Title :
Rapid microfluidic prototyping of sophisticated protein analysis platforms using grayscale photopatterning
Author :
Duncombe, Todd A. ; Maurer, Kevin ; Herr, Amy E.
Author_Institution :
UC San Francisco Joint Grad. Group in Bioeng., Univ. of California, Berkeley, Berkeley, CA, USA
Abstract :
We present a technique that utilizes hydrogel photopatterning via laser-printed grayscale masks to controllably define non-uniform pore-size distributions from a single <;60s UV exposure and acrylamide precursor solution. This method enables facile and rapid fabrication of spatially complex chromatography tools that are impossible to realize using traditional methods. To highlight its utility we present two workhorse analytical electrophoresis platforms: (1) a 24-plex electrophoresis screening assay in adhesive microfluidics and (2) a 96-plex gradient gel-based protein sizing assay in a free-standing polyacrylamide gel platform.
Keywords :
adhesives; bioMEMS; biochemistry; bioelectric phenomena; chromatography; electrophoresis; hydrogels; laser beam applications; microfluidics; molecular biophysics; photochemistry; porosity; proteins; 24-plex electrophoresis screening assay; 96-plex gradient gel-based protein sizing assay; UV exposure; acrylamide precursor solution; adhesive microfluidics; free-standing polyacrylamide gel platform; grayscale photopatterning; hydrogel photopatterning; laser-printed grayscale masks; nonuniform pore-size distributions; rapid microfluidic prototyping; sophisticated protein analysis platforms; spatially complex chromatography; workhorse analytical electrophoresis platforms; Fabrication; Fluorescence; Gray-scale; Microfluidics; Polymers; Proteins; Reservoirs;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2014 IEEE 27th International Conference on
Conference_Location :
San Francisco, CA
DOI :
10.1109/MEMSYS.2014.6765819
