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Posted: April 21, 2010
NanoInk's NLP 2000 System Now Supports Three New Nanoscale Biology Applications
(Nanowerk News) NanoInk, Inc. is pleased to announce that its NanoFabrication Systems Division instruments have now been proven to support three new applications of importance to biological research. Leveraging patented Dip Pen Nanolithography® (DPN®) technology, NanoInk has demonstrated the successful use of its NLP 2000 System for functionalizing biosensors, patterning functional hydrogels, and printing multiplexed protein arrays.
Launched in 2009 as a tool for bioscience research, the NLP 2000 System is a simple, user-friendly desktop nanolithography platform. It can deposit sub-micron sized features of a wide variety of materials on virtually any planar surface. The NLP 2000 System employs high resolution nanopositioning stages, greatly simplifying the deposition process. With the launch of three new Application Notes that further validates the utility of the NLP 2000 System in biological applications, NanoInk promises to be a valuable partner to the life science community.
Tom Warwick, NanoInk's general manager of sales and marketing, explained that the first of these Application Notes demonstrates successful use of the NLP 2000 System for the functionalization of cantilever-based biosensors. Micro- and nanocantilevers are the most simplified microelectromechanical (MEMS) based devices available for analyte sensing applications. Nanocantilever biosensors are easily multiplexed and can achieve attogram level sensitivity, so they are particularly well-suited to disease screening, point mutation analysis, blood glucose monitoring, and chemical and biological warfare agent detection. NanoInk has developed a simple and reliable methodology for functionalizing micro- and nanocantilevers using an NLP 2000 System protein deposition approach.
A second new bioscience NLP 2000 System Application Note supports the printing of functional hydrogels. Hydrogels are three-dimensional cross-linked polymer networks that demonstrate physical characteristics very similar to those of natural tissue. As a result, functional hydrogels fabricated at sub-cellular scales have utility in proteomic analyses, drug screening, biological sensor development, and cell culture applications. NanoInk has validated the feasibility of generating consistent and reproducible nanoscale functional PEG hydrogel patterns with the NLP 2000 System.
"With our third new Application Note, we clearly demonstrate that the NLP 2000 System, which is capable of printing multiple substances with nanometer precision at defined locations, is ideal for creating multiplexed protein nanoarrays. Compared to conventional protein microarrays, nanoscale arrays have the benefit of reduced sample and reagent quantities (which lowers assay cost), higher detection sensitivity, improved ability to interrogate sub-cellular features, and better compatibility with lab-on-a-chip technologies," added Warwick.
NanoInk is dedicated to developing and supporting a wide range of biological applications for the NLP 2000 System. These three new Application Notes are just the first step toward proving this commitment.
Please visit www.nanoink.net or call (847) 679-8807 for more information on the NanoFabrication Systems Division, the NLP 2000 System, and related Application Notes.
NanoInk, Inc. is an emerging growth technology company specializing in nanometer-scale manufacturing and applications development for the life science and semiconductor industries. Using Dip Pen Nanolithography® (DPN®), a patented and proprietary nanofabrication technology, scientists are enabled to rapidly and easily create nanoscale structures from a wide variety of materials. This low cost, easy to use and scalable technique brings sophisticated nanofabrication to the laboratory desktop. Located in the new Illinois Science + Technology Park, north of Chicago, NanoInk currently has over 140 patents and applications filed worldwide and has licensing agreements with Northwestern University, Stanford University, University of Strathclyde, University of Liverpool, California Institute of Technology and the University of Illinois at Urbana-Champaign.