Lanthanide Sensitization in II-VI Semiconductor Materials: A Case Study with Terbium(III) and Europium(III) in Zinc Sulfide Nanoparticles - Archive ouverte HAL Access content directly
Journal Articles Journal of Physical Chemistry A Year : 2011

Lanthanide Sensitization in II-VI Semiconductor Materials: A Case Study with Terbium(III) and Europium(III) in Zinc Sulfide Nanoparticles

P. Mukherjee
  • Function : Author
C.M. Shade
  • Function : Author
A.M. Yingling
  • Function : Author
D.N. Lamont
  • Function : Author
D.H. Waldeck
  • Function : Author

Abstract

This work explores the sensitization of luminescent lanthanide Tb3+ and Eu3+ cations by electronic structure of zinc sulfide (ZnS) semiconductor nanoparticles. Excitation spectra collected while monitoring the lanthanide emission bands reveal that the ZnS nanoparticles act as an antenna for the sensitization of Tb3+ and Eu3+. The mechanism of lanthanide ion luminescence sensitization is rationalized in terms of an energy and charge transfer between trap sites and is based on a semiempirical model, proposed by Dorenbos and co-workers (Dorenbos, P. J. Phys.: Condens Matter 2003, 15, 8417-8434; J. Lumin. 2004, 108, 301-305; J. Lumin. 2005, 111, 89-104. Dorenbos, P.; van der Kolk, E. Appl. Phys. Lett. 2006, 89, 061122-1-061122-3; Opt. Mater. 2008, 30, 1052-1057. Dorenbos, P. J. Alloys Compd. 2009, 488, 568-573; references 1-6.) to describe the energy level scheme. This model implies that the mechanisms of luminescence sensitization of Tb3+ and Eu3+ in ZnS nanoparticles are different; namely, Tb3+ acts as a hole trap, whereas Eu3+ acts as an electron trap. Further testing of this model is made by extending the studies from ZnS nanoparticles to other II-VI semiconductor materials; namely, CdSe, CdS, and ZnSe.

Dates and versions

hal-00602452 , version 1 (22-06-2011)

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P. Mukherjee, C.M. Shade, A.M. Yingling, D.N. Lamont, D.H. Waldeck, et al.. Lanthanide Sensitization in II-VI Semiconductor Materials: A Case Study with Terbium(III) and Europium(III) in Zinc Sulfide Nanoparticles. Journal of Physical Chemistry A, 2011, 115 (16), pp.4031-4041. ⟨10.1021/jp109786w⟩. ⟨hal-00602452⟩
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