NanoInk Workshop

Tip-Based Lithography for Bioengineers  NanoInk, Inc. 


June 18, 2010 at 10:00 AM 
June 18, 2010 at 03:00 PM 
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California NanoSystems Institute at UCLA 
Westwood Plaza & Charles E Young Dr
CNSI Auditorium
Los Angeles, CA 90095


Workshop Sponsor:

 NanoInk, Inc.
8025 Lamon Ave, Skokie, IL 60077


Sarah Kosar


Technical talks and discussion:
10:00am to 12:00pm
12:00pm to 1:00pm
Product demos and discussion:
1:00pm to 3:00pm

A detailed schedule to follow.

Registration is required!

NanoInk Workshop
Tip-Based Lithography for Bioengineers

Dip Pen Nanolithography (DPN«) is a technique where materials are patterned onto a surface using nanoscale tips.  This technique operates under ambient conditions, making it suitable for the deposition of a wide range of biological, organic, and inorganic materials.  It is capable of patterning features as big as 10 Ám and as small as 20 nm. NLP 2000 System

The nanolithography tools developed at NanoInk maximize the attributes of DPN by combining both top-down and bottom-up capabilities, simplifying the process of simultaneously depositing multiple materials, and enabling researchers to rapidly pattern arbitrary micro- and nanoscale features.

This workshop will highlight some of the most recent applications and protocols related to the deposition of biomaterials using NanoInk’s most recent lithography tool, the NLP 2000 System.

Biomaterials Deposition:  We will demonstrate how we can directly pattern hydrogels, both pure and functionalized, in arbitrary sizes and patterns over large areas (40 mm x 40 mm).  The NLP 2000 System gives researchers the ability to pattern multiple biocompatible polymers at sub-cellular features sizes with nanoscale precision.

Biosensor Functionalization:  The NLP 2000 System can be used to write directly to existing structures, opening up the possibility to functionalize microscale sensor devices with multiple materials.  

Parallel and Multiplexed Depositions:  Using NanoInk’s multiple tip arrays; we will show how we can pattern complex multi-component protein arrays with sub-cellular feature sizes for use in cell adhesion, cell migration, and cell differentiation studies.

Rapid Prototyping:  The generation of new patterns requires a simple change in the pattern entered into the software.  This direct write technique can be used to rapidly prototype arbitrary patterns without having to create a new master stamp or mask for each pattern.

Functionalized Hydrogels

Multiplexed Protein Arrays



Free of charge!

Registration is required by Monday, June 7th!Register Now!