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Beilstein J. Nanotechnol. 2016, 7, 1586–1601, doi:10.3762/bjnano.7.153
Figure 1: The MSS2 reactor [36]: a) general draft of the MSS2 reactor; b) view of the prototype; c) principle of ...
Figure 2: XRD patterns of HAp powders.
Figure 3: XRD patterns of a duck bone, a beef bone, a pork bone, a turkey bone, a horse bone, a rabbit bone, ...
Figure 4: Crystallite size distribution, obtained using Nanopowder XRD Processor Demo [48]: a) HAp Type 1; b) HAp...
Figure 5: SEM micrographs of HAp powders: (a, b) Type 1; (c, d) Type 2; (e, f) Type 3; (g, h) Type 4; (i, j) ...
Figure 6: The bright field TEM image of Type 1 HAp.
Figure 7: a) A dark field TEM image of Type 2 HAp; b) a histogram of the particle size distribution.
Figure 8: a) A dark field TEM image of Type 3 HAp; b) a histogram of the particle size distribution.
Figure 9: a) A dark field TEM image of Type 4 HAp; b) a histogram of the particle size distribution.
Figure 10: a) A dark field TEM image of Type 5 HAp; b) a histogram of the particle size distribution.
Figure 11: a) A dark field TEM image of Type 6 HAp; b) a histogram of the particle size distribution.
Figure 12: Results of thermogravimetric analysis for Type 1–Type 6 HAp nanopowder heated in helium atmosphere ...
Beilstein J. Nanotechnol. 2015, 6, 1957–1969, doi:10.3762/bjnano.6.200
Figure 1: SEM images of ZnO nanopowders in their as-produced (before annealing) state: (a) undoped, (b) doped...
Figure 2: SEM images of annealed ZnO nanopowders after annealing at 800 °C in nitrogen: (a) undoped, (b) dope...
Figure 3: SEM images of annealed ZnO nanopowders after annealing at 800 °C in synthetic air: (a) undoped, (b)...
Figure 4: Dependence between the nominal and experimental Co doping concentration for the samples before anne...
Figure 5: (a) Photographs of the Zn1−xCoxO precursor in ethylene glycol where the color varies with the compo...
Figure 6: XRD patterns for Zn1−xCoxO nanopowders before annealing, with a nominal Co content in solution of 0...
Figure 7: XRD patterns for Zn1−xCoxO nanopowders after annealing at 800 °C in nitrogen. The metallic α-Co pha...
Figure 8: XRD patterns for Zn1−xCoxO nanopowders after annealing at 800 °C in synthetic air. The Co3O4 phase ...
Figure 9: Dependence of the a and c lattice parameter on nominal Co content, in mol % for: (a) preannealed sa...
Figure 10: Fourier transformations of EXAFS oscillations at the Zn K-edge for the as-synthesized NP samples.
Figure 11: Comparison of the Fourier transformations of EXAFS oscillations measured at the Co K-edge for Zn1−x...
Figure 12: The magnetization dependence on the external magnetic field: (a) for as-synthesized Zn1−xCoxO NPs w...
Figure 13: Magnetic susceptibility dependence on temperature for Zn0.85Co0.15O powder: (a) as-synthesized, b) ...
Beilstein J. Nanotechnol. 2015, 6, 27–35, doi:10.3762/bjnano.6.4
Figure 1: X-ray diffraction patterns of ZrO2 synthesized at 5.5 MPa for 20 min and annealed in air for 30 min...
Figure 2: The average grain size of the ZrO2 powder as a function of the annealing temperature.
Figure 3: SEM images of four selected nano-ZrO2 samples: (A) no annealing, and after annealing at (B) 500 °C,...
Figure 4: The –OD spectral band in ZrO2 samples synthesized in the presence of D2O. (A) The stretching vibrat...
Figure 5: The infrared spectra of the ZrO2 samples prepared in the presence of D2O and subsequently dried in ...
Figure 6: Density as a function of specific surface area (A), experimental and calculated correlation of dens...
Figure 7: Density as a function of annealing temperature of nano-ZrO2 powder.