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The crystal structure of Ce0.8Gd0.1Ho0.1O1.9 (cerium gadolinium holmium oxide) has been determined from powder X-ray diffraction data. This is a promising material for application as a solid electrolyte for inter­mediate-temperature solid oxide fuel cells (IT-SOFCs). Nanoparticles were prepared using a novel sodium alginate sol-gel method, where the sodium ion was exchanged with ions of inter­est and, after washing, the gel was calcined at 723 K in air. The crystallographic features of Gd and Ho co-doped cerium oxide were investigated around the desired operating temperatures of IT-SOFCs, i.e. 573 ≤ T ≤ 1023 K. We find that the crystal structure is a stable fluorite structure with the space group Fm\overline{3}m in the entire temperature range. In addition, the trend in lattice parameters shows that there is a monotonic increase with increasing temperature.

Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674sup1.cif
Contains datablock I

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229617017946/sk3674Isup2.hkl
Contains datablock I

rtv

Rietveld powder data file (CIF format) https://doi.org/10.1107/S2053229617017946/sk3674Ho500_600Csup3.rtv
Contains datablock HO500_600_publ

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_300Csup4.cif
CIF for 300 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_300Csup5.txt
.txt file for 300 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_350Csup6.cif
CIF for 350 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_350Csup7.txt
.txt file for 350 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_400Csup8.cif
CIF for 400 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_400Csup9.txt
.txt file for 400 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_450Csup10.cif
CIF for 450 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_450Csup11.txt
.txt file for 450 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_500Csup12.cif
CIF for 500 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_500Csup13.txt
.txt file for 500 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_550BCsup14.cif
CIF for 550 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_550BCsup15.txt
.txt file for 550 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_600Csup16.cif
CIF for 600 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_600Csup17.txt
.txt file for 600 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_650Csup18.cif
CIF for 650 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_650Csup19.txt
.txt file for 650 oC data set

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229617017946/sk3674HO500_700Csup20.cif
CIF for 700 oC data set

txt

Text file https://doi.org/10.1107/S2053229617017946/sk3674HO500_700Csup21.txt
.txt file for 700 oC data set

CCDC reference: 1811682

Computing details top

Program(s) used to refine structure: GSAS (Larson & Von Dreele, 2004); software used to prepare material for publication: enCIFer (Allen et al., 2004).

Cerium gadolinium holmium oxide top
Crystal data top
Ce0.8Gd0.1Ho0.1O1.9Z = 4
Mr = 174.71Cu Kα radiation, λ = 1.5418 Å
Cubic, Fm3mT = 298 K
Hall symbol: -F 4 2 3Particle morphology: powder
a = 5.4214 (7) Åpale yellow
V = 159.34 (6) Å3Specimen preparation: Prepared at 973 K and 0 kPa, cooled at 1 K min1
Data collection top
PANalytical X'Pert XRD
diffractometer
Data collection mode: reflection
Cu monochromatorScan method: step
Specimen mounting: flat plate holder2θmin = 9.878°, 2θmax = 99.803°, 2θstep = 0.033°
Refinement top
Least-squares matrix: fullProfile function: CW Profile function number 4 with 14 terms Pseudovoigt profile coefficients as parameterized in P. Thompson, D.E. Cox & J.B. Hastings (1987). J. Appl. Cryst.,20,79-83. Asymmetry correction of L.W. Finger, D.E. Cox & A. P. Jephcoat (1994). J. Appl. Cryst.,27,892-900. Microstrain broadening by P.W. Stephens, (1999). J. Appl. Cryst.,32,281-289. #1(GU) = 1127.450 #2(GV) = ******** #3(GW) = 2992.640 #4(GP) = 1256.950 #5(LX) = 46.702 #6(ptec) = 3.53 #7(trns) = 0.00 #8(shft) = 0.0000 #9(sfec) = 0.00 #10(S/L) = 0.0050 #11(H/L) = 0.0005 #12(eta) = 0.0000 #13(S400 ) = 0.0E+00 #14(S220 ) = 0.0E+00 Peak tails are ignored where the intensity is below 0.0001 times the peak Aniso. broadening axis 0.0 0.0 1.0
Rp = 0.04124 parameters
Rwp = 0.0520 restraints
Rexp = 0.044(Δ/σ)max = 0.03
R(F2) = 0.04859Background function: GSAS Background function number 1 with 20 terms. Shifted Chebyshev function of 1st kind 1: 395.922 2: 128.091 3: -7.03946 4: 6.67325 5: -3.29283 6: 0.252425 7: -3.28895 8: 3.40089 9: 3.97722 10: -3.25194 11: -7.20781 12: -4.57777 13: 5.00053 14: 1.86540 15: -8.02642 16: -5.79388 17: 0.967461 18: -2.36138 19: 4.35414 20: -0.667179
Special details top

Refinement. Resolution

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
CE10.00.00.00.00304*0.8
HO10.00.00.00.00304*0.1
GD10.00.00.00.00304*0.1
O10.250.250.250.00051*0.95
Geometric parameters (Å, º) top
CE1—CE1i3.8335 (4)GD1—HO1v3.8335 (4)
CE1—CE1ii3.8335 (4)GD1—HO1vi3.8335 (4)
CE1—CE1iii3.8335 (4)GD1—HO1vii3.8335 (4)
CE1—CE1iv3.8335 (4)GD1—HO1viii3.8335 (4)
CE1—CE1v3.8335 (4)GD1—HO1ix3.8335 (5)
CE1—CE1vi3.8335 (4)GD1—HO1x3.8335 (5)
CE1—CE1vii3.8335 (4)GD1—HO1xi3.8335 (5)
CE1—CE1viii3.8335 (4)GD1—HO1xii3.8335 (5)
CE1—CE1ix3.8335 (5)GD1—O12.3475 (2)
CE1—CE1x3.8335 (5)GD1—O1xiii2.3475 (2)
CE1—CE1xi3.8335 (5)GD1—O1xiv2.3475 (2)
CE1—CE1xii3.8335 (5)GD1—O1xv2.3475 (2)
CE1—GD1i3.8335 (4)GD1—O1xvi2.3475 (2)
CE1—GD1ii3.8335 (4)GD1—O1xvii2.3475 (2)
CE1—GD1iii3.8335 (4)GD1—O1xviii2.3475 (2)
CE1—GD1iv3.8335 (4)GD1—O1xix2.3475 (2)
CE1—GD1v3.8335 (4)HO1—CE1i3.8335 (4)
CE1—GD1vi3.8335 (4)HO1—CE1ii3.8335 (4)
CE1—GD1vii3.8335 (4)HO1—CE1iii3.8335 (4)
CE1—GD1viii3.8335 (4)HO1—CE1iv3.8335 (4)
CE1—GD1ix3.8335 (5)HO1—CE1v3.8335 (4)
CE1—GD1x3.8335 (5)HO1—CE1vi3.8335 (4)
CE1—GD1xi3.8335 (5)HO1—CE1vii3.8335 (4)
CE1—GD1xii3.8335 (5)HO1—CE1viii3.8335 (4)
CE1—HO1i3.8335 (4)HO1—CE1ix3.8335 (5)
CE1—HO1ii3.8335 (4)HO1—CE1x3.8335 (5)
CE1—HO1iii3.8335 (4)HO1—CE1xi3.8335 (5)
CE1—HO1iv3.8335 (4)HO1—CE1xii3.8335 (5)
CE1—HO1v3.8335 (4)HO1—GD1i3.8335 (4)
CE1—HO1vi3.8335 (4)HO1—GD1ii3.8335 (4)
CE1—HO1vii3.8335 (4)HO1—GD1iii3.8335 (4)
CE1—HO1viii3.8335 (4)HO1—GD1iv3.8335 (4)
CE1—HO1ix3.8335 (5)HO1—GD1v3.8335 (4)
CE1—HO1x3.8335 (5)HO1—GD1vi3.8335 (4)
CE1—HO1xi3.8335 (5)HO1—GD1vii3.8335 (4)
CE1—HO1xii3.8335 (5)HO1—GD1viii3.8335 (4)
CE1—O12.3475 (2)HO1—GD1ix3.8335 (5)
CE1—O1xiii2.3475 (2)HO1—GD1x3.8335 (5)
CE1—O1xiv2.3475 (2)HO1—GD1xi3.8335 (5)
CE1—O1xv2.3475 (2)HO1—GD1xii3.8335 (5)
CE1—O1xvi2.3475 (2)HO1—HO1i3.8335 (4)
CE1—O1xvii2.3475 (2)HO1—HO1ii3.8335 (4)
CE1—O1xviii2.3475 (2)HO1—HO1iii3.8335 (4)
CE1—O1xix2.3475 (2)HO1—HO1iv3.8335 (4)
GD1—CE1i3.8335 (4)HO1—HO1v3.8335 (4)
GD1—CE1ii3.8335 (4)HO1—HO1vi3.8335 (4)
GD1—CE1iii3.8335 (4)HO1—HO1vii3.8335 (4)
GD1—CE1iv3.8335 (4)HO1—HO1viii3.8335 (4)
GD1—CE1v3.8335 (4)HO1—HO1ix3.8335 (5)
GD1—CE1vi3.8335 (4)HO1—HO1x3.8335 (5)
GD1—CE1vii3.8335 (4)HO1—HO1xi3.8335 (5)
GD1—CE1viii3.8335 (4)HO1—HO1xii3.8335 (5)
GD1—CE1ix3.8335 (5)HO1—O12.3475 (2)
GD1—CE1x3.8335 (5)HO1—O1xiii2.3475 (2)
GD1—CE1xi3.8335 (5)HO1—O1xiv2.3475 (2)
GD1—CE1xii3.8335 (5)HO1—O1xv2.3475 (2)
GD1—GD1i3.8335 (4)HO1—O1xvi2.3475 (2)
GD1—GD1ii3.8335 (4)HO1—O1xvii2.3475 (2)
GD1—GD1iii3.8335 (4)HO1—O1xviii2.3475 (2)
GD1—GD1iv3.8335 (4)HO1—O1xix2.3475 (2)
GD1—GD1v3.8335 (4)O1—CE12.3475 (2)
GD1—GD1vi3.8335 (4)O1—CE1iv2.3475 (2)
GD1—GD1vii3.8335 (4)O1—CE1viii2.3475 (2)
GD1—GD1viii3.8335 (4)O1—CE1xii2.3475 (2)
GD1—GD1ix3.8335 (5)O1—GD12.3475 (2)
GD1—GD1x3.8335 (5)O1—GD1iv2.3475 (2)
GD1—GD1xi3.8335 (5)O1—GD1viii2.3475 (2)
GD1—GD1xii3.8335 (5)O1—GD1xii2.3475 (2)
GD1—HO1i3.8335 (4)O1—HO12.3475 (2)
GD1—HO1ii3.8335 (4)O1—HO1iv2.3475 (2)
GD1—HO1iii3.8335 (4)O1—HO1viii2.3475 (2)
GD1—HO1iv3.8335 (4)O1—HO1xii2.3475 (2)
O1—CE1—O1xiii70.529 (10)O1xv—HO1—O1xvii70.529 (5)
O1—CE1—O1xiv70.529 (5)O1xv—HO1—O1xviii70.529 (10)
O1—CE1—O1xv70.529 (5)O1xv—HO1—O1xix109.471 (5)
O1—CE1—O1xvi109.471 (5)O1xvi—HO1—O1xvii109.471 (5)
O1—CE1—O1xvii109.471 (10)O1xvi—HO1—O1xviii109.471 (10)
O1—CE1—O1xviii109.471 (5)O1xvi—HO1—O1xix70.529 (5)
O1—CE1—O1xix180.0O1xvii—HO1—O1xviii109.471 (5)
O1xiii—CE1—O1xiv109.471 (5)O1xvii—HO1—O1xix70.529 (10)
O1xiii—CE1—O1xv109.471 (5)O1xviii—HO1—O1xix70.529 (5)
O1xiii—CE1—O1xvi70.529 (5)CE1—O1—CE1iv109.471 (5)
O1xiii—CE1—O1xvii180.0CE1—O1—CE1viii109.471 (5)
O1xiii—CE1—O1xviii70.529 (5)CE1—O1—CE1xii109.471 (10)
O1xiii—CE1—O1xix109.471 (10)CE1—O1—GD10.0
O1xiv—CE1—O1xv109.471 (10)CE1—O1—GD1iv109.471 (5)
O1xiv—CE1—O1xvi70.529 (10)CE1—O1—GD1viii109.471 (5)
O1xiv—CE1—O1xvii70.529 (5)CE1—O1—GD1xii109.471 (10)
O1xiv—CE1—O1xviii180.0CE1—O1—HO10.0
O1xiv—CE1—O1xix109.471 (5)CE1—O1—HO1iv109.471 (5)
O1xv—CE1—O1xvi180.0CE1—O1—HO1viii109.471 (5)
O1xv—CE1—O1xvii70.529 (5)CE1—O1—HO1xii109.471 (10)
O1xv—CE1—O1xviii70.529 (10)CE1iv—O1—CE1viii109.471 (10)
O1xv—CE1—O1xix109.471 (5)CE1iv—O1—CE1xii109.471 (5)
O1xvi—CE1—O1xvii109.471 (5)CE1iv—O1—GD1109.471 (5)
O1xvi—CE1—O1xviii109.471 (10)CE1iv—O1—GD1iv0.0
O1xvi—CE1—O1xix70.529 (5)CE1iv—O1—GD1viii109.471 (10)
O1xvii—CE1—O1xviii109.471 (5)CE1iv—O1—GD1xii109.471 (5)
O1xvii—CE1—O1xix70.529 (10)CE1iv—O1—HO1109.471 (5)
O1xviii—CE1—O1xix70.529 (5)CE1iv—O1—HO1iv0.0
O1—GD1—O1xiii70.529 (10)CE1iv—O1—HO1viii109.471 (10)
O1—GD1—O1xiv70.529 (5)CE1iv—O1—HO1xii109.471 (5)
O1—GD1—O1xv70.529 (5)CE1viii—O1—CE1xii109.471 (5)
O1—GD1—O1xvi109.471 (5)CE1viii—O1—GD1109.471 (5)
O1—GD1—O1xvii109.471 (10)CE1viii—O1—GD1iv109.471 (10)
O1—GD1—O1xviii109.471 (5)CE1viii—O1—GD1viii0.0
O1—GD1—O1xix180.0CE1viii—O1—GD1xii109.471 (5)
O1xiii—GD1—O1xiv109.471 (5)CE1viii—O1—HO1109.471 (5)
O1xiii—GD1—O1xv109.471 (5)CE1viii—O1—HO1iv109.471 (10)
O1xiii—GD1—O1xvi70.529 (5)CE1viii—O1—HO1viii0.0
O1xiii—GD1—O1xvii180.0CE1viii—O1—HO1xii109.471 (5)
O1xiii—GD1—O1xviii70.529 (5)CE1xii—O1—GD1109.471 (10)
O1xiii—GD1—O1xix109.471 (10)CE1xii—O1—GD1iv109.471 (5)
O1xiv—GD1—O1xv109.471 (10)CE1xii—O1—GD1viii109.471 (5)
O1xiv—GD1—O1xvi70.529 (10)CE1xii—O1—GD1xii0.0
O1xiv—GD1—O1xvii70.529 (5)CE1xii—O1—HO1109.471 (10)
O1xiv—GD1—O1xviii180.0CE1xii—O1—HO1iv109.471 (5)
O1xiv—GD1—O1xix109.471 (5)CE1xii—O1—HO1viii109.471 (5)
O1xv—GD1—O1xvi180.0CE1xii—O1—HO1xii0.0
O1xv—GD1—O1xvii70.529 (5)GD1—O1—GD1iv109.471 (5)
O1xv—GD1—O1xviii70.529 (10)GD1—O1—GD1viii109.471 (5)
O1xv—GD1—O1xix109.471 (5)GD1—O1—GD1xii109.471 (10)
O1xvi—GD1—O1xvii109.471 (5)GD1—O1—HO10.0
O1xvi—GD1—O1xviii109.471 (10)GD1—O1—HO1iv109.471 (5)
O1xvi—GD1—O1xix70.529 (5)GD1—O1—HO1viii109.471 (5)
O1xvii—GD1—O1xviii109.471 (5)GD1—O1—HO1xii109.471 (10)
O1xvii—GD1—O1xix70.529 (10)GD1iv—O1—GD1viii109.471 (10)
O1xviii—GD1—O1xix70.529 (5)GD1iv—O1—GD1xii109.471 (5)
O1—HO1—O1xiii70.529 (10)GD1iv—O1—HO1109.471 (5)
O1—HO1—O1xiv70.529 (5)GD1iv—O1—HO1iv0.0
O1—HO1—O1xv70.529 (5)GD1iv—O1—HO1viii109.471 (10)
O1—HO1—O1xvi109.471 (5)GD1iv—O1—HO1xii109.471 (5)
O1—HO1—O1xvii109.471 (10)GD1viii—O1—GD1xii109.471 (5)
O1—HO1—O1xviii109.471 (5)GD1viii—O1—HO1109.471 (5)
O1—HO1—O1xix180.0GD1viii—O1—HO1iv109.471 (10)
O1xiii—HO1—O1xiv109.471 (5)GD1viii—O1—HO1viii0.0
O1xiii—HO1—O1xv109.471 (5)GD1viii—O1—HO1xii109.471 (5)
O1xiii—HO1—O1xvi70.529 (5)GD1xii—O1—HO1109.471 (10)
O1xiii—HO1—O1xvii180.0GD1xii—O1—HO1iv109.471 (5)
O1xiii—HO1—O1xviii70.529 (5)GD1xii—O1—HO1viii109.471 (5)
O1xiii—HO1—O1xix109.471 (10)GD1xii—O1—HO1xii0.0
O1xiv—HO1—O1xv109.471 (10)HO1—O1—HO1iv109.471 (5)
O1xiv—HO1—O1xvi70.529 (10)HO1—O1—HO1viii109.471 (5)
O1xiv—HO1—O1xvii70.529 (5)HO1—O1—HO1xii109.471 (10)
O1xiv—HO1—O1xviii180.0HO1iv—O1—HO1viii109.471 (10)
O1xiv—HO1—O1xix109.471 (5)HO1iv—O1—HO1xii109.471 (5)
O1xv—HO1—O1xvi180.0HO1viii—O1—HO1xii109.471 (5)
Symmetry codes: (i) x, y1/2, z1/2; (ii) x, y1/2, z+1/2; (iii) x, y+1/2, z1/2; (iv) x, y+1/2, z+1/2; (v) x1/2, y, z1/2; (vi) x1/2, y, z+1/2; (vii) x+1/2, y, z1/2; (viii) x+1/2, y, z+1/2; (ix) x1/2, y1/2, z; (x) x1/2, y+1/2, z; (xi) x+1/2, y1/2, z; (xii) x+1/2, y+1/2, z; (xiii) x, y, z; (xiv) z, x, y; (xv) y, z, x; (xvi) z, x, y; (xvii) y, z, x; (xviii) y, z, x; (xix) x, y, z.
 

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