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metal-organic compounds\(\def\hfill{\hskip 5em}\def\hfil{\hskip 3em}\def\eqno#1{\hfil {#1}}\)

Journal logoCRYSTALLOGRAPHIC
COMMUNICATIONS
ISSN: 2056-9890
Volume 66| Part 5| May 2010| Page m572
https://doi.org/10.1107/S1600536810014662

Di-n-but­yl{4-hydr­­oxy-N′-[(2-oxido-1-naphthyl-κO)methyl­ene]benzo­hydrazidato-κ2O,N′}tin(IV)

Md. Abu Affan,a Norrihan Sam,a Fasihuddin Ahmada and Seik Weng Ngb*

aFaculty of Resource Science and Technology, Universiti Malaysia Sarawak, 94300 Kota Samarahan, Sarawak, Malaysia, and bDepartment of Chemistry, University of Malaya, 50603 Kuala Lumpur, Malaysia
*Correspondence e-mail: seikweng@um.edu.my

(Received 19 April 2010; accepted 21 April 2010; online 24 April 2010)

The deprotonated Schiff base ligand in the title compound, [Sn(C4H9)2(C18H12N2O3)], O,N,O′-chelates to the Sn atom, which is five-coordinated in a cis-C2NO2Sn trigonal-bipyramidal environment. The apical sites are occupied by the O atoms [O—Sn—O = 155.2 (2)°]. The hydr­oxy group is a hydrogen-bond donor to the two-coordinate N atom of an adjacent mol­ecule, the hydrogen-bonding inter­action giving rise to a helical chain running along the c axis. The carbon atoms of the butyl chains are equally disordered over two positions.

Related literature

For the synthesis of the Schiff base, see: Cui et al. (2007[Cui, J.-C., Pan, Q.-X., Yin, H.-D. & Qiao, Y.-L. (2007). Acta Cryst. E63, o2633.]).

[Scheme 1]

Experimental

Crystal data

  • [Sn(C4H9)2(C18H12N2O3)]

  • Mr = 537.21

  • Monoclinic, P 21 /c

  • a = 11.6644 (9) Å

  • b = 17.2500 (14) Å

  • c = 12.9296 (11) Å

  • β = 106.793 (1)°

  • V = 2490.6 (4) Å3

  • Z = 4

  • Mo Kα radiation

  • μ = 1.05 mm−1

  • T = 293 K

  • 0.40 × 0.40 × 0.10 mm
Data collection

  • Bruker SMART APEX diffractometer

  • Absorption correction: multi-scan (SADABS; Sheldrick, 1996[Sheldrick, G. M. (1996). SADABS. University of Göttingen, Germany.]) Tmin = 0.678, Tmax = 0.902

  • 19289 measured reflections

  • 4391 independent reflections

  • 2953 reflections with I > 2σ(I)

  • Rint = 0.038
Refinement

  • R[F2 > 2σ(F2)] = 0.057

  • wR(F2) = 0.189

  • S = 1.03

  • 4391 reflections

  • 314 parameters

  • 78 restraints

  • H-atom parameters constrained

  • Δρmax = 1.19 e Å−3

  • Δρmin = −1.14 e Å−3

Table 1
Hydrogen-bond geometry (Å, °)

D—H⋯A D—H H⋯A DA D—H⋯A
O3—H3⋯N2i 0.84 1.99 2.824 (6) 177
Symmetry code: (i) [x, -y+{\script{3\over 2}}, z-{\script{1\over 2}}].

Data collection: APEX2 (Bruker, 2009[Bruker (2009). APEX2 and SAINT. Bruker AXS Inc., Madison, Wisconsin, USA.]); cell refinement: SAINT (Bruker, 2009[Bruker (2009). APEX2 and SAINT. Bruker AXS Inc., Madison, Wisconsin, USA.]); data reduction: SAINT; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]); molecular graphics: X-SEED (Barbour, 2001[Barbour, L. J. (2001). J. Supramol. Chem. 1, 189-191.]); software used to prepare material for publication: publCIF (Westrip, 2010[Westrip, S. P. (2010). J. Appl. Cryst. 43. Submitted.]).

Supporting information

Crystal structure: contains datablocks global, I. DOI: https://doi.org/10.1107/S1600536810014662/bt5252sup1.cif

Structure factors: contains datablock I. DOI: https://doi.org/10.1107/S1600536810014662/bt5252Isup2.hkl

checkCIF report


Comment top

There are numerous reports of metal complexes of the Schiff bases derived by condensing salicylaldehyde (and related compounds) with benzohydrazide (and related compounds). E)-4-Hydroxy-N'-[(2-hydroxynaphthalen-1-yl)methylene]benzohydrazide is a less studied ligand. The deprotonated Schiff-base ligand in the title compound O,N,O'-chelates to the tin atom, which is five coordinate in a cis-C2NO2Sn trigonal bipyramidal environment (Scheme I, Fig. 1). The apical sites are occupied by the oxgen atoms [O–Sn–O 155.2 (2) °]. Both butyl chains are disordered over two positions in a 1:1 ratio.

Related literature top

For the synthesis of the Schiff base, see: Cui et al. (2007).

Experimental top

(E)-4-Hydroxy-N'-[(2-hydroxynaphthalen-1-yl)methylene]benzohydrazide was synthesized according to a literature method (Cui et al., 2007). The compound (0.61 g, 2 mmole) was dissolved in methanol (20 ml). Potassium hydroxide (0.23 g, 4 mmol) dissolved in methanol (5 ml) was added. The orange solution was then treated with di-n-butyltin dichloride (0.61 g, 2 mmol) in methanol (10 ml). The mixture was heated for an hour. The solution was filtered. The evaporation of the solvent gave a product that was recrystallized from ether in 70% yield; m.p. 455-457 K.

Refinement top

Hydrogen atoms were placed in calculated positions (C—H 0.93 to 0.97, O–H 0.84 Å) and were included in the refinement in the riding model approximation, with U(H) set to 1.2 to 1.5Ueq(C,O).

The carbon atoms of the butyl chains are disordered over two positions; the occupancy could not be refined, and was assumed to be 50:50. The 1,2-related carbon-carbon distances were restrained to 1.54±0.01Å and the 1,3-related ones to 2.51±0.01 Å. The displacement ellipsoids of the primed atoms were restrained to be similar to those of the unprimed ones; furthermore, the ADP's were restrained to be nearly isotropic.

The final difference Fourier map had a peak/hole in the vicinity of Sn1.

Structure description top

There are numerous reports of metal complexes of the Schiff bases derived by condensing salicylaldehyde (and related compounds) with benzohydrazide (and related compounds). E)-4-Hydroxy-N'-[(2-hydroxynaphthalen-1-yl)methylene]benzohydrazide is a less studied ligand. The deprotonated Schiff-base ligand in the title compound O,N,O'-chelates to the tin atom, which is five coordinate in a cis-C2NO2Sn trigonal bipyramidal environment (Scheme I, Fig. 1). The apical sites are occupied by the oxgen atoms [O–Sn–O 155.2 (2) °]. Both butyl chains are disordered over two positions in a 1:1 ratio.

For the synthesis of the Schiff base, see: Cui et al. (2007).

Computing details top

Data collection: APEX2 (Bruker, 2009); cell refinement: SAINT (Bruker, 2009); data reduction: SAINT (Bruker, 2009); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: X-SEED (Barbour, 2001); software used to prepare material for publication: publCIF (Westrip, 2010).

Figures top
[Figure 1] Fig. 1. Anisotropic displacement ellipsoid plot (Barbour, 2001) of Sn(C4H9)2(C18H12N2O3) at the 50% probability level; hydrogen atoms are drawn as spheres of arbitrary radius. The disorder in the butyl chains is not shown.
Di-n-butyl{4-hydroxy-N'-[(2-oxido-1-naphthyl- κO)methylene]benzohydrazidato-κ2O,N'}tin(IV) top
Crystal data top
[Sn(C4H9)2(C18H12N2O3)]F(000) = 1096
Mr = 537.21Dx = 1.433 Mg m3
Monoclinic, P21/cMo Kα radiation, λ = 0.71073 Å
Hall symbol: -P 2ybcCell parameters from 4338 reflections
a = 11.6644 (9) Åθ = 2.2–21.2°
b = 17.2500 (14) ŵ = 1.05 mm1
c = 12.9296 (11) ÅT = 293 K
β = 106.793 (1)°Plate, orange
V = 2490.6 (4) Å30.40 × 0.40 × 0.10 mm
Z = 4
Data collection top
Bruker SMART APEX
diffractometer		4391 independent reflections
Radiation source: fine-focus sealed tube2953 reflections with I > 2σ(I)
Graphite monochromatorRint = 0.038
ω scansθmax = 25.0°, θmin = 1.8°
Absorption correction: multi-scan
(SADABS; Sheldrick, 1996)		h = 1313
Tmin = 0.678, Tmax = 0.902k = 2020
19289 measured reflectionsl = 1515
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.057Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.189H-atom parameters constrained
S = 1.03 w = 1/[σ2(Fo2) + (0.0911P)2 + 4.703P]
where P = (Fo2 + 2Fc2)/3
4391 reflections(Δ/σ)max = 0.001
314 parametersΔρmax = 1.19 e Å3
78 restraintsΔρmin = 1.14 e Å3
Crystal data top
[Sn(C4H9)2(C18H12N2O3)]V = 2490.6 (4) Å3
Mr = 537.21Z = 4
Monoclinic, P21/cMo Kα radiation
a = 11.6644 (9) ŵ = 1.05 mm1
b = 17.2500 (14) ÅT = 293 K
c = 12.9296 (11) Å0.40 × 0.40 × 0.10 mm
β = 106.793 (1)°
Data collection top
Bruker SMART APEX
diffractometer		4391 independent reflections
Absorption correction: multi-scan
(SADABS; Sheldrick, 1996)		2953 reflections with I > 2σ(I)
Tmin = 0.678, Tmax = 0.902Rint = 0.038
19289 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.05778 restraints
wR(F2) = 0.189H-atom parameters constrained
S = 1.03Δρmax = 1.19 e Å3
4391 reflectionsΔρmin = 1.14 e Å3
314 parameters
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
Sn10.23178 (5)0.55623 (3)0.50133 (4)0.0893 (3)
O10.2190 (5)0.4955 (4)0.6362 (5)0.1033 (17)
O20.3235 (5)0.6123 (3)0.4016 (4)0.0965 (16)
O30.6606 (4)0.8107 (3)0.2051 (3)0.0807 (13)
H30.60960.83440.15600.121*
N10.4181 (5)0.5601 (2)0.5908 (4)0.0602 (12)
N20.4920 (4)0.6041 (3)0.5446 (3)0.0602 (12)
C10.100 (2)0.6351 (12)0.4946 (19)0.145 (6)0.50
H1A0.07950.66120.42530.174*0.50
H1B0.02850.60800.49980.174*0.50
C20.1348 (19)0.6952 (16)0.584 (2)0.161 (7)0.50
H2A0.20070.72620.57520.193*0.50
H2B0.16110.66950.65360.193*0.50
C30.026 (2)0.7481 (16)0.5794 (19)0.188 (7)0.50
H3A0.01990.78900.52660.226*0.50
H3B0.04770.71800.55850.226*0.50
C40.044 (3)0.7835 (19)0.693 (2)0.212 (9)0.50
H4A0.02080.81820.69150.319*0.50
H4B0.11830.81140.71430.319*0.50
H4C0.04570.74270.74410.319*0.50
C50.143 (2)0.4749 (16)0.3952 (13)0.108 (5)0.50
H5A0.18200.42520.41690.130*0.50
H5B0.06250.47100.40080.130*0.50
C60.136 (2)0.4884 (13)0.2768 (13)0.134 (6)0.50
H6A0.21650.49070.26930.161*0.50
H6B0.09760.53780.25360.161*0.50
C70.066 (3)0.4238 (13)0.2044 (14)0.171 (7)0.50
H7A0.01010.41560.21940.205*0.50
H7B0.11090.37580.21830.205*0.50
C80.044 (3)0.4484 (17)0.0853 (13)0.189 (7)0.50
H8A0.00440.40720.03870.284*0.50
H8B0.11960.45920.07230.284*0.50
H8C0.00490.49410.07110.284*0.50
C1'0.157 (2)0.6678 (14)0.5198 (18)0.145 (6)0.50
H1'A0.21290.70770.51350.174*0.50
H1'B0.08420.67500.46060.174*0.50
C2'0.127 (2)0.6797 (14)0.6253 (18)0.161 (7)0.50
H2'A0.19570.66730.68570.193*0.50
H2'B0.06140.64570.62820.193*0.50
C3'0.090 (2)0.7660 (13)0.633 (3)0.188 (7)0.50
H3'A0.13500.78810.70120.226*0.50
H3'B0.10620.79600.57510.226*0.50
C4'0.044 (2)0.7688 (18)0.622 (3)0.212 (9)0.50
H4'A0.06770.82150.62770.319*0.50
H4'B0.05960.73870.67920.319*0.50
H4'C0.08820.74780.55370.319*0.50
C5'0.175 (2)0.4609 (16)0.3742 (15)0.108 (5)0.50
H5'A0.24170.44260.35070.130*0.50
H5'B0.13870.41750.40090.130*0.50
C6'0.082 (2)0.5037 (12)0.2830 (16)0.134 (6)0.50
H6'A0.02440.52920.31220.161*0.50
H6'B0.12270.54330.25300.161*0.50
C7'0.0180 (18)0.4479 (17)0.1940 (18)0.171 (7)0.50
H7'A0.04410.47540.14040.205*0.50
H7'B0.01960.40720.22440.205*0.50
C8'0.107 (3)0.4120 (18)0.140 (2)0.189 (7)0.50
H8'A0.06530.37600.08520.284*0.50
H8'B0.16870.38520.19320.284*0.50
H8'C0.14180.45220.10770.284*0.50
C90.2968 (7)0.4704 (4)0.7234 (6)0.0758 (18)
C100.2491 (8)0.4253 (5)0.7944 (7)0.095 (2)
H100.16720.41590.77640.114*
C110.3217 (8)0.3965 (4)0.8869 (7)0.095 (2)
H110.28800.36870.93240.113*
C120.4480 (7)0.4071 (4)0.9177 (5)0.0766 (19)
C130.5209 (9)0.3732 (4)1.0119 (6)0.093 (2)
H130.48610.34511.05640.111*
C140.6389 (10)0.3806 (5)1.0389 (6)0.104 (3)
H140.68680.35831.10220.124*
C150.6900 (9)0.4220 (6)0.9718 (7)0.108 (3)
H150.77280.42690.99060.130*
C160.6221 (8)0.4556 (4)0.8790 (6)0.086 (2)
H160.65910.48290.83550.104*
C170.4985 (7)0.4495 (3)0.8489 (5)0.0700 (17)
C180.4202 (6)0.4832 (3)0.7504 (5)0.0631 (15)
C190.4717 (6)0.5285 (3)0.6834 (5)0.0628 (15)
H190.55390.53640.70890.075*
C200.4327 (6)0.6281 (3)0.4476 (4)0.0617 (14)
C210.4956 (5)0.6762 (3)0.3855 (4)0.0553 (13)
C220.6181 (6)0.6895 (4)0.4194 (5)0.0657 (15)
H220.66440.66780.48370.079*
C230.6716 (6)0.7344 (4)0.3589 (5)0.0722 (17)
H230.75380.74280.38280.087*
C240.6044 (5)0.7675 (3)0.2624 (4)0.0607 (14)
C250.4824 (6)0.7539 (3)0.2282 (4)0.0669 (15)
H250.43590.77490.16340.080*
C260.4297 (6)0.7091 (3)0.2900 (4)0.0636 (14)
H260.34740.70100.26650.076*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Sn10.0800 (4)0.0953 (4)0.0957 (4)0.0001 (3)0.0303 (3)0.0250 (3)
O10.082 (3)0.131 (5)0.105 (4)0.013 (3)0.038 (3)0.027 (4)
O20.089 (3)0.117 (4)0.073 (3)0.031 (3)0.008 (3)0.024 (3)
O30.083 (3)0.100 (3)0.067 (3)0.003 (3)0.034 (2)0.021 (2)
N10.080 (3)0.054 (3)0.054 (3)0.003 (2)0.031 (2)0.001 (2)
N20.082 (3)0.057 (3)0.047 (2)0.004 (2)0.028 (2)0.001 (2)
C10.141 (10)0.149 (9)0.148 (8)0.011 (7)0.046 (8)0.008 (7)
C20.173 (9)0.149 (10)0.161 (11)0.008 (7)0.048 (8)0.004 (8)
C30.172 (11)0.193 (11)0.200 (10)0.023 (8)0.055 (9)0.012 (8)
C40.200 (13)0.208 (12)0.223 (11)0.026 (9)0.052 (9)0.035 (9)
C50.091 (9)0.109 (8)0.118 (6)0.023 (7)0.019 (6)0.010 (6)
C60.129 (11)0.142 (8)0.134 (6)0.006 (8)0.043 (7)0.007 (6)
C70.168 (12)0.181 (10)0.154 (7)0.003 (9)0.032 (8)0.016 (7)
C80.191 (12)0.194 (12)0.168 (8)0.011 (9)0.030 (8)0.001 (8)
C1'0.141 (10)0.149 (9)0.148 (8)0.011 (7)0.046 (8)0.008 (7)
C2'0.173 (9)0.149 (10)0.161 (11)0.008 (7)0.048 (8)0.004 (8)
C3'0.172 (11)0.193 (11)0.200 (10)0.023 (8)0.055 (9)0.012 (8)
C4'0.200 (13)0.208 (12)0.223 (11)0.026 (9)0.052 (9)0.035 (9)
C5'0.091 (9)0.109 (8)0.118 (6)0.023 (7)0.019 (6)0.010 (6)
C6'0.129 (11)0.142 (8)0.134 (6)0.006 (8)0.043 (7)0.007 (6)
C7'0.168 (12)0.181 (10)0.154 (7)0.003 (9)0.032 (8)0.016 (7)
C8'0.191 (12)0.194 (12)0.168 (8)0.011 (9)0.030 (8)0.001 (8)
C90.089 (5)0.073 (4)0.076 (4)0.001 (4)0.041 (4)0.007 (3)
C100.102 (6)0.100 (5)0.100 (6)0.004 (4)0.058 (5)0.017 (4)
C110.128 (7)0.081 (5)0.097 (6)0.002 (5)0.068 (5)0.016 (4)
C120.120 (6)0.056 (4)0.066 (4)0.008 (4)0.047 (4)0.005 (3)
C130.140 (8)0.074 (4)0.077 (5)0.009 (5)0.051 (5)0.014 (4)
C140.139 (8)0.097 (6)0.074 (5)0.014 (6)0.029 (5)0.030 (4)
C150.114 (7)0.122 (7)0.081 (5)0.003 (5)0.019 (5)0.024 (5)
C160.110 (6)0.081 (5)0.072 (4)0.004 (4)0.031 (4)0.015 (3)
C170.105 (6)0.045 (3)0.071 (4)0.001 (3)0.044 (4)0.004 (3)
C180.094 (5)0.049 (3)0.058 (3)0.001 (3)0.040 (3)0.004 (3)
C190.087 (4)0.051 (3)0.058 (3)0.001 (3)0.033 (3)0.001 (3)
C200.077 (4)0.053 (3)0.054 (3)0.002 (3)0.019 (3)0.005 (3)
C210.078 (4)0.046 (3)0.044 (3)0.003 (3)0.020 (3)0.005 (2)
C220.070 (4)0.077 (4)0.052 (3)0.008 (3)0.020 (3)0.010 (3)
C230.070 (4)0.090 (4)0.060 (3)0.004 (3)0.023 (3)0.014 (3)
C240.074 (4)0.063 (3)0.051 (3)0.002 (3)0.026 (3)0.000 (3)
C250.088 (5)0.063 (3)0.047 (3)0.002 (3)0.015 (3)0.006 (3)
C260.071 (4)0.065 (3)0.053 (3)0.008 (3)0.014 (3)0.001 (3)
Geometric parameters (Å, º) top
Sn1—C52.02 (2)C3'—H3'B0.9700
Sn1—C12.04 (2)C4'—H4'A0.9600
Sn1—O12.076 (5)C4'—H4'B0.9600
Sn1—O22.131 (5)C4'—H4'C0.9600
Sn1—N12.148 (5)C5'—C6'1.536 (10)
Sn1—C1'2.16 (2)C5'—H5'A0.9700
Sn1—C5'2.28 (2)C5'—H5'B0.9700
O1—C91.301 (8)C6'—C7'1.522 (10)
O2—C201.270 (7)C6'—H6'A0.9700
O3—C241.348 (7)C6'—H6'B0.9700
O3—H30.8400C7'—C8'1.537 (10)
N1—C191.300 (7)C7'—H7'A0.9700
N1—N21.404 (6)C7'—H7'B0.9700
N2—C201.312 (7)C8'—H8'A0.9600
C1—C21.518 (10)C8'—H8'B0.9600
C1—H1A0.9700C8'—H8'C0.9600
C1—H1B0.9700C9—C181.397 (10)
C2—C31.554 (10)C9—C101.433 (10)
C2—H2A0.9700C10—C111.344 (11)
C2—H2B0.9700C10—H100.9300
C3—C41.549 (10)C11—C121.422 (11)
C3—H3A0.9700C11—H110.9300
C3—H3B0.9700C12—C131.396 (10)
C4—H4A0.9600C12—C171.407 (9)
C4—H4B0.9600C13—C141.325 (12)
C4—H4C0.9600C13—H130.9300
C5—C61.526 (10)C14—C151.384 (12)
C5—H5A0.9700C14—H140.9300
C5—H5B0.9700C15—C161.362 (11)
C6—C71.532 (10)C15—H150.9300
C6—H6A0.9700C16—C171.384 (11)
C6—H6B0.9700C16—H160.9300
C7—C81.546 (10)C17—C181.457 (9)
C7—H7A0.9700C18—C191.422 (8)
C7—H7B0.9700C19—H190.9300
C8—H8A0.9600C20—C211.488 (8)
C8—H8B0.9600C21—C261.375 (8)
C8—H8C0.9600C21—C221.387 (8)
C1'—C2'1.517 (10)C22—C231.372 (8)
C1'—H1'A0.9700C22—H220.9300
C1'—H1'B0.9700C23—C241.390 (8)
C2'—C3'1.562 (10)C23—H230.9300
C2'—H2'A0.9700C24—C251.383 (9)
C2'—H2'B0.9700C25—C261.377 (8)
C3'—C4'1.523 (10)C25—H250.9300
C3'—H3'A0.9700C26—H260.9300
C5—Sn1—C1101.7 (10)C4'—C3'—H3'A110.0
C5—Sn1—O194.2 (6)C2'—C3'—H3'A110.0
C1—Sn1—O197.8 (7)C4'—C3'—H3'B110.0
C5—Sn1—O298.7 (6)C2'—C3'—H3'B110.0
C1—Sn1—O2100.2 (8)H3'A—C3'—H3'B108.4
O1—Sn1—O2155.2 (2)C3'—C4'—H4'A109.5
C5—Sn1—N1128.7 (7)C3'—C4'—H4'B109.5
C1—Sn1—N1129.6 (6)H4'A—C4'—H4'B109.5
O1—Sn1—N182.56 (19)C3'—C4'—H4'C109.5
O2—Sn1—N172.85 (18)H4'A—C4'—H4'C109.5
C5—Sn1—C1'123.4 (10)H4'B—C4'—H4'C109.5
C1—Sn1—C1'23.5 (8)C6'—C5'—Sn1101.6 (13)
O1—Sn1—C1'103.1 (6)C6'—C5'—H5'A111.5
O2—Sn1—C1'87.3 (6)Sn1—C5'—H5'A111.5
N1—Sn1—C1'107.0 (7)C6'—C5'—H5'B111.5
C5—Sn1—C5'13.5 (11)Sn1—C5'—H5'B111.5
C1—Sn1—C5'112.9 (8)H5'A—C5'—H5'B109.3
O1—Sn1—C5'99.5 (6)C7'—C6'—C5'111.1 (9)
O2—Sn1—C5'89.1 (7)C7'—C6'—H6'A109.4
N1—Sn1—C5'116.7 (6)C5'—C6'—H6'A109.4
C1'—Sn1—C5'132.7 (9)C7'—C6'—H6'B109.4
C9—O1—Sn1134.0 (4)C5'—C6'—H6'B109.4
C20—O2—Sn1115.1 (4)H6'A—C6'—H6'B108.0
C24—O3—H3109.5C6'—C7'—C8'110.4 (10)
C19—N1—N2115.3 (5)C6'—C7'—H7'A109.6
C19—N1—Sn1128.7 (4)C8'—C7'—H7'A109.6
N2—N1—Sn1116.0 (3)C6'—C7'—H7'B109.6
C20—N2—N1111.0 (5)C8'—C7'—H7'B109.6
C2—C1—Sn1112.8 (13)H7'A—C7'—H7'B108.1
C2—C1—H1A109.0C7'—C8'—H8'A109.5
Sn1—C1—H1A109.0C7'—C8'—H8'B109.5
C2—C1—H1B109.0H8'A—C8'—H8'B109.5
Sn1—C1—H1B109.0C7'—C8'—H8'C109.5
H1A—C1—H1B107.8H8'A—C8'—H8'C109.5
C1—C2—C3109.5 (10)H8'B—C8'—H8'C109.5
C1—C2—H2A109.8O1—C9—C18125.0 (6)
C3—C2—H2A109.8O1—C9—C10115.7 (7)
C1—C2—H2B109.8C18—C9—C10119.3 (7)
C3—C2—H2B109.8C11—C10—C9120.5 (8)
H2A—C2—H2B108.2C11—C10—H10119.7
C4—C3—C2108.0 (9)C9—C10—H10119.7
C4—C3—H3A110.1C10—C11—C12122.5 (7)
C2—C3—H3A110.1C10—C11—H11118.7
C4—C3—H3B110.1C12—C11—H11118.7
C2—C3—H3B110.1C13—C12—C11120.8 (7)
H3A—C3—H3B108.4C13—C12—C17120.6 (8)
C3—C4—H4A109.5C11—C12—C17118.6 (7)
C3—C4—H4B109.5C14—C13—C12120.9 (7)
H4A—C4—H4B109.5C14—C13—H13119.5
C3—C4—H4C109.5C12—C13—H13119.5
H4A—C4—H4C109.5C13—C14—C15119.2 (8)
H4B—C4—H4C109.5C13—C14—H14120.4
C6—C5—Sn1116.3 (13)C15—C14—H14120.4
C6—C5—H5A108.2C16—C15—C14121.7 (10)
Sn1—C5—H5A108.2C16—C15—H15119.2
C6—C5—H5B108.2C14—C15—H15119.2
Sn1—C5—H5B108.2C15—C16—C17120.6 (7)
H5A—C5—H5B107.4C15—C16—H16119.7
C5—C6—C7111.4 (10)C17—C16—H16119.7
C5—C6—H6A109.3C16—C17—C12117.0 (7)
C7—C6—H6A109.3C16—C17—C18123.7 (6)
C5—C6—H6B109.3C12—C17—C18119.3 (7)
C7—C6—H6B109.3C9—C18—C19121.4 (6)
H6A—C6—H6B108.0C9—C18—C17119.7 (6)
C6—C7—C8108.3 (9)C19—C18—C17118.9 (6)
C6—C7—H7A110.0N1—C19—C18128.1 (6)
C8—C7—H7A110.0N1—C19—H19116.0
C6—C7—H7B110.0C18—C19—H19116.0
C8—C7—H7B110.0O2—C20—N2124.1 (6)
H7A—C7—H7B108.4O2—C20—C21116.8 (5)
C7—C8—H8A109.5N2—C20—C21119.1 (5)
C7—C8—H8B109.5C26—C21—C22118.2 (5)
H8A—C8—H8B109.5C26—C21—C20118.7 (5)
C7—C8—H8C109.5C22—C21—C20123.0 (5)
H8A—C8—H8C109.5C23—C22—C21120.7 (5)
H8B—C8—H8C109.5C23—C22—H22119.7
C2'—C1'—Sn1115.2 (14)C21—C22—H22119.7
C2'—C1'—H1'A108.5C22—C23—C24120.8 (6)
Sn1—C1'—H1'A108.5C22—C23—H23119.6
C2'—C1'—H1'B108.5C24—C23—H23119.6
Sn1—C1'—H1'B108.5O3—C24—C25122.5 (5)
H1'A—C1'—H1'B107.5O3—C24—C23118.9 (6)
C1'—C2'—C3'108.8 (10)C25—C24—C23118.6 (5)
C1'—C2'—H2'A109.9C26—C25—C24120.0 (5)
C3'—C2'—H2'A109.9C26—C25—H25120.0
C1'—C2'—H2'B109.9C24—C25—H25120.0
C3'—C2'—H2'B109.9C21—C26—C25121.7 (6)
H2'A—C2'—H2'B108.3C21—C26—H26119.1
C4'—C3'—C2'108.5 (10)C25—C26—H26119.1
C5—Sn1—O1—C9123.5 (10)O2—Sn1—C5'—C6'71.1 (14)
C1—Sn1—O1—C9134.0 (9)N1—Sn1—C5'—C6'141.4 (13)
O2—Sn1—O1—C92.1 (11)C1'—Sn1—C5'—C6'14 (2)
N1—Sn1—O1—C94.9 (7)Sn1—C5'—C6'—C7'172.0 (14)
C1'—Sn1—O1—C9110.7 (10)C5'—C6'—C7'—C8'64 (3)
C5'—Sn1—O1—C9111.0 (9)Sn1—O1—C9—C183.2 (12)
C5—Sn1—O2—C20136.3 (9)Sn1—O1—C9—C10175.8 (5)
C1—Sn1—O2—C20120.0 (8)O1—C9—C10—C11180.0 (7)
O1—Sn1—O2—C2015.7 (9)C18—C9—C10—C111.0 (11)
N1—Sn1—O2—C208.4 (5)C9—C10—C11—C121.7 (12)
C1'—Sn1—O2—C20100.3 (8)C10—C11—C12—C13177.0 (7)
C5'—Sn1—O2—C20126.8 (7)C10—C11—C12—C170.2 (11)
C5—Sn1—N1—C1986.0 (9)C11—C12—C13—C14177.6 (8)
C1—Sn1—N1—C1997.4 (11)C17—C12—C13—C140.3 (11)
O1—Sn1—N1—C193.5 (5)C12—C13—C14—C150.6 (13)
O2—Sn1—N1—C19173.4 (5)C13—C14—C15—C160.4 (14)
C1'—Sn1—N1—C19105.0 (8)C14—C15—C16—C170.1 (13)
C5'—Sn1—N1—C1993.4 (8)C15—C16—C17—C120.4 (10)
C5—Sn1—N1—N295.5 (8)C15—C16—C17—C18179.4 (7)
C1—Sn1—N1—N281.1 (10)C13—C12—C17—C160.1 (9)
O1—Sn1—N1—N2175.0 (4)C11—C12—C17—C16177.2 (6)
O2—Sn1—N1—N28.1 (3)C13—C12—C17—C18179.2 (6)
C1'—Sn1—N1—N273.5 (7)C11—C12—C17—C181.9 (9)
C5'—Sn1—N1—N288.1 (8)O1—C9—C18—C192.0 (10)
C19—N1—N2—C20174.5 (5)C10—C9—C18—C19179.1 (6)
Sn1—N1—N2—C206.8 (5)O1—C9—C18—C17177.8 (6)
C5—Sn1—C1—C2168 (2)C10—C9—C18—C171.2 (9)
O1—Sn1—C1—C272 (2)C16—C17—C18—C9176.4 (6)
O2—Sn1—C1—C291 (2)C12—C17—C18—C92.6 (8)
N1—Sn1—C1—C214 (2)C16—C17—C18—C193.4 (9)
C1'—Sn1—C1—C233 (2)C12—C17—C18—C19177.7 (5)
C5'—Sn1—C1—C2176.1 (19)N2—N1—C19—C18177.9 (5)
Sn1—C1—C2—C3175 (2)Sn1—N1—C19—C180.6 (8)
C1—C2—C3—C4156 (3)C9—C18—C19—N13.2 (9)
C1—Sn1—C5—C686.3 (19)C17—C18—C19—N1176.6 (5)
O1—Sn1—C5—C6174.9 (17)Sn1—O2—C20—N28.3 (8)
O2—Sn1—C5—C616.1 (19)Sn1—O2—C20—C21172.3 (4)
N1—Sn1—C5—C691.0 (18)N1—N2—C20—O21.0 (8)
C1'—Sn1—C5—C676 (2)N1—N2—C20—C21179.6 (4)
C5'—Sn1—C5—C661 (4)O2—C20—C21—C268.6 (8)
Sn1—C5—C6—C7179 (2)N2—C20—C21—C26172.0 (5)
C5—C6—C7—C8171 (3)O2—C20—C21—C22171.4 (6)
C5—Sn1—C1'—C2'110 (2)N2—C20—C21—C228.0 (8)
C1—Sn1—C1'—C2'85 (3)C26—C21—C22—C230.0 (9)
O1—Sn1—C1'—C2'6 (2)C20—C21—C22—C23179.9 (5)
O2—Sn1—C1'—C2'151 (2)C21—C22—C23—C240.1 (9)
N1—Sn1—C1'—C2'80 (2)C22—C23—C24—O3179.5 (5)
C5'—Sn1—C1'—C2'123 (2)C22—C23—C24—C250.3 (9)
Sn1—C1'—C2'—C3'172.6 (15)O3—C24—C25—C26179.9 (5)
C1'—C2'—C3'—C4'111 (3)C23—C24—C25—C260.8 (9)
C5—Sn1—C5'—C6'64 (4)C22—C21—C26—C250.5 (8)
C1—Sn1—C5'—C6'29.6 (18)C20—C21—C26—C25179.6 (5)
O1—Sn1—C5'—C6'132.2 (14)C24—C25—C26—C210.9 (9)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
O3—H3···N2i0.841.992.824 (6)177
Symmetry code: (i) x, y+3/2, z1/2.

Experimental details

Crystal data
Chemical formula[Sn(C4H9)2(C18H12N2O3)]
Mr537.21
Crystal system, space groupMonoclinic, P21/c
Temperature (K)293
a, b, c (Å)11.6644 (9), 17.2500 (14), 12.9296 (11)
β (°) 106.793 (1)
V3)2490.6 (4)
Z4
Radiation typeMo Kα
µ (mm1)1.05
Crystal size (mm)0.40 × 0.40 × 0.10
Data collection
DiffractometerBruker SMART APEX
diffractometer
Absorption correctionMulti-scan
(SADABS; Sheldrick, 1996)
Tmin, Tmax0.678, 0.902
No. of measured, independent and
observed [I > 2σ(I)] reflections		19289, 4391, 2953
Rint0.038
(sin θ/λ)max1)0.594
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.057, 0.189, 1.03
No. of reflections4391
No. of parameters314
No. of restraints78
H-atom treatmentH-atom parameters constrained
Δρmax, Δρmin (e Å3)1.19, 1.14

Computer programs: APEX2 (Bruker, 2009), SAINT (Bruker, 2009), SHELXS97 (Sheldrick, 2008), SHELXL97 (Sheldrick, 2008), X-SEED (Barbour, 2001), publCIF (Westrip, 2010).

Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
O3—H3···N2i0.841.992.824 (6)177
Symmetry code: (i) x, y+3/2, z1/2.
 

Acknowledgements

We thank MOSTI (grant No. 06-01-09-SF0046), Universiti Malaysia Sarawak and the University of Malaya for supporting this study.

References

First citationBarbour, L. J. (2001). J. Supramol. Chem. 1, 189–191.  CrossRef CAS Google Scholar
 First citationBruker (2009). APEX2 and SAINT. Bruker AXS Inc., Madison, Wisconsin, USA.  Google Scholar
 First citationCui, J.-C., Pan, Q.-X., Yin, H.-D. & Qiao, Y.-L. (2007). Acta Cryst. E63, o2633.  Web of Science CSD CrossRef IUCr Journals Google Scholar
 First citationSheldrick, G. M. (1996). SADABS. University of Göttingen, Germany.  Google Scholar
 First citationSheldrick, G. M. (2008). Acta Cryst. A64, 112–122.  Web of Science CrossRef CAS IUCr Journals Google Scholar
 First citationWestrip, S. P. (2010). J. Appl. Cryst. 43. Submitted.  Google Scholar

This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.

Journal logoCRYSTALLOGRAPHIC
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ISSN: 2056-9890
Volume 66| Part 5| May 2010| Page m572
https://doi.org/10.1107/S1600536810014662
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