Journal article

Authors list: Bijelić, J; Stanković, A; Medvidović-Kosanović, M; Marković, B; Cop, P; Sun, Y; Hajra, S; Sahu, M; Vukmirović, J; Marković, D; Kukovecz, A; Jagličić, Z; Smarsly, BM; Djerdj, I

Publication year: 2020

Pages: 12794-12807

Journal: Journal of Physical Chemistry C

Volume number: 124

Issue number: 23

ISSN: 1932-7447

eISSN: 1932-7455

DOI Link: https://doi.org/10.1021/acs.jpcc.0c02973

Publisher: American Chemical Society

Abstract: 
Complex perovskites have attracted extensive attention due to their fascinating physical properties and novel features owing to the coexistence of the ferro-/ferri-magnetic ground state and semiconducting behavior in the single material. Herein, the triple perovskite Sr3Co2WO9 (SCWO) has been successfully synthesized for the first time in the nanocrystalline form with an average crystallite size of 23 nm using a high yield (81%) aqueous citrate sol-gel method. At room temperature, the crystal structure of Sr3Co2WO9 is cubic, space group Fm (3) over barm, with lattice parameter a = 7.9073(6) angstrom. The formation of SCWO triple perovskite was studied in situ by X-ray diffraction and subsequently analyzed by the Rietveld analysis. The detected hysteresis loops with nonzero remanent magnetization and rather large coercive field reveal ferrimagnetic ordering with a Curie temperature of 144 K. The measured effective magnetic moment of mu(B) is close to the expected value for the rarely observed intermediate spin S = 1. It is found that the compound exhibits semiconducting properties with the optical band gaps equal to 3.52 eV (indirect) and 3.76 eV (direct), respectively, further confirmed by the determination of the AC conductivity, which in the measured temperature range (25-500 degrees C at 1 kHz) lies within the interval from 10(-5)-10(-4) Omega(-1) cm(-1). The Maxwell-Wagner model is employed to describe the frequency dependent dielectric constant. The frequency-dependent AC conductivity follows the universal Jonscher power law. Since it possesses both magnetic and semiconductor properties, this material could be a promising candidate to use in devices where its semiconducting properties would be spin-controlled.

Harvard Citation style: Bijelić, J., Stanković, A., Medvidović-Kosanović, M., Marković, B., Cop, P., Sun, Y., et al. (2020) Rational Sol-Gel-Based Synthesis Design and Magnetic, Dielectric, and Optical Properties Study of Nanocrystalline Sr3Co2WO9 Triple Perovskite, Journal of Physical Chemistry C, 124(23), pp. 12794-12807. https://doi.org/10.1021/acs.jpcc.0c02973

APA Citation style: Bijelić, J., Stanković, A., Medvidović-Kosanović, M., Marković, B., Cop, P., Sun, Y., Hajra, S., Sahu, M., Vukmirović, J., Marković, D., Kukovecz, A., Jagličić, Z., Smarsly, B., & Djerdj, I. (2020). Rational Sol-Gel-Based Synthesis Design and Magnetic, Dielectric, and Optical Properties Study of Nanocrystalline Sr3Co2WO9 Triple Perovskite. Journal of Physical Chemistry C. 124(23), 12794-12807. https://doi.org/10.1021/acs.jpcc.0c02973