Izvestiya of Saratov University.

Physics

ISSN 1817-3020 (Print)
ISSN 2542-193X (Online)


For citation:

Skaptsov A. A., Volkova E. K., Galushka V. V., Vidalia I. V., Zakharevich A. M., Konyukhova J. G., Kochubey V. I. Influence of Environment and Temperature on the Luminescent Properties of ZnCdS Nanoparticles. Izvestiya of Saratov University. Physics , 2013, vol. 13, iss. 2, pp. 77-80. DOI: 10.18500/1817-3020-2013-13-2-77-80

This is an open access article distributed under the terms of Creative Commons Attribution 4.0 International License (CC-BY 4.0).
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Russian
Article type: 
Article
UDC: 
628.9.037

Influence of Environment and Temperature on the Luminescent Properties of ZnCdS Nanoparticles

Autors: 
Skaptsov Alexander Aleksandrovich, Saratov State University
Volkova Elena K., Saratov State University
Galushka Victor Vladimirovich, Saratov State University
Vidalia Irina Viktorovna, Saratov State University
Zakharevich Andrey Mikhailovich, Saratov State University
Konyukhova J. G., Saratov State University
Kochubey Vyacheslav Ivanovich, Saratov State University
Abstract: 

Dependence of the luminescence spectra of the non-stabilized ZnCdS nanoparticles placed in a biological environment on their temperature is investigated. It is shown that the intensity and the position of maximum luminescence of surface defects ZnCdS nanoparticles depends on the temperature and the properties of the biological environment until it is denatured.

Reference: 
  1. Huang X. H., El-Sayed I. H., Qian W., El-Sayed M. A. Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods // J. Amer. Chemical Soc. 2006. Vol. 128, № 6. P. 2115–2120.
  2. Maksimova I. L., Akchurin G. G., Khlebtsov B. N., Terentyuk G. S., Akchurin G. G., Ermolaev I. A., Skaptsov A. A., Soboleva E. P., Khlebtsov N. G., Tuchin V. V. Near-infrared laser photothermal therapy of cancer by using gold nanoparticles : Computer simulations and experiment // Medical Laser Application. 2007. Vol. 22. P. 199–206.
  3. Goldberg S. N., Gazelle G. S., Mueller P. R. Thermal ablation therapy for focal malignancy : a unifi ed approach to underlying principles, techniques, and diagnostic imaging guidance // Amer. J. of Roentgenology. 2000. Vol. 174, № 2. P. 323–331.
  4. Maksimova I. L., Akchurin G. G., Terentyuk G. S., Khlebtsov B. N., Ermolaev I. A., Skaptsov A. A., Revzina E. M., Tuchin V. V., Khlebtsov N. G. Laser photothermolysis of biological tissues by using plasmonresonance particles // Quantum Electronics. 2008. Vol. 38, № 6. P. 536–542.
  5. Labeau O., Tamarat P., Lounis B. Temperature dependence of the luminescence lifetime of single CdSe/ZnS quantum dots // Physical Rev. Lett. 2003. Vol. 90, № 25. P. 257404-1–257404-4
  6. Zhao Y. M., Riemersma C., Pietra F., Koole R., Donega C. D., Meijerink A. High-temperature luminescence quenching of colloidal quantum dots // Acs Nano. 2012. Vol. 6, № 10. P. 9058–9067.
  7. Maestro L. M., Rodriguez E. M., Rodriguez F. S., la Cruz M. C. I., Juarranz A., Naccache R., Vetrone F., Jaque D., Capobianco J. A., Sole J. G. CdSe quantum dots for two-photon fl uorescence thermal imaging // Nano Lett. 2010. Vol. 10, № 12. P. 5109–5115.
  8. Vossmeyer T., Katsikas L., Gienig M., Popovic I. G., Diesner K., Chemseddine A., Eychmiiller A. H. W. CdS nanoclusters : synthesis, characterization, size dependent oscillator strength, temperature shift of the excitonic transition energy, and reversible absorbance shift // J. Phys. Chem. 1994. Vol. 98, № 31. P. 7665–7673.
  9. Yang J.-M., Yang H., Lin L. Quantum dot nano thermometers reveal heterogeneous local thermogenesis in living cells // Acs Nano. 2011. Vol. 5, № 6. P. 5067– 5071.
  10. Volkova E. K., Kochubey V. I., Konyukhova J. G., Skaptsov A. A., Galushka V. V., German S. V. Temperature dependence of the fl uorescence spectrumof ZnCdS nanoparticles // Proc. SPIE. 2013. Vol. 8571. P. 85712P-1–85712P-6.
  11. Пивен Н. Г., Щербак Л. П., Фейчук П. И., Калитчук С. М., Крылюк С. Г., Корбутяк Д. В. Термостимулированные эффекты синтеза нанокристаллов сульфида кадмия // Конденсированные среды и межфазные границы. 2006. Т. 8, № 4. C. 315–319.
  12. Kochubey V. I., Volkova E. K., Konyukhova J. G. Glucose and temperature sensitive luminescence ZnCdS nanoparticles // Proc. SPIE. 2012. P. 85533B–85533B.
  13. Моргунов Р. Б., Дмитриев А. И., Джардимали- ева Г. И., Помогайло А. Д., Розенберг А. С., Tanimoto Y., Leonowicz M., Sowka E. Ферромагнитный резонанс кобальтовых наночастиц в полимерной оболочке // Физика твердого тела. 2007. Т. 49, № 8. C. 1436–1441.
Received: 
17.04.2013
Accepted: 
11.08.2013
Published: 
28.10.2013