Nanosecond Time-Resolution Study of Gold Nanorod Rotation at the Liquid-Solid Interface. Academic Article

abstract

• Early studies showed that the adsorption of nanorods may start from a special "anchored" state, in which the nanorods lose translational motion but retain rotational freedom. Insight into how the anchored nanorods rotate should provide additional dimensions for understanding particle-surface interactions. Based on conventional time-resolution studies, gold nanorods are thought to continuously rotate following initial interactions with negatively charged glass surfaces. However, this nanosecond time-resolution study reveals that the apparent continuous rotation actually consists of numerous fast, intermittent rotations or transitions between a small number of weakly immobilized states, with the particle resting in the immobilized states most of the time. The actual rotation from one immobilized state to the other happens on a 1ms timescale, that is, approximately 50 times slower than in the bulk solution.

authors

• Ligler, Frances

published proceedings

• Chemphyschem

altmetric score

• 0.5

author list (cited authors)

• Neupane, B., Chen, F., Wei, Y., Fang, N., Ligler, F. S., & Wang, G.

citation count

• 5

complete list of authors

• Neupane, Bhanu||Chen, Fang||Wei, Yanli||Fang, Ning||Ligler, Frances S||Wang, Gufeng

publication date

• July 2016

publisher

• Wiley  Publisher

published in

• ChemPhysChem  Journal

keywords

• Adsorption
• Fluctuation Correlation Spectroscopy
• Gold Nanorods
• Rotation
• Surface Plasmon Resonance

PubMed Central ID

• 27062216

Digital Object Identifier (DOI)

• 10.1002/cphc.201600174

start page

• 2218

end page

• 2224

volume

• 17

issue

• 14

URL

• http://dx.doi.org/10.1002/cphc.201600174