MicroDysis has been building its own patent portfolio from micro- and nano- fabrication platform technologies to bio-arrays, microfluidic devices, and instruments.



micro



3-dimensional micromolding (3DM) to create 3D microstructures in one solid body



nano



A straightforward and effective technique to entrap SWNTs onto a polymer surface. Atomic Force Microscope (AFM) image shows a forest of the carboxylated nanotubes on the PDMS surface.



Carbon nanotubes show their superior properties for binding biomolecules with a three-dimensional nano-architecture and highly dense functional groups on the surfaces. Well-ordered and functionalized carbon nanotubes are very desirable for the sensor, biochip, and many other applications.



The average height of the entrapped SWNTs is around 40 nm. The nanotubular features significantly enhance the sensing surface area to about 10,000 times greater than a blank surface. With the functionalized feature (-COOH groups) on the nanotubes, this technology will find wide applications in binding sensing molecules for DNA assays, protein analysis, and chemical compound and ion detection.



Design and Prototyping



MicroDysis specializes in prototype design and development. The example on the left is a desktop oligonucleotide synthesizer for making oligonucleotide strings in a microfluidic chip in a massively parallel fashion within less than two hours. It gives pharmaceutical companies and universities researchers a low-cost, high-control, and timelier alternative to ordering oligos from a contract research organization.



Desktop to Mobile Applications



MicroDysis develops all applications from desktop PC based equipment to the mobile device based portable and wearable applications.



Video Presentation of MicroDysis Technologies





MicroDysis, Inc., PO Box 3002, Princeton, NJ 08543-3002, USA

MicroDysis Lab: 1200 Florence-Columbus Road, EcoComplex 209, Bordentown, NJ 08505

ph: 609 423 4789, fax: 609 499 3647, email: contactus@microdysis.com,

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