Richard Daniel Schaller

Judd A. and Marjorie Weinberg College of Arts and Sciences, Weinberg Natural Sciences, Chemistry

Scopus Publication Detail

The publication detail shows the title, authors (with indicators showing other profiled authors), information on the publishing organization, abstract and a link to the article in Scopus. This abstract is what is used to create the fingerprint of the publication.

High spatial resolution imaging with near-field scanning optical microscopy in liquids

L.F. Lee; R.D. Schaller; L.H. Haber; R.J. Saykally (Profiled Author: Richard Daniel Schaller)

Analytical Chemistry. 2001;73(21):5015-5019.

The mechanism of tuning fork-based shear-force near-field scanning optical microscopy is investigated to determine optimal experimental conditions for imaging soft samples immersed in liquid. High feedback sensitivity and stability are obtained when only the fiber probe, i.e., excluding the tuning fork prongs, is immersed in solution, which also avoids electrical shorting in conductive (i.e., buffer) solutions. Images of MEH-PPV were obtained with comparable spatial resolution in both air and water. High optical resolution (∼160 nm fwhm) was observed.

PMID: 11721893    

Scientific Context

This section shows information related to the publication - computed using the fingerprint of the publication - including related publications, related experts with fingerprints representing significant amounts of overlap between their fingerprint and this publication. The red dots indicate whether those experts or terms appear within the publication, thereby showing potential and actual connections.