Generating features at sub-10 micron in size and as low as femtoliter in volume, Dip Pen Nanolithography technology is truly the ultra-miniaturized solution for precise and multiplexed functionalization of sensors, structures and devices. DPN technology also operates under biocompatible conditions, so can reproducibly deposit chemically or biologically active molecules (such as enzymes, antibodies, DNA fragments, polymers, or other inorganics) on a broad range of sensor devices (including those based on micro cantilevers, field-effect transistors, nanowires, acoustics, optics, plasmonics and electronics) and existing microstructures (such as microfluidic channels, PDMS structures, plastics, membranes, and photomasks.)
Be sure to catch our invited talk, "Directed Fabrication of Transition Metal and Metal Oxide Nanoclusters" on January 3 at 14:00 - Session 3A: Novel Nanofabrication Strategies I presented by Dr. Alexander Smetana. http://www.inec2013.org/
Molecular Medicine Tri-Con 2013 is Cambridge Healthtech Institute's flagship event, advancing applied science and technology. Conference program channels include diagnostics, therapeutics, clinical, informatics, and cancer.
More details are available on NanoInk's web site: http://nanoink.net/upcoming-events.html
Check out NanoInk's new application highlight: Using DPN for Directed Growth of Carbon Nanotubes. Find it on our home page or directly at this link: http://nanoink.net/apphighlight-carbon-nanotubes.html.
Recent examples in biosensing will be presented by NanoInk at NANOMETA 2013 in Seefeld, Austria: http://www.nanometa.org/.
Illinois Science & Technology Park 8025 Lamon Ave Skokie, IL 60077 USA
NanoInk, Inc. is an emerging growth technology company specializing in nanometer-scale manufacturing and applications development for the life sciences, engineering, pharmaceutical, and education industries. Using Dip Pen Nanolithography® (DPN®), a patented and proprietary nanofabrication technology, scientists are enabled to rapidly and easily create micro-and nanoscale structures from a variety of materials on a range of substrates. This low cost, easy to use and scalable technique brings sophisticated nanofabrication to the laboratory desktop.
Specialties: nanopatterning, nanolithography, nanofabrication, dip pen nanolithography, cell biology and microenvironments, nanomaterials, sensor and microstructure functionalization, biomolecules, biomaterials, biointerfaces, protein analysis, nanoscience education, tip-based lithography, nanotechnology
Products & Services: http://nanoink.net/products-services.html