Generation of fluorescent CdSe nanocrystals by short-pulse laser fragmentation

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Yu T. Zholudov
  • C. L. Sajti
  • N. N. Slipchenko
  • B. N. Chichkov

Externe Organisationen

  • Kharkov National University of Radio Electronics
  • Laser Zentrum Hannover e.V. (LZH)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer490
Seiten (von - bis)1-10
Seitenumfang10
FachzeitschriftJournal of nanoparticle research
Jahrgang17
Ausgabenummer490
PublikationsstatusVeröffentlicht - 19 Dez. 2015
Extern publiziertJa

Abstract

A simple liquid-phase laser fragmentation approach, resulting in the rapid transformation of CdSe microcrystals into colloidal quantum dots (QDs), is presented. Laser fragmentation is achieved by irradiating a CdSe suspension in dimethylformamide with intense infrared, picosecond laser pulses followed by surface passivation with oleylamine or different types of phosphines. The generated QDs reveal perfect colloidal stability preventing agglomeration and precipitation, and show characteristic QD absorption and fluorescence characteristics, whereas their emission properties strongly depend on the surface states and applied capping ligands. These QDs show distinct photoemission under 405-nm single-photon and 800-nm multi-photon excitations in the 560- to 610-nm spectral region corresponding to the QDs size of about 1.5–2 nm in diameter which is confirmed by transmission electron microscopy.

ASJC Scopus Sachgebiete

Zitieren

Generation of fluorescent CdSe nanocrystals by short-pulse laser fragmentation. / Zholudov, Yu T.; Sajti, C. L.; Slipchenko, N. N. et al.
in: Journal of nanoparticle research, Jahrgang 17, Nr. 490, 490, 19.12.2015, S. 1-10.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Zholudov, Y. T., Sajti, C. L., Slipchenko, N. N., & Chichkov, B. N. (2015). Generation of fluorescent CdSe nanocrystals by short-pulse laser fragmentation. Journal of nanoparticle research, 17(490), 1-10. Artikel 490. https://doi.org/10.1007/s11051-015-3303-z
Zholudov YT, Sajti CL, Slipchenko NN, Chichkov BN. Generation of fluorescent CdSe nanocrystals by short-pulse laser fragmentation. Journal of nanoparticle research. 2015 Dez 19;17(490):1-10. 490. doi: 10.1007/s11051-015-3303-z
Zholudov, Yu T. ; Sajti, C. L. ; Slipchenko, N. N. et al. / Generation of fluorescent CdSe nanocrystals by short-pulse laser fragmentation. in: Journal of nanoparticle research. 2015 ; Jahrgang 17, Nr. 490. S. 1-10.
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title = "Generation of fluorescent CdSe nanocrystals by short-pulse laser fragmentation",
abstract = "A simple liquid-phase laser fragmentation approach, resulting in the rapid transformation of CdSe microcrystals into colloidal quantum dots (QDs), is presented. Laser fragmentation is achieved by irradiating a CdSe suspension in dimethylformamide with intense infrared, picosecond laser pulses followed by surface passivation with oleylamine or different types of phosphines. The generated QDs reveal perfect colloidal stability preventing agglomeration and precipitation, and show characteristic QD absorption and fluorescence characteristics, whereas their emission properties strongly depend on the surface states and applied capping ligands. These QDs show distinct photoemission under 405-nm single-photon and 800-nm multi-photon excitations in the 560- to 610-nm spectral region corresponding to the QDs size of about 1.5–2 nm in diameter which is confirmed by transmission electron microscopy.",
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author = "Zholudov, {Yu T.} and Sajti, {C. L.} and Slipchenko, {N. N.} and Chichkov, {B. N.}",
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Download

TY - JOUR

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AU - Zholudov, Yu T.

AU - Sajti, C. L.

AU - Slipchenko, N. N.

AU - Chichkov, B. N.

N1 - Funding information: This work was conducted in the framework of German Academic Exchange Service grant A/14/02402. Additionally, the authors received financial support from the Deutsche Forschungsgemeinschaft within the excellence cluster REBRITH (Exc62/1), and the Collaborative Research Center/Transregio 123 “Planar Optronic Systems.” The authors would like to acknowledge Torben Kodanek and Andreas Wolf from the Laboratory of Nano and Quantum Engineering in Hannover for TEM and the excitation spectra measurements, respectively.

PY - 2015/12/19

Y1 - 2015/12/19

N2 - A simple liquid-phase laser fragmentation approach, resulting in the rapid transformation of CdSe microcrystals into colloidal quantum dots (QDs), is presented. Laser fragmentation is achieved by irradiating a CdSe suspension in dimethylformamide with intense infrared, picosecond laser pulses followed by surface passivation with oleylamine or different types of phosphines. The generated QDs reveal perfect colloidal stability preventing agglomeration and precipitation, and show characteristic QD absorption and fluorescence characteristics, whereas their emission properties strongly depend on the surface states and applied capping ligands. These QDs show distinct photoemission under 405-nm single-photon and 800-nm multi-photon excitations in the 560- to 610-nm spectral region corresponding to the QDs size of about 1.5–2 nm in diameter which is confirmed by transmission electron microscopy.

AB - A simple liquid-phase laser fragmentation approach, resulting in the rapid transformation of CdSe microcrystals into colloidal quantum dots (QDs), is presented. Laser fragmentation is achieved by irradiating a CdSe suspension in dimethylformamide with intense infrared, picosecond laser pulses followed by surface passivation with oleylamine or different types of phosphines. The generated QDs reveal perfect colloidal stability preventing agglomeration and precipitation, and show characteristic QD absorption and fluorescence characteristics, whereas their emission properties strongly depend on the surface states and applied capping ligands. These QDs show distinct photoemission under 405-nm single-photon and 800-nm multi-photon excitations in the 560- to 610-nm spectral region corresponding to the QDs size of about 1.5–2 nm in diameter which is confirmed by transmission electron microscopy.

KW - Cadmium selenide

KW - Colloids

KW - Fluorescence

KW - Laser fragmentation

KW - Nanoparticles

KW - Optical properties

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