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POSTED BY hunny1625 ON March 11th, 2011
Park Systems’ XE-150 Contributes to Researchers to Develop New Hard-tip, Soft-spring Lithography (HSL) Method
Suwon, South Korea, Feb. 14, 2011- The XE-150 atomic force microscope from Park Systems was featured in a recent Nature article, entitled “Hard-tip, Soft-spring, Lithography.” Nature is a premier publication that disseminates recent scientific advancements from across the disciplines. As described in the article, researchers at Northwestern University’s International Institute for...
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POSTED BY NN Admin ON July 29th, 2009
Image Contest – Early Entries
Below are the first set of entries to the Nanoprobe Network's Image Contest. The person submitting the best image will win an iPod Nano! Enter by July 31. Contest submission instructions are here Azobenzne Assembly Ajeet Kumar Penn State University STM 3D-Image of 1,4-diisocyanobenzene SAMs Florencia Calaza University of Wisconsin-Milwaukee Red Blood Cells Peter Eaton REQUIMTE/University of Porto, Portugal ...
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POSTED BY NN Admin ON March 4th, 2009
Dibutyl Sulfide
This image was submitted by Heather Tierney. Description: This STM image shows a high coverage of dibutyl sulfide on a Au surface. The individual molecules can be seen to form rows which flow over the underlying herringbone stripes from the surface. Read More......
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POSTED BY NN Admin ON December 4th, 2008
Micrographs: A Principle Path to Our Understanding of the Micro and Nano Regimes
Presented by John Randall, Zyvex Lab Micrographs with Info Presentation in PowerPoint format, 92.4 MB Just Micrographs Slide Presentation in PowerPoint format, 78.1 MB Both Presentations with Audio in Zip File, 216 MB [hana-flv-player video="http://nanoprobenetwork.org/wp-content/uploads/2008/12/just-ugraphs_v1_ii.swf" width="400" height="320" /]...
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POSTED BY Nano Probe ON April 3rd, 2008
Patterning Charge
Scanning surface potential micrograph (SSPM) of a pattern written by ferroelectric lithography. The ceramic surface was selectively poled using an atomic force microscope (AFM) and then imaged by SSPM, also via the AFM. In this micrograph, the localized surface dipoles appear as having higher surface potential than the background. ...
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