Biomedical Engineering Reference
In-Depth Information
. 3.. Loo,. C.,. et. al.,. Nanoshell-enabled. photonics-based. imaging. and. therapy. of. cancer,.
Technol.
Cancer Res. Treat.
,.3,.33,.2004.
. 4.. Oldenburg,.S.J.,.et.al.,.Infrared.extinction.properties.of.gold.nanoshells,.
J. Appl. Phys. Lett.
,.75,.
2897,.1999.
. 5.. Nehl,.C.L.,.et.al.,.Scattering.spectra.of.single.gold.nanoshells,.
Nano Lett.
,.4,.2355,.2004.
. 6.. Rasch,. M.R.,. Sokolov,. K.V.,. and. Korgel,. B.A.,. Limitations. on. the. optical. tunability. of. small.
diameter.gold.nanoshells,.
Langmuir
,.25,.11777,.2009.
. 7.. Kawamura,. G.,. et. al.,. Shape. control. synthesis. of. multi-branched. gold. nanoparticles,.
Mater.
Chem. Physics
,.115,.229,.2009.
. 8.. Noguez,.C.,.Surface.plasmons.on.metal.nanoparticles:.the.inluence.of.shape.and.physical.envi-
ronment,.
J. Phys. Chem. C
,.111,.3806,.2007.
. 9.. Nehl,. C.L.,. and. Hafner,. J.H.,. Shape-dependent. plasmon. resonances. of. gold. nanoparticles,.
J.
Mater. Chem.
,.18,.2415,.2008.
. 10.. Song,.J.H.,.et.al.,.Crystal.overgrowth.on.gold.nanorods:.tuning.the.shape,.facet,.aspect.ratio,.
and.compositions.of.the.nanorods,.
Chem. Euro. J.
,.11,.910,.2005.
. 11.. Sanvicens,. N.,. and. Marco,. M.P.,. Multifunctional. nanoparticles—properties. and. prospects. for.
their.use.in.human.medicine,.
Trends Biotechnol.
,.26,.425,.2008.
. 12.. Hu,.M.,.et.al.,.Ultrafast.laser.studies.of.the.photothermal.properties.of.gold.nanocages,.
J. Phys.
Chem. B
,.110,.1520,.2006.
. 13.. Shankar,.S.S.,.Bhargava,.S.,.and.Sastry,.M.,.Synthesis.of.gold.nanospheres.and.nanotriangles.by.
the.Turkevich.approach,.
J. Nanosci. Nanotechnol.
,.5,.1721,.2005.
. 14.. Jin,.R.,.et.al.,.Controlling.anisotropic.nanoparticle.growth.through.plasmon.excitation,.
Nature
,.
425,.487,.2003.
. 15.. Patra,.C.R.,.et.al.,.Fabrication.of.gold.nanoparticles.for.targeted.therapy.in.pancreatic.cancer,.
Adv. Drug Deliv. Rev.
,.62,.346,.2009.
. 16.. Sun,.Y.G.,.and.Xia,.Y.N.,.Shape-controlled.synthesis.of.gold.and.silver.nanoparticles,.
Science
,.
298,.2176,.2002.
. 17.. Chen,.H.,.et.al.,.Shape-.and.size-dependent.refractive.index.sensitivity.of.gold.nanoparticles,.
Langmuir
,.24,.5233,.2008.
. 18.. Tsung,. C.K.,. et. al.,. Shape-. and. orientation-controlled. gold. nanoparticles. formed. within. mes-
oporous.silica.nanoibers,.
Adv. Funct. Mater.
,.16,.2225,.2006.
. 19.. Huang,.X.,.Neretina,.S.,.and.El-Sayed,.M.A.,.Gold.nanorods:.from.synthesis.and.properties.to.
biological.and.biomedical.applications..
Adv. Mater.
,.21,.1,.2009.
. 20.. Song,. K.H.,. Kim,. C.,. and. Cobley,. C.M.,. Near-infrared. gold. nanocages. as. a. new. class. of.
tracers.for.photoacoustic.sentinel.lymph.node.mapping.on.a.rat.model,.
Nano Lett.
,.9,.183,.
2009.
. 21.. Khlebtsov,. N.G.,. and. Dykman,. L.A.,. Optical. properties. and. biomedical. applications. of. plas-
monic.nanoparticles,.
J. Quant. Spectrosc. Radiative Transfer
,.111,.1,.2010.
. 22.. Azzazy,.H.M.,.and.Mansour,.M.M.,.
In vitro
.diagnostic.prospects.of.nanoparticles,.
Clin. Chim.
Acta
,.403,.1,.2009.
. 23.. Baptista,.P.,.et.al.,.Gold.nanoparticles.for.the.development.of.clinical.diagnosis.methods,.
Anal.
Bioanal. Chem.
,.391,.943,.2008.
. 24.. West,.J.L.,.and.Halas,.N.J.,.Engineered.nanomaterials.for.biophotonics.applications:.improving.
sensing,.imaging,.and.therapeutics,.
Annu. Rev. Biomed. Eng.
,.5,.285,.2003.
. 25.. Jain,.P.K.,.et.al.,.Calculated.absorption.and.scattering.properties.of.gold.nanoparticles.of.differ-
ent.size,.shape,.and.composition:.applications.in.biological.imaging.and.biomedicine,.
J. Phys.
Chem. B
,.110,.7238,.2006.
. 26.. Kelly,.K.L.,.et.al.,.The.optical.properties.of.metal.nanoparticles:.the.inluence.of.size,.shape,.and.
dielectric.environment,.
J. Phys. Chem. B
,.107,.668,.2003.
. 27.. Castaneda,.M.T.,.et.al.,.Electrochemical.sensing.of.DNA.using.gold.nanoparticles,.
Electroanalysis
,.
19,.743,.2007.
. 28.. Ratto,. F.,. et. al.,. Photothermal. effects. in. connective. tissues. mediated. by. laser-activated. gold.
nanorods,.
Nanomed. Nanotechnol. Biol. Med.
,.5,.143,.2009.
