 T surface B-field is about 12 droplets/second for each channel. Parallelized designs allow generation of 100s of droplets/sec. The system was used to successfully perform a nucleic acid amplification assay. A hand held device to achieve the combination of mixing of sample with ferrofluid followed by emulsification reactions and downstream detection is in development.
Related Papers (from the inventors only)