• DocumentCode
    728711
  • Title

    Shape evolution and enhanced sensing and functionalization of RE-OH nanostructures

  • Author

    Anis-ur-Rehman, M. ; Munir, A. ; Saleemi, A.S. ; Abdullah, A.

  • Author_Institution
    Dept. of Phys., COMSATS Inst. of Inf. Technol., Islamabad, Pakistan
  • fYear
    2015
  • fDate
    24-27 May 2015
  • Firstpage
    98
  • Lastpage
    101
  • Abstract
    Rare earth hydroxides (R(OH)3) were synthesized by Composite mediated hydrothermal (CMH) method, a facile technique to prepare functional materials, and stoichiometric change in composition and morphology was observed. Ce(OH)3, La(OH)3 and Nd(OH)3 were the synthesized samples. X-ray diffraction (XRD) confirmed the hexagonal structures of the prepared samples. The crystallite size corresponding to the most intense peaks were 18, 33 and 41 nm for Nd-, La- and Ce-hydroxides. SEM revealed very interesting and fascinating morphologies. Ce(OH)3 has belts like structures, Nd(OH)3 has needles like structures and La(OH)3 has wires like structures. The growth of structures can be ascribed to chemical potential, maintained through precipitating agent, the pressure inside the vessel, the temperature provided for the hydrothermal treatment and time for hydrothermal treatment time. The shape evolution can be explained by Gibbs-Curie-Wulff model which relate the shape evolution with the face energies. When the equilibrium energy is obtained for respective faces the Ostwald ripening is stopped. On heat treatment, the La(OH)3 first converted into LaOOH at ca. 400°C and finally into La2O3 at ca. 600°C as observed in DSC plot. The increase of conductivity with temperature is evident from the plots. Nd(OH)3 achieved maximum conductivity and Ce(OH)3 acquired minimum among the three possibly due to smaller crystallite sizes in the former case. The smaller grains increase the grain boundaries and charges can pile up on boundaries which increase the conductivity. The ac conductivity showed a direct dependence on frequency (1kHz-3MHz). The corresponding dc conductivity values of Ce(OH)3, La(OH)3 and Nd(OH)3 were 0.372, 6.648 and 20.369 S-cm-1, respectively. The interesting morphologies make these materials poten- ial candidates for sensing and functionalization.
  • Keywords
    X-ray diffraction; cerium compounds; chemical potential; crystallites; differential scanning calorimetry; electrical conductivity; grain boundaries; heat treatment; lanthanum compounds; liquid phase deposition; nanobelts; nanofabrication; nanosensors; nanowires; neodymium compounds; scanning electron microscopy; surface morphology; Ce(OH)3; DSC; Gibbs-Curie-Wulff model; La(OH)3; Nd(OH)3; Ostwald ripening; SEM; X-ray diffraction; XRD; ac conductivity; belt like structures; chemical potential; composite mediated hydrothermal method; crystallite size; dc conductivity; equilibrium energy; face energy; frequency 1 kHz to 3 MHz; grain boundaries; heat treatment; hexagonal structures; hydrothermal treatment time; needle like structures; precipitating agent; rare earth hydroxide nanostructures; sensing; shape evolution; stoichiometric change; surface morphology; temperature 400 degC; temperature 600 degC; wire like structures; Belts; Conductivity; Morphology; Nanostructures; Shape; X-ray diffraction; X-ray scattering; Rare earth hydroxides; conductivity; hydrothermal treatment;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Applications of Ferroelectric, International Symposium on Integrated Functionalities and Piezoelectric Force Microscopy Workshop (ISAF/ISIF/PFM), 2015 Joint IEEE International Symposium on the
  • Conference_Location
    Singapore
  • Type

    conf

  • DOI
    10.1109/ISAF.2015.7172678
  • Filename
    7172678