Title :
Overcoming the Diffusion Barrier: Ultra-Fast Micro-Scale Mixing Via Ferrofluids
Author :
Mao, Leidong ; Koser, Hur
Author_Institution :
Yale Univ., New Haven
Abstract :
We report on the design, development, fabrication and characterization of a novel, micro-scale mixing device based on stable water suspensions of magnetic nanoparticles (i.e. ferrofluids). The micromixer prototypes are built using standard microfabrication and simple soft-lithography, and the design can be incorporated as a sub-system into any chemical micro-reactor or a miniaturized biological sensor. The devices achieve mixing virtually instantaneously and may be used to greatly increase mass transport towards chemically or biologically active sites on lab-on-a-chip devices for rapid incubation and highly improved detection sensitivity.
Keywords :
diffusion barriers; hydrodynamics; magnetic fluids; magnetic particles; microfluidics; biologically active sites; chemical microreactor; chemically active sites; diffusion barrier; ferrofluids; ferrohydrodynamics; highly improved detection sensitivity; lab-on-a-chip devices; magnetic nanoparticles; mass transport; micromixer prototypes; microscale mixing device; miniaturized biological sensor; rapid incubation; simple soft-lithography; stable water suspensions; standard microfabrication; ultra-fast microscale mixing; Actuators; Biosensors; Cells (biology); Copper; DNA; Detectors; Electrodes; Fabrication; Nanoparticles; Proteins; ferrofluid; ferrohydrodynamics; micromixer;
Conference_Titel :
Solid-State Sensors, Actuators and Microsystems Conference, 2007. TRANSDUCERS 2007. International
Conference_Location :
Lyon
Print_ISBN :
1-4244-0842-3
Electronic_ISBN :
1-4244-0842-3
DOI :
10.1109/SENSOR.2007.4300511
