2013
DOI: 10.1016/j.ijheatmasstransfer.2013.08.018
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An overview of nanoparticle assisted laser therapy

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Cited by 86 publications
(48 citation statements)
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“…NPs can also have a silicon layer sandwiched between the magnetic core and the metal shell. The plasmonic properties of the metal nanoshells in conjunction with the magnetic core properties, which respond to an external magnetic field, hold potential for guided cancer therapy through a synergistic effect, including the use of laser irradiation guided by MRI [165,167,168].…”
Section: Photothermal Therapymentioning
confidence: 99%
“…NPs can also have a silicon layer sandwiched between the magnetic core and the metal shell. The plasmonic properties of the metal nanoshells in conjunction with the magnetic core properties, which respond to an external magnetic field, hold potential for guided cancer therapy through a synergistic effect, including the use of laser irradiation guided by MRI [165,167,168].…”
Section: Photothermal Therapymentioning
confidence: 99%
“…When the incident laser frequency matches the resonant frequency of the localized surface plasmons, the electrons will oscillate with maximum amplitude, known as LSPR. The resonant plasmonic frequency depends on the size, shape, and composition of the metallic NP, as well as its environment [112][113][114][115][116][117]. Figure 5(b) shows the light scattering, absorption, and extinction cross-section for 50 nm AuNP in water, showing a LSPR peak at ~530 nm.…”
Section: Laser Interaction With Plasmonic Npmentioning
confidence: 99%
“…Absorbed photons are transformed into phonons in a process that involves a rapid electron-phonon relaxation, followed by a phonon-phonon relaxation, resulting in an increase of the temperature of the system and by conduction to its surroundings [4][5][6], thus producing local heat (Figure 1). Several papers and reviews have already described how this has been applied to directly kill a cancer cell by hyperthermia [6][7][8][9][10]. Thus, in this article, we will focus on the application of the photothermal effect in photothermally triggered drug delivery.…”
Section: Photothermal Effect: How It Workmentioning
confidence: 99%
“…This is because human tissue absorbs very little in this region of the spectrum (wavelengths between 700 and 1100 nm, the so-called physiologically transparent region or the NIR window due to its position in the spectrum), and therefore this radiation can penetrate very well without causing harm [9]. Gold is the most commonly employed metal in these approaches due to its low inherent toxicity, as demonstrated in many assays (see the 'Toxicity & biodistribution' section at the end of this article) and because it allows for the fabrication of nanostructures that have plasmon absorptions in this region.…”
Section: Photothermal Effect: How It Workmentioning
confidence: 99%