Ultra-pure, water-dispersed Au nanoparticles produced by femtosecond laser ablation and fragmentation

Reda Kubiliute; Ksenia A. Maximova; Alireza Lajevardipour; Jiawey Yong; Jennifer S. Hartley; Abu S.M. Mohsin; Pierre Blandin; James W.M. Chon; Marc Sentis; Paul R. Stoddart; Andrei Kabashin; Ričardas Rotomskis; Andrew H.A. Clayton; Saulius Juodkazis

doi:10.2147/IJN.S44163

Ultra-pure, water-dispersed Au nanoparticles produced by femtosecond laser ablation and fragmentation

Reda Kubiliute, Ksenia A. Maximova, Alireza Lajevardipour, Jiawey Yong, Jennifer S. Hartley, Abu S.M. Mohsin, Pierre Blandin, James W.M. Chon, Marc Sentis, Paul R. Stoddart, Andrei Kabashin, Ričardas Rotomskis, Andrew H.A. Clayton, Saulius Juodkazis

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

25 Citations (Scopus)

Abstract

Aqueous solutions of ultra-pure gold nanoparticles have been prepared by methods of femtosecond laser ablation from a solid target and fragmentation from already formed colloids. Despite the absence of protecting ligands, the solutions could be (1) fairly stable and poly size-dispersed; or (2) very stable and monodispersed, for the two fabrication modalities, respectively. Fluorescence quenching behavior and its intricacies were revealed by fluorescence lifetime imaging microscopy in rhodamine 6G water solution. We show that surface-enhanced Raman scattering of rhodamine 6G on gold nanoparticles can be detected with high fidelity down to micromolar concentrations using the nanoparticles. Application potential of pure gold nanoparticles with polydispersed and nearly monodispersed size distributions are discussed.

Original language	English
Pages (from-to)	2601-2611
Number of pages	11
Journal	International Journal of Nanomedicine
Volume	8
DOIs	https://doi.org/10.2147/IJN.S44163
Publication status	Published - 18 Jul 2013
Externally published	Yes

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Kubiliute, R., Maximova, K. A., Lajevardipour, A., Yong, J., Hartley, J. S., Mohsin, A. S. M., Blandin, P., Chon, J. W. M., Sentis, M., Stoddart, P. R., Kabashin, A., Rotomskis, R., Clayton, A. H. A., & Juodkazis, S. (2013). Ultra-pure, water-dispersed Au nanoparticles produced by femtosecond laser ablation and fragmentation. International Journal of Nanomedicine, 8, 2601-2611. https://doi.org/10.2147/IJN.S44163

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abstract = "Aqueous solutions of ultra-pure gold nanoparticles have been prepared by methods of femtosecond laser ablation from a solid target and fragmentation from already formed colloids. Despite the absence of protecting ligands, the solutions could be (1) fairly stable and poly size-dispersed; or (2) very stable and monodispersed, for the two fabrication modalities, respectively. Fluorescence quenching behavior and its intricacies were revealed by fluorescence lifetime imaging microscopy in rhodamine 6G water solution. We show that surface-enhanced Raman scattering of rhodamine 6G on gold nanoparticles can be detected with high fidelity down to micromolar concentrations using the nanoparticles. Application potential of pure gold nanoparticles with polydispersed and nearly monodispersed size distributions are discussed.",

keywords = "Materials for nanomedicine, Methods of nanofabrication and processing, Nanotechnologies applications",

author = "Reda Kubiliute and Maximova, {Ksenia A.} and Alireza Lajevardipour and Jiawey Yong and Hartley, {Jennifer S.} and Mohsin, {Abu S.M.} and Pierre Blandin and Chon, {James W.M.} and Marc Sentis and Stoddart, {Paul R.} and Andrei Kabashin and Ri{\v c}ardas Rotomskis and Clayton, {Andrew H.A.} and Saulius Juodkazis",

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doi = "10.2147/IJN.S44163",

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Kubiliute, R, Maximova, KA, Lajevardipour, A, Yong, J, Hartley, JS, Mohsin, ASM, Blandin, P, Chon, JWM, Sentis, M, Stoddart, PR, Kabashin, A, Rotomskis, R, Clayton, AHA & Juodkazis, S 2013, 'Ultra-pure, water-dispersed Au nanoparticles produced by femtosecond laser ablation and fragmentation', International Journal of Nanomedicine, vol. 8, pp. 2601-2611. https://doi.org/10.2147/IJN.S44163

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T1 - Ultra-pure, water-dispersed Au nanoparticles produced by femtosecond laser ablation and fragmentation

AU - Kubiliute, Reda

AU - Maximova, Ksenia A.

AU - Lajevardipour, Alireza

AU - Yong, Jiawey

AU - Hartley, Jennifer S.

AU - Mohsin, Abu S.M.

AU - Blandin, Pierre

AU - Chon, James W.M.

AU - Sentis, Marc

AU - Stoddart, Paul R.

AU - Kabashin, Andrei

AU - Rotomskis, Ričardas

AU - Clayton, Andrew H.A.

AU - Juodkazis, Saulius

PY - 2013/7/18

Y1 - 2013/7/18

N2 - Aqueous solutions of ultra-pure gold nanoparticles have been prepared by methods of femtosecond laser ablation from a solid target and fragmentation from already formed colloids. Despite the absence of protecting ligands, the solutions could be (1) fairly stable and poly size-dispersed; or (2) very stable and monodispersed, for the two fabrication modalities, respectively. Fluorescence quenching behavior and its intricacies were revealed by fluorescence lifetime imaging microscopy in rhodamine 6G water solution. We show that surface-enhanced Raman scattering of rhodamine 6G on gold nanoparticles can be detected with high fidelity down to micromolar concentrations using the nanoparticles. Application potential of pure gold nanoparticles with polydispersed and nearly monodispersed size distributions are discussed.

AB - Aqueous solutions of ultra-pure gold nanoparticles have been prepared by methods of femtosecond laser ablation from a solid target and fragmentation from already formed colloids. Despite the absence of protecting ligands, the solutions could be (1) fairly stable and poly size-dispersed; or (2) very stable and monodispersed, for the two fabrication modalities, respectively. Fluorescence quenching behavior and its intricacies were revealed by fluorescence lifetime imaging microscopy in rhodamine 6G water solution. We show that surface-enhanced Raman scattering of rhodamine 6G on gold nanoparticles can be detected with high fidelity down to micromolar concentrations using the nanoparticles. Application potential of pure gold nanoparticles with polydispersed and nearly monodispersed size distributions are discussed.

KW - Materials for nanomedicine

KW - Methods of nanofabrication and processing

KW - Nanotechnologies applications

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ER -

Ultra-pure, water-dispersed Au nanoparticles produced by femtosecond laser ablation and fragmentation

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