Surface optical phonons in ZnO(Co) nanoparticles: Raman study
Nema prikaza
Autori
Hadzic, BRomcevic, N
Romcevic, M.I
Kuryliszyn-Kudelska, I
Dobrowolski, W
Trajić, J
Timotijević, Dejan
Narkiewicz, U
Sibera, D
Članak u časopisu (Objavljena verzija)
,
Science Direct
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Surface optical phonons (SOP) were observed in the range of 496–572 cm−1 on Raman scattering spectra of nanocrystalline samples of ZnO(Co) prepared by use of the microwave assisted hydrothermal synthesis and traditional wet chemistry method followed by calcinations. The phase composition of the samples (ZnO, Co3O4, ZnCo2O4) and the mean crystalline size (14–300 nm) were determined using X-ray diffraction measurements. The SOP phonon mode exhibit significant size confinement effect, while the phonons of registered phases exhibit effects connected to phase concentration.
Ključne reči:
nanoparticles, phonons, surface, ZnO(Co), Raman studyIzvor:
Journal of Alloys and Compounds, 2012, 540Finansiranje / projekti:
- Optoelektronski nanodimenzioni sistemi - put ka primeni (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-45003)
Institucija/grupa
Institut za multidisciplinarna istraživanjaTY - JOUR AU - Hadzic, B AU - Romcevic, N AU - Romcevic, M.I AU - Kuryliszyn-Kudelska, I AU - Dobrowolski, W AU - Trajić, J AU - Timotijević, Dejan AU - Narkiewicz, U AU - Sibera, D PY - 2012 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/3015 AB - Surface optical phonons (SOP) were observed in the range of 496–572 cm−1 on Raman scattering spectra of nanocrystalline samples of ZnO(Co) prepared by use of the microwave assisted hydrothermal synthesis and traditional wet chemistry method followed by calcinations. The phase composition of the samples (ZnO, Co3O4, ZnCo2O4) and the mean crystalline size (14–300 nm) were determined using X-ray diffraction measurements. The SOP phonon mode exhibit significant size confinement effect, while the phonons of registered phases exhibit effects connected to phase concentration. T2 - Journal of Alloys and Compounds T1 - Surface optical phonons in ZnO(Co) nanoparticles: Raman study VL - 540 DO - https://doi.org/10.1016/j.jallcom.2012.06.076 ER -
@article{ author = "Hadzic, B and Romcevic, N and Romcevic, M.I and Kuryliszyn-Kudelska, I and Dobrowolski, W and Trajić, J and Timotijević, Dejan and Narkiewicz, U and Sibera, D", year = "2012", abstract = "Surface optical phonons (SOP) were observed in the range of 496–572 cm−1 on Raman scattering spectra of nanocrystalline samples of ZnO(Co) prepared by use of the microwave assisted hydrothermal synthesis and traditional wet chemistry method followed by calcinations. The phase composition of the samples (ZnO, Co3O4, ZnCo2O4) and the mean crystalline size (14–300 nm) were determined using X-ray diffraction measurements. The SOP phonon mode exhibit significant size confinement effect, while the phonons of registered phases exhibit effects connected to phase concentration.", journal = "Journal of Alloys and Compounds", title = "Surface optical phonons in ZnO(Co) nanoparticles: Raman study", volume = "540", doi = "https://doi.org/10.1016/j.jallcom.2012.06.076" }
Hadzic, B., Romcevic, N., Romcevic, M.I, Kuryliszyn-Kudelska, I., Dobrowolski, W., Trajić, J., Timotijević, D., Narkiewicz, U.,& Sibera, D.. (2012). Surface optical phonons in ZnO(Co) nanoparticles: Raman study. in Journal of Alloys and Compounds, 540. https://doi.org/https://doi.org/10.1016/j.jallcom.2012.06.076
Hadzic B, Romcevic N, Romcevic M, Kuryliszyn-Kudelska I, Dobrowolski W, Trajić J, Timotijević D, Narkiewicz U, Sibera D. Surface optical phonons in ZnO(Co) nanoparticles: Raman study. in Journal of Alloys and Compounds. 2012;540. doi:https://doi.org/10.1016/j.jallcom.2012.06.076 .
Hadzic, B, Romcevic, N, Romcevic, M.I, Kuryliszyn-Kudelska, I, Dobrowolski, W, Trajić, J, Timotijević, Dejan, Narkiewicz, U, Sibera, D, "Surface optical phonons in ZnO(Co) nanoparticles: Raman study" in Journal of Alloys and Compounds, 540 (2012), https://doi.org/https://doi.org/10.1016/j.jallcom.2012.06.076 . .