Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows

Laura Martinez Maestro; Enrique Camarillo; Jose A. Sanchez-Gil; Rogelio Rodriguez-Oliveros; J. Ramiro-Bargueno; A. J. Caamano; Francisco Jaque; Jose Garcia Sole; Daniel Jaque

doi:10.1039/c4ra08956a

Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows

Laura Martinez Maestro, Enrique Camarillo, Jose A. Sanchez-Gil, Rogelio Rodriguez-Oliveros, J. Ramiro-Bargueno, A. J. Caamano, Francisco Jaque, Jose Garcia Sole, Daniel Jaque

Research output: Contribution to journal › Article › peer-review

Abstract

The light-to-heat conversion efficiency of gold nanorods (GNRs) with surface plasmon resonances in the first (700–950 nm) and second (1000–1350 nm) biological windows has been studied by Quantum Dot based Fluorescence Nanothermometry. It has been found that red-shifting the GNR longitudinal surface plasmon resonance wavelength (λSPR) from the first to the second biological window is accompanied by a remarkable (close to 40%) reduction in their heating efficiency. Based on numerical simulations, we have concluded that this lower heating efficiency is caused by a reduction in the absorption efficiency (ratio between absorption and extinction cross sections). Thermal stability and ex vivo experiments have corroborated that GNRs with λSPR at around 800 nm seem to be especially suitable for efficient photothermal therapies with minimum collateral effects.

Original language	English
Pages (from-to)	54122-54129
Number of pages	8
Journal	RSC Advances
Volume	4
Issue number	96
DOIs	https://doi.org/10.1039/c4ra08956a
Publication status	Published - 2014

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10.1039/c4ra08956a

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Martinez Maestro, L., Camarillo, E., Sanchez-Gil, J. A., Rodriguez-Oliveros, R., Ramiro-Bargueno, J., Caamano, A. J., Jaque, F., Garcia Sole, J., & Jaque, D. (2014). Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows. RSC Advances, 4(96), 54122-54129. https://doi.org/10.1039/c4ra08956a

@article{516e11a69d5d4399b3df6d0ce87744b3,

title = "Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows",

abstract = "The light-to-heat conversion efficiency of gold nanorods (GNRs) with surface plasmon resonances in the first (700–950 nm) and second (1000–1350 nm) biological windows has been studied by Quantum Dot based Fluorescence Nanothermometry. It has been found that red-shifting the GNR longitudinal surface plasmon resonance wavelength (λSPR) from the first to the second biological window is accompanied by a remarkable (close to 40%) reduction in their heating efficiency. Based on numerical simulations, we have concluded that this lower heating efficiency is caused by a reduction in the absorption efficiency (ratio between absorption and extinction cross sections). Thermal stability and ex vivo experiments have corroborated that GNRs with λSPR at around 800 nm seem to be especially suitable for efficient photothermal therapies with minimum collateral effects.",

author = "{Martinez Maestro}, Laura and Enrique Camarillo and Sanchez-Gil, {Jose A.} and Rogelio Rodriguez-Oliveros and J. Ramiro-Bargueno and Caamano, {A. J.} and Francisco Jaque and {Garcia Sole}, Jose and Daniel Jaque",

year = "2014",

doi = "10.1039/c4ra08956a",

language = "English",

volume = "4",

pages = "54122--54129",

journal = "RSC Advances",

issn = "2046-2069",

publisher = "Royal Society of Chemistry",

number = "96",

}

Martinez Maestro, L, Camarillo, E, Sanchez-Gil, JA, Rodriguez-Oliveros, R, Ramiro-Bargueno, J, Caamano, AJ, Jaque, F, Garcia Sole, J & Jaque, D 2014, 'Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows', RSC Advances, vol. 4, no. 96, pp. 54122-54129. https://doi.org/10.1039/c4ra08956a

Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows. / Martinez Maestro, Laura; Camarillo, Enrique; Sanchez-Gil, Jose A. et al.
In: RSC Advances, Vol. 4, No. 96, 2014, p. 54122-54129.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows

T2 - the influence of irradiating in the first and second biological windows

AU - Martinez Maestro, Laura

AU - Camarillo, Enrique

AU - Sanchez-Gil, Jose A.

AU - Rodriguez-Oliveros, Rogelio

AU - Ramiro-Bargueno, J.

AU - Caamano, A. J.

AU - Jaque, Francisco

AU - Garcia Sole, Jose

AU - Jaque, Daniel

PY - 2014

Y1 - 2014

N2 - The light-to-heat conversion efficiency of gold nanorods (GNRs) with surface plasmon resonances in the first (700–950 nm) and second (1000–1350 nm) biological windows has been studied by Quantum Dot based Fluorescence Nanothermometry. It has been found that red-shifting the GNR longitudinal surface plasmon resonance wavelength (λSPR) from the first to the second biological window is accompanied by a remarkable (close to 40%) reduction in their heating efficiency. Based on numerical simulations, we have concluded that this lower heating efficiency is caused by a reduction in the absorption efficiency (ratio between absorption and extinction cross sections). Thermal stability and ex vivo experiments have corroborated that GNRs with λSPR at around 800 nm seem to be especially suitable for efficient photothermal therapies with minimum collateral effects.

AB - The light-to-heat conversion efficiency of gold nanorods (GNRs) with surface plasmon resonances in the first (700–950 nm) and second (1000–1350 nm) biological windows has been studied by Quantum Dot based Fluorescence Nanothermometry. It has been found that red-shifting the GNR longitudinal surface plasmon resonance wavelength (λSPR) from the first to the second biological window is accompanied by a remarkable (close to 40%) reduction in their heating efficiency. Based on numerical simulations, we have concluded that this lower heating efficiency is caused by a reduction in the absorption efficiency (ratio between absorption and extinction cross sections). Thermal stability and ex vivo experiments have corroborated that GNRs with λSPR at around 800 nm seem to be especially suitable for efficient photothermal therapies with minimum collateral effects.

U2 - 10.1039/c4ra08956a

DO - 10.1039/c4ra08956a

M3 - Article

SN - 2046-2069

VL - 4

SP - 54122

EP - 54129

JO - RSC Advances

JF - RSC Advances

IS - 96

ER -

Gold nanorods for optimized photothermal therapy: the influence of irradiating in the first and second biological windows: the influence of irradiating in the first and second biological windows

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