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Title: Microscale fluid transport using optically controlled marangoni effect

Patent ·
OSTI ID:1018324
 [1];  [1];  [2]
  1. Knoxville, TN
  2. Oak Ridge, TN
+ Show Author Affiliations

Low energy light illumination and either a doped semiconductor surface or a surface-plasmon supporting surface are used in combination for manipulating a fluid on the surface in the absence of any applied electric fields or flow channels. Precise control of fluid flow is achieved by applying focused or tightly collimated low energy light to the surface-fluid interface. In the first embodiment, with an appropriate dopant level in the semiconductor substrate, optically excited charge carriers are made to move to the surface when illuminated. In a second embodiment, with a thin-film noble metal surface on a dispersive substrate, optically excited surface plasmons are created for fluid manipulation. This electrode-less optical control of the Marangoni effect provides re-configurable manipulations of fluid flow, thereby paving the way for reprogrammable microfluidic devices.

Research Organization:
UT-Battelle LLC/ORNL, Oak Ridge, TN (United States)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC05-00OR22725
Assignee:
UT-Battelle, LLC (Oak Ridge, TN)
Patent Number(s):
7,939,811
Application Number:
11/778,162
OSTI ID:
1018324
Country of Publication:
United States
Language:
English

References (8)

The use of the surface plasmons resonance sensor in the study of the influence of “allotropic” cells on water journal April 2004
Marangoni forces created by surface plasmon decay journal January 2005
Modulation of multiple photon energies by use of surface plasmons journal January 2005
Probing large area surface plasmon interference in thin metal films using photon scanning tunneling microscopy journal August 2004
Nonradiative surface plasmon assisted microscale Marangoni forces journal June 2006
Microscale Marangoni actuation: All-optical and all-electrical methods journal June 2006
Fiber optic sensor based on gold island plasmon resonance journal January 1999
Microfluidic manipulation via Marangoni forces journal November 2004

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Related Subjects

77 NANOSCIENCE AND NANOTECHNOLOGY