Microfluidic nano- to femtoliter printer
Transcription
Microfluidic nano- to femtoliter printer
Microfluidic nano- to femtoliter printer Technology Offering The technology concerns a novel miniaturized and highly automated method for the controlled printing of large arrays of thousands of nano- to femtoliter droplets per second. High-throughput printing and sealing of nano- to femtoliter droplets is of high interest when performing bio-asssays. Its printing of arrays of nanoto femtoliter droplets can lead to deposition of micro- and nanoparticles with single particle resolution, and solid-state materials and on-chip detection or analysis of said particles and solid-state materials. Keywords: Microfluidics, arrays, nanoliter droplet printing, femtoliter printing, assaying Background & basic concept of the technology Parent droplets are electrostatically transported with electrowetting-on-dielectric actuation over an array of conductive elements covered with a hydrophobic insulator on a flexible and reconfigurable way. These parent droplets then release smaller droplets that carry bio-molecules or functionalized particles in an array pattern. Such densely packed arrays (microarrays) permit many reactions to be monitored in parallel, which is beneficial for miniaturization, saving time, volume and increasing cost-effectiveness of the used method. Moreover, these ultralow volumes (down to femtoliter scale) enable fast diffusion times and concentration of generated fluorophores which allows sensitive detection of low concentrations of target molecules. The assay reactions can be binding events of target molecules to capture molecules such as, but not limited to, DNA-DNA interactions, DNA-protein interactions, enzymatic reactions, and immunological assays or for performing digital enzyme-linked immunosorbent assay (digital ELISA) or digital polymerase chain reaction (digital PCR). Advantages & strengths • • • • • • Very high sensitivity combined with full automation and high-throughput High definition diagnostics 1000 times greater sensitivity than conventional immunoassays Multiplexing capabilities Permits many reactions to be monitored in parallel Easy to use, flexible and able to print many different substances as nano- to femtoliter arrays with liquid volumes assuming the desired shape and size • Possibility to use as a stand-alone microfluidic device without external connections Applications & market opportunities Automated analysis of biomolecules in nano- to femtoliter volumes. Patterned deposition of suspended solid-state materials such as micro- to nanoparticles or crystals. Intellectual property status Patents and/or patent applications: Title: Number: Priority Date: PATTERNING DEVICE PCT/BE2013/000004 24 Jan 2012 Collaboration Collaboration sought: KU Leuven Research & Development (LRD), the technology transfer department at the University of Leuven, is looking for interested industrial partners for collaboration and/or licensing opportunities. Additional details are available upon request. The technology has been developed in the KU.Leuven Research unit, Division of Mechatronics, Biostatistics and Sensors (MeBioS), under the supervision of Prof. Jeroen Lammertyn. Contact Ivo Roelants KU Leuven Research & Development Waaistraat 6, box 5105 3000 Leuven, Belgium Tel: +32 16 32 65 22 - Fax: +32 16 32 65 15 E-mail: [email protected] Internal reference: ZL912003