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Acta Cryst. (2016). B72, 716-722
https://doi.org/10.1107/S2052520616010428
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CH3NH3PbI3: precise structural consequences of water absorption at ambient conditions

A. Arakcheeva, D. Chernyshov, M. Spina, L. Forró and E. Horváth
The crystal structure of the pristine (I) and aged (II) crystals of CH3NH3PbI3 (hereafter MAPbI3) hybrid organic–inorganic lead iodide has been studied at 293 K with high-precision single-crystal X-ray diffraction using a synchrotron light source. We show that (I) and (II) are characterized by an identical tetragonal unit cell but different space groups: I422 for (I) and P42212 for (II). Both space groups are subgroups of I4/mcm, which is widely used for MAPbI3. The main difference between (I) and (II) comes from the difference in hydrogen bonds between the MA+ cation and the PbI3 framework which is the direct consequence of H2O insertion in the aged crystal (II).
Keywords: hybrid organic–inorganic lead iodide; hydrogen bonding; aged MAPbI3; perovskite; solar cells.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2052520616010428/dk5045sup1.cif
Contains datablocks global, I, II

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2052520616010428/dk5045Isup2.hkl
Contains datablock I

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2052520616010428/dk5045IIsup3.hkl
Contains datablock II

CCDC references: 1487955; 1487956

Computing details top

For both compounds, data collection: CrysAlis PRO, Agilent Technologies, Version 1.171.37.35 (release 13-08-2014 CrysAlis171 .NET) (compiled Aug 13 2014,18:06:01); cell refinement: CrysAlis PRO, Agilent Technologies, Version 1.171.37.35 (release 13-08-2014 CrysAlis171 .NET) (compiled Aug 13 2014,18:06:01); data reduction: CrysAlis PRO, Agilent Technologies, Version 1.171.37.35 (release 13-08-2014 CrysAlis171 .NET) (compiled Aug 13 2014,18:06:01); program(s) used to solve structure: Palatinus L. & Chapuis G. (2007). J. Appl. Cryst. 40, 786-790; program(s) used to refine structure: Petricek, V., Dusek, M. & Palatinus L. (2014). Z. Kristallogr. 229 (5), 345-352.

(I) top
Crystal data top
I3Pb·CH6NDx = 4.108 Mg m3
Mr = 619.97Synchrotron radiation, λ = 0.68362 Å
Tetragonal, I422Cell parameters from 4261 reflections
Hall symbol: I 4 2θ = 2.7–31.3°
a = 8.88375 (18) ŵ = 23.28 mm1
c = 12.7010 (3) ÅT = 293 K
V = 1002.38 (5) Å3Irregular, dark grey
Z = 40.0025 × 0.0020 × 0.0015 mm
F(000) = 1040
Data collection top
Dectris-CrysAlisPro-abstract goniometer imported dectris images
diffractometer		721 reflections with I > 3σ(I)
Radiation source: synchrotronRint = 0.029
Synchrotron monochromatorθmax = 31.3°, θmin = 2.7°
Absorption correction: empirical (using intensity measurements)
CrysAlisPro, Agilent Technologies, Version 1.171.37.35 (release 13-08-2014 CrysAlis171 .NET) (compiled Aug 13 2014,18:06:01) Empirical absorption correction using spherical harmonics, implemented in SCALE3 ABSPACK scaling algorithm.		h = 1313
Tmin = 0.582, Tmax = 1.000k = 1313
4261 measured reflectionsl = 1313
773 independent reflections
Refinement top
Refinement on FWeighting scheme based on measured s.u.'s w = 1/(σ2(F) + 0.0001F2)
R[F2 > 2σ(F2)] = 0.012(Δ/σ)max = 0.045
wR(F2) = 0.015Δρmax = 0.40 e Å3
S = 1.19Δρmin = 0.36 e Å3
773 reflectionsExtinction correction: B-C type 1 Gaussian isotropic (Becker & Coppens, 1974)
67 parametersExtinction coefficient: 394E1 (9)
1 restraintAbsolute structure: 305 of Friedel pairs used in the refinement
31 constraintsAbsolute structure parameter: 0.25 (13)
H-atom parameters constrained
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Pb1110.74980 (5)0.0374 (3)
I1_1110.50.0764 (7)
I1_21110.1027 (12)
I20.28604 (17)0.78604 (17)0.750.0873 (4)
C1.0436 (15)0.4947 (16)0.5240 (14)0.066 (6)*0.25
N0.934 (3)0.574 (3)0.4677 (11)0.086 (3)*0.25
H1n0.8503810.6031860.5160580.1031*0.25
H2n0.8941250.5093880.40980.1031*0.25
H3n0.9803790.6670290.436880.1031*0.25
H1c1.0307730.3843590.5112180.0791*0.25
H2c1.0320760.516040.6009240.0791*0.25
H3c1.145990.5267340.5002920.0791*0.25
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Pb10.0369 (3)0.0369 (3)0.0385 (6)000
I1_10.0951 (12)0.0951 (12)0.0389 (15)000
I1_20.142 (2)0.142 (2)0.0233 (13)000
I20.0711 (5)0.0711 (5)0.1198 (10)0.0413 (4)0.0037 (5)0.0037 (5)
Geometric parameters (Å, º) top
Pb1—I1_13.1727 (7)Pb1—I2iii3.1733 (15)
Pb1—I1_23.1777 (7)Pb1—I2iv3.1733 (15)
Pb1—I2i3.1733 (15)C—N1.40 (3)
Pb1—I2ii3.1733 (15)
I1_1—Pb1—I1_2180.0 (5)I2i—Pb1—I2ii179.91 (2)
I1_1—Pb1—I2i90.045 (12)I2i—Pb1—I2iii90.00 (4)
I1_1—Pb1—I2ii90.045 (12)I2i—Pb1—I2iv90.00 (4)
I1_1—Pb1—I2iii90.045 (12)I2ii—Pb1—I2iii90.00 (4)
I1_1—Pb1—I2iv90.045 (12)I2ii—Pb1—I2iv90.00 (4)
I1_2—Pb1—I2i89.955 (12)I2iii—Pb1—I2iv179.91 (2)
I1_2—Pb1—I2ii89.955 (12)Pb1—I1_1—Pb1v180.0 (5)
I1_2—Pb1—I2iii89.955 (12)Pb1—I1_2—Pb1vi180.0 (5)
I1_2—Pb1—I2iv89.955 (12)Pb1vii—I2—Pb1viii163.59 (5)
Symmetry codes: (i) x+1, y, z; (ii) x+1, y+2, z; (iii) y+2, x+1, z; (iv) y, x+1, z; (v) x+2, y, z+1; (vi) x+2, y, z+2; (vii) x1, y, z; (viii) x+3/2, y1/2, z+3/2.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N—H1n···I2iv1.003.184.017 (17)141.93
N—H2n···I2ix1.003.003.99 (2)173.69
N—H3n···I1_11.003.073.85 (3)135.68
N—H3n···I2x1.003.183.92 (2)131.83
Symmetry codes: (iv) y, x+1, z; (ix) x+1/2, y1/2, z1/2; (x) x+3/2, y+3/2, z1/2.
(II) top
Crystal data top
I2.982Pb·0.925(CH6N)·0.088(O)Dx = 4.085 Mg m3
Mr = 616.41Synchrotron radiation, λ = 0.68362 Å
Tetragonal, P42212Cell parameters from 17735 reflections
Hall symbol: P 4n 2nθ = 2.7–31.6°
a = 8.8829 (3) ŵ = 23.23 mm1
c = 12.7008 (4) ÅT = 293 K
V = 1002.17 (7) Å3Irregular, black
Z = 40.0025 × 0.0020 × 0.0015 mm
F(000) = 1032.8
Data collection top
Dectris-CrysAlisPro-abstract goniometer imported dectris images
diffractometer		4191 independent reflections
Radiation source: synchrotron1704 reflections with I > 3σ(I)
Synchrotron monochromatorRint = 0.071
ω scansθmax = 31.6°, θmin = 2.7°
Absorption correction: empirical (using intensity measurements)
CrysAlisPro, Agilent Technologies, Version 1.171.37.35 (release 13-08-2014 CrysAlis171 .NET) (compiled Aug 13 2014,18:06:01) Empirical absorption correction using spherical harmonics, implemented in SCALE3 ABSPACK scaling algorithm.		h = 1212
Tmin = 0.399, Tmax = 1.000k = 1313
17735 measured reflectionsl = 1818
Refinement top
Refinement on FWeighting scheme based on measured s.u.'s w = 1/(σ2(F) + 0.0001F2)
R[F2 > 2σ(F2)] = 0.041(Δ/σ)max = 0.049
wR(F2) = 0.068Δρmax = 0.66 e Å3
S = 1.52Δρmin = 0.88 e Å3
4191 reflectionsExtinction correction: B-C type 1 Gaussian isotropic (Becker & Coppens, 1974)
195 parametersExtinction coefficient: 19E1 (5)
2 restraintsAbsolute structure: 1031 of Friedel pairs used in the refinement
14 constraintsAbsolute structure parameter: 0.09 (5)
H-atom parameters constrained
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Pb1000.7490 (6)0.050 (2)
I1_1000.50.111 (5)0.96 (2)
I1_20000.092 (4)
I20.2838 (4)0.7681 (4)0.7494 (3)0.122 (2)
C10.033 (5)0.497 (6)0.559 (3)0.053 (10)*0.167 (12)
C20.032 (5)0.504 (6)0.472 (3)0.045 (9)*0.295 (12)
N10.085 (5)0.568 (5)0.467 (3)0.041 (9)*0.167 (12)
N20.080 (4)0.442 (5)0.536 (3)0.081 (12)*0.295 (12)
H1n10.1927010.5986380.4770150.0497*0.167 (12)
H1n20.181010.4797060.5132530.0965*0.295 (12)
H2n10.0226090.6592760.4529150.0497*0.167 (12)
H2n20.0777220.3295940.5302910.0965*0.295 (12)
H3n10.0776350.4970490.4062590.0497*0.167 (12)
H3n20.0622610.4715820.6112390.0965*0.295 (12)
O10.510.811 (5)0.010 (5)*0.088 (18)
H1c10.0790870.4927890.5574280.0633*0.167 (12)
H2c10.0745370.3919960.561620.0633*0.167 (12)
H3c10.0677210.5543660.6217240.0633*0.167 (12)
H1c20.1205230.4348090.4701330.0545*0.295 (12)
H2c20.0636080.6036470.5017990.0545*0.295 (12)
H3c20.0083070.5185310.3995360.0545*0.295 (12)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Pb10.070 (4)0.053 (3)0.026 (4)0.0009 (4)00
I1_10.164 (11)0.164 (11)0.004 (2)0.028 (4)00
I1_20.137 (9)0.137 (9)0.003 (2)0.000 (3)00
I20.066 (3)0.150 (4)0.149 (5)0.043 (3)0.022 (3)0.033 (3)
Geometric parameters (Å, º) top
Pb1—I1_13.162 (7)C1—N11.40 (6)
Pb1—I1_2i3.188 (7)C1—O1vii1.68 (8)
Pb1—I2ii3.255 (3)C2—N21.40 (6)
Pb1—I2iii3.255 (3)C2—O1vii2.76 (8)
Pb1—I2iv3.060 (3)N1—O1vii2.97 (8)
Pb1—I2v3.060 (3)N2—O1vii2.12 (7)
I2—O1vi2.924 (19)
I1_1—Pb1—I1_2i180.0 (5)I2ii—Pb1—I2iv90.37 (9)
I1_1—Pb1—I2ii90.10 (14)I2ii—Pb1—I2v89.63 (9)
I1_1—Pb1—I2iii90.10 (14)I2iii—Pb1—I2iv89.63 (9)
I1_1—Pb1—I2iv90.37 (15)I2iii—Pb1—I2v90.37 (9)
I1_1—Pb1—I2v90.37 (15)I2iv—Pb1—I2v179.3 (3)
I1_2i—Pb1—I2ii89.90 (14)Pb1—I1_1—Pb1viii180.0 (5)
I1_2i—Pb1—I2iii89.90 (14)Pb1ix—I1_2—Pb1viii180.0 (5)
I1_2i—Pb1—I2iv89.63 (15)Pb1x—I2—Pb1xi168.13 (12)
I1_2i—Pb1—I2v89.63 (15)Pb1x—I2—O1vi93.64 (9)
I2ii—Pb1—I2iii179.8 (3)Pb1xi—I2—O1vi97.71 (13)
Symmetry codes: (i) x, y, z+1; (ii) x, y1, z; (iii) x, y+1, z; (iv) x+1/2, y1/2, z+3/2; (v) x1/2, y+1/2, z+3/2; (vi) x+1, y, z; (vii) x1/2, y1/2, z+3/2; (viii) y, x, z+1; (ix) x, y, z1; (x) x, y+1, z; (xi) x+1/2, y+1/2, z+3/2.
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1n1···I1_2xii1.002.883.76 (5)146.48
N2—H1n2···I1_2xii1.002.843.79 (4)158.44
N1—H2n1···I1_1x1.003.093.93 (5)142.64
N2—H2n2···I1_11.003.034.02 (4)167.76
N1—H3n1···I2xiii1.003.063.95 (4)149.20
N1—H3n1···O1xiv1.002.853.67 (8)139.55
N2—H3n2···O1vii1.001.162.12 (7)160.58
C1—H3c1···I2xv1.002.633.60 (5)163.83
C2—H3c2···O1xiv1.002.693.62 (8)154.90
Symmetry codes: (vii) x1/2, y1/2, z+3/2; (x) x, y+1, z; (xii) y1/2, x+1/2, z+1/2; (xiii) y1, x, z+1; (xiv) y1, x+1, z+1; (xv) x1/2, y+3/2, z+3/2.
 

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