Modulated one-dimensional structure of [Cd(NH3)3Ni(CN)4]

Petříček, V.; Dušek, M.; Černák, J.

doi:10.1107/S0108768105012632

Modulated one-dimensional structure of [Cd(NH₃)₃Ni(CN)₄]

The crystal structure of [Cd(NH₃)₃Ni(CN)₄] has been solved and refined as an incommensurate structure in four-dimensional superspace. The Xcalibur point-detector diffractometer was used for data collection up to the third-order satellites. The structure was refined from 3496 observed reflections to a final R value of 0.0371. The modulation strongly affects all the atoms of the structure. The dominating feature of the modulation is the incommensurate alternation between octahedrally and tetrahedrally coordinated Cd atoms in the electroneutral chains [—Cd(NH₃)_n—NC—Ni(CN)₂—CN—]_∞ (n alternates between 2 and 4). The chain is propagated along the a axis, in which the [Cd(NH₃)_n]²⁺ cations are linked by square [Ni(CN)₄]²⁻ anions. The atomic positional modulations, having mainly a transversal character in the c-direction, exhibit a switching character that can be described by the crenel and sawtooth functions. The effectively pentagonal coordinated cadmium positions were detected in the intermediate regions.

Keywords: modulated structure; cyanocomplex.

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Supporting information

	Crystallographic Information File (CIF) https://doi.org/10.1107/S0108768105012632/sn5017sup1.cif Contains datablocks global, I
	Structure factor file (CIF format) https://doi.org/10.1107/S0108768105012632/sn5017sup2.hkl Supplementary material
	Portable Document Format (PDF) file https://doi.org/10.1107/S0108768105012632/sn5017sup3.pdf Supplementary material

Computing details top

Data reduction: (Jana2000; Petricek and Dusek, 2000); program(s) used to solve structure: IR97 (Altomare et al., 1997); program(s) used to refine structure: Jana2000 (Petricek and Dusek, 2000); software used to prepare material for publication: (Jana2000; Petricek and Dusek, 2000).

Figures top

(I) top

Crystal data top

C₄H₉CdN₇NiO₀	F(000) = 620
M_r = 326.3	D_x = 2.105 Mg m⁻³
Monoclinic, C2/c(α0γ)0s†	Mo Kα radiation, λ = 0.71069 Å
q = 0.43650a* + 0.13070c*	Cell parameters from 30 reflections
a = 8.4867 (14) Å	θ = 9.1–16.3°
b = 15.951 (3) Å	µ = 3.86 mm⁻¹
c = 7.604 (3) Å	T = 260 K
β = 90.48 (2)°	Irregular, gold-yellow
V = 1029.3 (4) Å³	0.35 × 0.09 × 0.07 mm
Z = 4

† Symmetry operations: (1) x₁, x₂, x₃, x₄; (2) −x₁, x₂, 1/2−x₃, 1/2−x₄; (3) −x₁, −x₂, −x₃, −x₄; (4) x₁, −x₂, 1/2+x₃, 1/2+x₄; (5) 1/2+x₁, 1/2+x₂, x₃, x₄; (6) 1/2−x₁, 1/2+x₂, 1/2−x₃, 1/2−x₄; (7) 1/2−x₁, 1/2−x₂, −x₃, −x₄; (8) 1/2+x₁, 1/2−x₂, 1/2+x₃, 1/2+x₄.

Data collection top

Oxford Diffraction point detector diffractometer	R_int = 0.086
θ/2θ scans	θ_max = 27.1°, θ_min = 1.5°
Absorption correction: gaussian (Jana2000; Petricek, Dusek & Palatinus, 2000)	h = 0→12
T_min = 0.660, T_max = 0.807	k = −20→20
15484 measured reflections	l = −10→10
7894 independent reflections	3 standard reflections every 100 reflections
3496 reflections with I > 3σ(I)	intensity decay: 1.4%

Refinement top

Refinement on F	Restrained
R[F² > 2σ(F²)] = 0.037	Weighting scheme based on measured s.u.'s w = 1/[σ²(F) + 0.0001F²]
wR(F²) = 0.043	(Δ/σ)_max < 0.001
S = 1.78	Δρ_max = 0.95 e Å⁻³
3496 reflections	Δρ_min = −0.99 e Å⁻³
275 parameters

Crystal data top

C₄H₉CdN₇NiO₀	β = 90.48 (2)°
M_r = 326.3	V = 1029.3 (4) Å³
Monoclinic, C2/c(α0γ)0s†	Z = 4
q = 0.43650a* + 0.13070c*	Mo Kα radiation
a = 8.4867 (14) Å	µ = 3.86 mm⁻¹
b = 15.951 (3) Å	T = 260 K
c = 7.604 (3) Å	0.35 × 0.09 × 0.07 mm

Data collection top

Oxford Diffraction point detector diffractometer	3496 reflections with I > 3σ(I)
Absorption correction: gaussian (Jana2000; Petricek, Dusek & Palatinus, 2000)	R_int = 0.086
T_min = 0.660, T_max = 0.807	3 standard reflections every 100 reflections
15484 measured reflections	intensity decay: 1.4%
7894 independent reflections

Refinement top

R[F² > 2σ(F²)] = 0.037	275 parameters
wR(F²) = 0.043	Restrained
S = 1.78	Δρ_max = 0.95 e Å⁻³
3496 reflections	Δρ_min = −0.99 e Å⁻³

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å²) top

	x	y	z	U_iso*/U_eq
Cd1	1	0.20155 (4)	0.25	0.0247 (2)
Cd2	1	0.14519 (4)	0.25	0.0367 (2)
Ni	0.5	−0.01073 (3)	0.25	0.02530 (17)
C1	0.6550 (4)	0.07102 (18)	0.2481 (4)	0.0282 (9)
N1	0.7525 (3)	0.12053 (17)	0.2469 (4)	0.0371 (9)
C2	0.6550 (4)	−0.09278 (19)	0.2478 (4)	0.0311 (10)
N2	0.7485 (4)	−0.1440 (2)	0.2471 (4)	0.0455 (11)
N4	0.9962 (6)	0.0300 (3)	0.4583 (7)	0.0480 (16)
N3	0.9982 (4)	0.23658 (17)	−0.0019 (4)	0.0381 (9)
H31	0.921 (4)	0.209 (3)	−0.036 (7)	0.149 (16)*
H32	1.081 (4)	0.217 (3)	−0.046 (7)	0.149 (16)*
H33	0.987 (7)	0.2854 (14)	−0.032 (7)	0.149 (16)*

Atomic displacement parameters (Å²) top

	U¹¹	U²²	U³³	U¹²	U¹³	U²³
Cd1	0.0283 (6)	0.0237 (3)	0.0221 (3)	0	0.0006 (3)	0
Cd2	0.0253 (3)	0.0415 (4)	0.0434 (4)	0	−0.0008 (2)	0
Ni	0.0195 (3)	0.0215 (3)	0.0350 (3)	0	0.0007 (2)	0
C1	0.0249 (14)	0.0247 (15)	0.0350 (17)	0.0026 (12)	−0.0009 (13)	−0.0001 (12)
N1	0.0316 (14)	0.0337 (16)	0.0461 (18)	−0.0038 (12)	0.0002 (12)	0.0000 (12)
C2	0.0272 (17)	0.0325 (17)	0.0337 (18)	−0.0003 (13)	0.0004 (13)	−0.0006 (12)
N2	0.0404 (17)	0.045 (2)	0.0507 (19)	0.0115 (15)	0.0001 (14)	0.0012 (15)
N4	0.050 (3)	0.047 (2)	0.047 (3)	−0.0017 (19)	0.001 (2)	0.0165 (19)
N3	0.0392 (17)	0.0393 (15)	0.0358 (16)	0.0007 (12)	0.0003 (13)	0.0026 (12)

Geometric parameters (Å, º) top

	Average	Minimum	Maximum
Cd1—N1	2.28 (3)	2.23 (3)	2.38 (2)
Cd1—N3	2.187 (19)	2.046 (19)	2.25 (2)
Cd1—N2ⁱ	3.03 (3)	2.70 (3)	3.33 (3)
Cd2—N1	2.39 (2)	2.249 (15)	2.470 (17)
Cd2—N3	2.305 (18)	2.222 (17)	2.516 (17)
Cd2—N4	2.40 (2)	2.320 (18)	2.596 (18)
Ni—C1	1.85 (2)	1.78 (3)	1.89 (3)
Ni—C2	1.865 (19)	1.687 (19)	2.065 (19)
N1—C1	1.15 (3)	1.12 (2)	1.18 (4)
N2—C2	1.15 (3)	1.11 (3)	1.20 (3)
N3—N2ⁱⁱ	3.22 (2)	3.11 (2)	3.38 (2)
N3—N2ⁱⁱⁱ	3.22 (2)	3.11 (2)	3.38 (2)

N1—Cd1—N1^iv	101.6 (12)	99.7 (15)	102.8 (12)
N1—Cd1—N3	98.6 (9)	95.0 (8)	102.3 (10)
N1—Cd1—N3^iv	99.4 (9)	92.1 (7)	106.0 (11)
N1—Cd1—N2ⁱ	170.6 (11)	162.9 (8)	174.6 (10)
N1—Cd1—N2^v	87.5 (7)	80.4 (6)	93.4 (9)
N3—Cd1—N3^iv	150.3 (14)	148.8 (13)	152.6 (19)
N3—Cd1—N2ⁱ	79.0 (8)	75.4 (7)	82.3 (8)
N3—Cd1—N2^v	79.4 (8)	76.7 (7)	81.6 (8)
N2ⁱ—Cd1—N2^v	83.4 (8)	83.1 (7)	83.7 (10)
N1—Cd2—N1^iv	165.1 (10)	155.0 (10)	172.7 (12)
N1—Cd2—N3	93.7 (7)	91.4 (7)	96.1 (9)
N1—Cd2—N3^iv	95.2 (7)	85.7 (6)	109.0 (9)
N1—Cd2—N4	85.5 (9)	78.4 (7)	88.3 (9)
N1—Cd2—N4^iv	85.3 (8)	82.7 (8)	86.8 (8)
N3—Cd2—N3^iv	100.6 (8)	95.4 (10)	109.5 (7)
N3—Cd2—N4	169.3 (8)	152.7 (7)	175.6 (11)
N3—Cd2—N4^iv	90.2 (7)	82.5 (5)	96.0 (6)
N4—Cd2—N4^iv	83.0 (10)	77.8 (8)	86.4 (12)
Cd1—N1—C1	175 (2)	167.9 (14)	178 (2)
Cd2—N1—C1	140.8 (18)	135.9 (14)	145.4 (14)
Ni—C1—N1	178 (2)	177 (2)	179.4 (17)
Cd1^vi—N2—C2	98.9 (14)	90.3 (13)	108.9 (14)
Ni—C2—N2	176.1 (18)	168.5 (17)	179.9 (18)

Symmetry codes: (i) x₁+1/2, x₂+1/2, x₃, x₄; (ii) −x₁+2, −x₂, −x₃, −x₄; (iii) x₁, −x₂, x₃−1/2, x₁/2; (iv) −x₁+2, x₂, −x₃+1/2, −x₁/2; (v) −x₁+3/2, x₂+1/2, −x₃+1/2, −x₁/2; (vi) x₁−1/2, x₂−1/2, x₃, x₄.

Experimental details

Crystal data
Chemical formula	C₄H₉CdN₇NiO₀
M_r	326.3
Crystal system, space group	Monoclinic, C2/c(α0γ)0s†
Temperature (K)	260
Wave vectors	q = 0.43650a* + 0.13070c*
a, b, c (Å)	8.4867 (14), 15.951 (3), 7.604 (3)
β (°)	90.48 (2)
V (Å³)	1029.3 (4)
Z	4
Radiation type	Mo Kα
µ (mm⁻¹)	3.86
Crystal size (mm)	0.35 × 0.09 × 0.07

Data collection
Diffractometer	Oxford Diffraction point detector
Absorption correction	Gaussian (Jana2000; Petricek, Dusek & Palatinus, 2000)
T_min, T_max	0.660, 0.807
No. of measured, independent and observed [I > 3σ(I)] reflections	15484, 7894, 3496
R_int	0.086
(sin θ/λ)_max (Å⁻¹)	0.641

Refinement
R[F² > 2σ(F²)], wR(F²), S	0.037, 0.043, 1.78
No. of reflections	3496
No. of parameters	275
No. of restraints	?
H-atom treatment	Restrained
Δρ_max, Δρ_min (e Å⁻³)	0.95, −0.99

Computer programs: (Jana2000; Petricek and Dusek, 2000), IR97 (Altomare et al., 1997), Jana2000 (Petricek and Dusek, 2000).

Selected geometric parameters (Å, º) top

	Average	Minimum	Maximum
Cd1—N1	2.28 (3)	2.23 (3)	2.38 (2)
Cd1—N3	2.187 (19)	2.046 (19)	2.25 (2)
Cd1—N2ⁱ	3.03 (3)	2.70 (3)	3.33 (3)
Cd2—N1	2.39 (2)	2.249 (15)	2.470 (17)
Cd2—N3	2.305 (18)	2.222 (17)	2.516 (17)
Cd2—N4	2.40 (2)	2.320 (18)	2.596 (18)
Ni—C1	1.85 (2)	1.78 (3)	1.89 (3)
Ni—C2	1.865 (19)	1.687 (19)	2.065 (19)
N1—C1	1.15 (3)	1.12 (2)	1.18 (4)
N2—C2	1.15 (3)	1.11 (3)	1.20 (3)
N3—N2ⁱⁱ	3.22 (2)	3.11 (2)	3.38 (2)
N3—N2ⁱⁱⁱ	3.22 (2)	3.11 (2)	3.38 (2)

N1—Cd1—N1^iv	101.6 (12)	99.7 (15)	102.8 (12)
N1—Cd1—N3	98.6 (9)	95.0 (8)	102.3 (10)
N1—Cd1—N3^iv	99.4 (9)	92.1 (7)	106.0 (11)
N1—Cd1—N2ⁱ	170.6 (11)	162.9 (8)	174.6 (10)
N1—Cd1—N2^v	87.5 (7)	80.4 (6)	93.4 (9)
N3—Cd1—N3^iv	150.3 (14)	148.8 (13)	152.6 (19)
N3—Cd1—N2ⁱ	79.0 (8)	75.4 (7)	82.3 (8)
N3—Cd1—N2^v	79.4 (8)	76.7 (7)	81.6 (8)
N2ⁱ—Cd1—N2^v	83.4 (8)	83.1 (7)	83.7 (10)
N1—Cd2—N1^iv	165.1 (10)	155.0 (10)	172.7 (12)
N1—Cd2—N3	93.7 (7)	91.4 (7)	96.1 (9)
N1—Cd2—N3^iv	95.2 (7)	85.7 (6)	109.0 (9)
N1—Cd2—N4	85.5 (9)	78.4 (7)	88.3 (9)
N1—Cd2—N4^iv	85.3 (8)	82.7 (8)	86.8 (8)
N3—Cd2—N3^iv	100.6 (8)	95.4 (10)	109.5 (7)
N3—Cd2—N4	169.3 (8)	152.7 (7)	175.6 (11)
N3—Cd2—N4^iv	90.2 (7)	82.5 (5)	96.0 (6)
N4—Cd2—N4^iv	83.0 (10)	77.8 (8)	86.4 (12)
Cd1—N1—C1	175 (2)	167.9 (14)	178 (2)
Cd2—N1—C1	140.8 (18)	135.9 (14)	145.4 (14)
Ni—C1—N1	178 (2)	177 (2)	179.4 (17)
Cd1^vi—N2—C2	98.9 (14)	90.3 (13)	108.9 (14)
Ni—C2—N2	176.1 (18)	168.5 (17)	179.9 (18)

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