Biomedical Engineering Reference
In-Depth Information
Acknowledgments
This work has been supported by the US Department of Energy
DOE-BES Grant No. DE-FG02-02ER45977 (for near-field energy
transport) and by the US Department of Energy under the SunShot
grant No. 6924527 (for alternative ways of manipulating photon
trapping andrecycling).
References
1. Stockman,M.I.,Nanoplasmonics:Past,present,andglimpseintofuture.
Opt. Express
, 2011,
19
(22),pp. 22029-22106.
2. Halas,N.J.,etal.,Plasmonsinstronglycoupledmetallicnanostructures.
Chem. Rev
., 2011,
111
(6),pp. 3913-3961.
3. Schuller, J.A., et al., Plasmonics for extreme light concentration and
manipulation.
Nat. Mater
., 2010,
9
(3),pp. 193-204.
4. Sherry, L.J., et al., Localized surface plasmon resonance spectroscopy of
single silver nanocubes.
Nano Lett
., 2005,
5
(10), pp. 2034-2038.
5. Lal, S., S. Link, and N.J. Halas, Nano-optics from sensing to waveguiding.
Nat. Photon.
, 2007,
1
(11),pp. 641-648.
6. Lee,S.Y.,etal.,Spatialandspectraldetectionofproteinmonolayerswith
deterministic aperiodic arrays of metal nanoparticles.
Proc. Natl. Acad.
Sci. U S A
, 2010,
107
(27),pp. 12086-12090.
7. Wang, J., et al., Illuminating epidermal growth factor receptor densities
onfilopodiathroughplasmoncoupling.
ACS Nano
,2011,
5
(8),pp.6619-
6628.
8. Gopinath,A.,etal.,Deterministicaperiodicarraysofmetalnanoparticles
for surface-enhanced Raman scattering (SERS).
Opt. Express
, 2009,
17
(5),pp. 3741-3753.
9. Wang, J., et al., Spectroscopic ultra-trace detection of nitro-aromatic gas
vapor on rationally designed nanoparticle cluster arrays.
Anal. Chem
.,
2011,
83
(6),pp. 2243-2249.
10. Lee, S.J., et al., Surface-enhanced Raman spectroscopy and nanogeome-
try: The plasmonic origin of SERS.
J. Phys. Chem. C
, 2007,
111
(49), pp.
17985-17988.
11. Moskovits, M., et al., SERS and the single molecule, in
Optical Properties
of Nanostructured Random Media,
2002, Berlin, Springer-Verlag, pp.
215-226.
