Supporting information
Crystallographic Information File (CIF) https://doi.org/10.1107/S1600536810000735/bg2316sup1.cif | |
Structure factor file (CIF format) https://doi.org/10.1107/S1600536810000735/bg2316Isup2.hkl |
CCDC reference: 764996
Key indicators
- Single-crystal X-ray study
- T = 293 K
- Mean (C-C) = 0.006 Å
- R factor = 0.049
- wR factor = 0.113
- Data-to-parameter ratio = 16.6
checkCIF/PLATON results
No syntax errors found
Alert level B PLAT919_ALERT_3_B Reflection(s) # Likely Affected by the Beamstop 2
Alert level C PLAT432_ALERT_2_C Short Inter X...Y Contact F4 .. C7 .. 2.88 Ang. PLAT432_ALERT_2_C Short Inter X...Y Contact F4 .. C71 .. 2.88 Ang. PLAT432_ALERT_2_C Short Inter X...Y Contact F5 .. C6 .. 2.91 Ang. PLAT432_ALERT_2_C Short Inter X...Y Contact F5 .. C7 .. 2.93 Ang. PLAT911_ALERT_3_C Missing # FCF Refl Between THmin & STh/L= 0.600 4 PLAT231_ALERT_4_C Hirshfeld Test (Solvent) P3 -- F2 .. 5.60 su PLAT244_ALERT_4_C Low 'Solvent' Ueq as Compared to Neighbors of P3 PLAT912_ALERT_4_C Missing # of FCF Reflections Above STh/L= 0.600 6
Alert level G REFLT03_ALERT_4_G Please check that the estimate of the number of Friedel pairs is correct. If it is not, please give the correct count in the _publ_section_exptl_refinement section of the submitted CIF. From the CIF: _diffrn_reflns_theta_max 27.51 From the CIF: _reflns_number_total 9626 Count of symmetry unique reflns 4936 Completeness (_total/calc) 195.02% TEST3: Check Friedels for noncentro structure Estimate of Friedel pairs measured 4690 Fraction of Friedel pairs measured 0.950 Are heavy atom types Z>Si present yes PLAT860_ALERT_3_G Note: Number of Least-Squares Restraints ....... 2 PLAT917_ALERT_2_G The FCF is likely NOT based on a BASF/TWIN Flack ! PLAT033_ALERT_4_G Flack x Parameter Value Deviates from Zero ..... 0.05 PLAT199_ALERT_1_G Check the Reported _cell_measurement_temperature 293 K PLAT200_ALERT_1_G Check the Reported _diffrn_ambient_temperature 293 K
0 ALERT level A = In general: serious problem 1 ALERT level B = Potentially serious problem 8 ALERT level C = Check and explain 6 ALERT level G = General alerts; check 2 ALERT type 1 CIF construction/syntax error, inconsistent or missing data 5 ALERT type 2 Indicator that the structure model may be wrong or deficient 3 ALERT type 3 Indicator that the structure quality may be low 5 ALERT type 4 Improvement, methodology, query or suggestion 0 ALERT type 5 Informative message, check
Single-crystals of the title compound were easily obtained by adding sodium hexafluorophosphate (2 mmol) to an aqueous solution (40 ml) of the isomorphic bis-triphenylphosphine-(N5,O4,O61)-6-acetyl-1,3,7-trimethyl-pteridine-2,4(1H,3H)-dione-copper(I) perchlorate (1 mmol), previously synthesized and characterized (Hueso-Ureña et al., 2008).
All H atoms were treated as riding, with C—H (methyl) = 0.96 Å (Uĩso~(H) = 1.5U~eq~(C)) and C—H (aromatic) = 0.93 Å (Uĩso~(H) = 1.2U~eq~(C)).
Data collection: COLLECT (Nonius, 1998); cell refinement: DIRAX/LSQ (Duisenberg, 1992); data reduction: EVALCCD (Duisenberg et al., 2003); program(s) used to solve structure: SIR92 (Altomare et al., 1994); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: Mercury (Macrae et al., 2006); software used to prepare material for publication: WinGX (Farrugia, 1999).
[Cu(C11H12N4O3)(C18H15P)2]PF6 | F(000) = 2016 |
Mr = 981.3 | Dx = 1.522 Mg m−3 |
Monoclinic, Cc | Mo Kα radiation, λ = 0.71073 Å |
Hall symbol: C -2yc | Cell parameters from 54 reflections |
a = 10.2627 (13) Å | θ = 1.5–27.5° |
b = 26.890 (3) Å | µ = 0.70 mm−1 |
c = 15.5387 (15) Å | T = 293 K |
β = 92.666 (10)° | Prism, red |
V = 4283.5 (8) Å3 | 0.26 × 0.14 × 0.14 mm |
Z = 4 |
Nonius KappaCCD diffractometer | 9626 independent reflections |
Radiation source: Enraf–Nonius FR590 | 6616 reflections with I > 2σ(I) |
Graphite monochromator | Rint = 0.066 |
Detector resolution: 9 pixels mm-1 | θmax = 27.5°, θmin = 1.5° |
CCD rotation images, thick slices scans | h = −13→13 |
Absorption correction: multi-scan (SADABS; Sheldrick, 2003) | k = −34→34 |
Tmin = 0.840, Tmax = 0.909 | l = −20→20 |
32442 measured reflections |
Refinement on F2 | Secondary atom site location: difference Fourier map |
Least-squares matrix: full | Hydrogen site location: inferred from neighbouring sites |
R[F2 > 2σ(F2)] = 0.049 | H-atom parameters constrained |
wR(F2) = 0.113 | w = 1/[σ2(Fo2) + (0.0499P)2] where P = (Fo2 + 2Fc2)/3 |
S = 1.04 | (Δ/σ)max < 0.001 |
9626 reflections | Δρmax = 0.44 e Å−3 |
581 parameters | Δρmin = −0.45 e Å−3 |
2 restraints | Absolute structure: Flack (1983) |
Primary atom site location: structure-invariant direct methods | Absolute structure parameter: 0.05 (2) |
[Cu(C11H12N4O3)(C18H15P)2]PF6 | V = 4283.5 (8) Å3 |
Mr = 981.3 | Z = 4 |
Monoclinic, Cc | Mo Kα radiation |
a = 10.2627 (13) Å | µ = 0.70 mm−1 |
b = 26.890 (3) Å | T = 293 K |
c = 15.5387 (15) Å | 0.26 × 0.14 × 0.14 mm |
β = 92.666 (10)° |
Nonius KappaCCD diffractometer | 9626 independent reflections |
Absorption correction: multi-scan (SADABS; Sheldrick, 2003) | 6616 reflections with I > 2σ(I) |
Tmin = 0.840, Tmax = 0.909 | Rint = 0.066 |
32442 measured reflections |
R[F2 > 2σ(F2)] = 0.049 | H-atom parameters constrained |
wR(F2) = 0.113 | Δρmax = 0.44 e Å−3 |
S = 1.04 | Δρmin = −0.45 e Å−3 |
9626 reflections | Absolute structure: Flack (1983) |
581 parameters | Absolute structure parameter: 0.05 (2) |
2 restraints |
Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes. |
Refinement. Refinement of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R- factors based on ALL data will be even larger. |
x | y | z | Uiso*/Ueq | ||
Cu | 0.22607 (4) | 0.126244 (17) | 0.60587 (3) | 0.02174 (14) | |
N1 | 0.2716 (3) | −0.06843 (13) | 0.5940 (2) | 0.0202 (8) | |
C1 | 0.3402 (5) | −0.11563 (17) | 0.5769 (3) | 0.0339 (13) | |
C2 | 0.1484 (4) | −0.07141 (17) | 0.6241 (3) | 0.0238 (10) | |
O2 | 0.0929 (3) | −0.11007 (12) | 0.6336 (2) | 0.0290 (8) | |
N3 | 0.0876 (3) | −0.02665 (13) | 0.6427 (2) | 0.0207 (8) | |
C3 | −0.0435 (4) | −0.03073 (18) | 0.6760 (3) | 0.0285 (11) | |
C4 | 0.1403 (4) | 0.01970 (16) | 0.6319 (3) | 0.0199 (10) | |
O4 | 0.0815 (3) | 0.05801 (11) | 0.6478 (2) | 0.0250 (7) | |
C4A | 0.2728 (4) | 0.01959 (16) | 0.6034 (3) | 0.0170 (9) | |
N5 | 0.3348 (3) | 0.06312 (13) | 0.6001 (2) | 0.0203 (8) | |
C6 | 0.4595 (4) | 0.06272 (16) | 0.5819 (3) | 0.0193 (9) | |
C61 | 0.5246 (4) | 0.11170 (17) | 0.5938 (3) | 0.0230 (10) | |
O61 | 0.4605 (3) | 0.14889 (11) | 0.5807 (2) | 0.0284 (7) | |
C62 | 0.6600 (4) | 0.11408 (18) | 0.6316 (3) | 0.0355 (12) | |
C7 | 0.5198 (4) | 0.01815 (17) | 0.5577 (3) | 0.0230 (10) | |
C71 | 0.6574 (4) | 0.01566 (18) | 0.5317 (3) | 0.0330 (12) | |
N8 | 0.4553 (4) | −0.02503 (14) | 0.5563 (2) | 0.0238 (9) | |
C8A | 0.3351 (4) | −0.02434 (16) | 0.5839 (3) | 0.0202 (10) | |
P1 | 0.11399 (10) | 0.13528 (4) | 0.47983 (7) | 0.0193 (2) | |
C1P | 0.0969 (4) | 0.07510 (15) | 0.4299 (3) | 0.0192 (9) | |
C2P | −0.0028 (4) | 0.04297 (16) | 0.4482 (3) | 0.0256 (11) | |
C3P | −0.0016 (5) | −0.00556 (17) | 0.4194 (3) | 0.0316 (12) | |
C4P | 0.0995 (5) | −0.02251 (17) | 0.3736 (3) | 0.0298 (11) | |
C5P | 0.2003 (4) | 0.00815 (17) | 0.3557 (3) | 0.0271 (11) | |
C6P | 0.1985 (4) | 0.05694 (16) | 0.3826 (3) | 0.0243 (10) | |
C1Q | 0.1852 (4) | 0.17328 (15) | 0.3980 (3) | 0.0205 (10) | |
C2Q | 0.2899 (4) | 0.20335 (16) | 0.4201 (3) | 0.0237 (10) | |
C3Q | 0.3385 (4) | 0.23579 (18) | 0.3614 (3) | 0.0300 (11) | |
C4Q | 0.2840 (4) | 0.23803 (17) | 0.2787 (3) | 0.0289 (11) | |
C5Q | 0.1812 (4) | 0.20761 (17) | 0.2558 (3) | 0.0274 (11) | |
C6Q | 0.1318 (4) | 0.17536 (16) | 0.3149 (3) | 0.0231 (10) | |
C1R | −0.0479 (4) | 0.16222 (16) | 0.4829 (3) | 0.0191 (9) | |
C2R | −0.1535 (4) | 0.14940 (18) | 0.4283 (3) | 0.0264 (11) | |
C3R | −0.2694 (4) | 0.17489 (18) | 0.4320 (3) | 0.0315 (12) | |
C4R | −0.2812 (5) | 0.21349 (17) | 0.4890 (3) | 0.0326 (12) | |
C5R | −0.1797 (4) | 0.22681 (17) | 0.5421 (3) | 0.0278 (11) | |
C6R | −0.0628 (4) | 0.20129 (16) | 0.5402 (3) | 0.0256 (10) | |
P2 | 0.23582 (10) | 0.17405 (4) | 0.72188 (7) | 0.0191 (2) | |
C1S | 0.2300 (4) | 0.24038 (15) | 0.6999 (3) | 0.0205 (9) | |
C2S | 0.3286 (5) | 0.26168 (17) | 0.6541 (3) | 0.0287 (11) | |
C3S | 0.3284 (5) | 0.31132 (18) | 0.6367 (3) | 0.0357 (12) | |
C4S | 0.2258 (5) | 0.34057 (17) | 0.6621 (3) | 0.0365 (12) | |
C5S | 0.1278 (5) | 0.31999 (17) | 0.7051 (3) | 0.0317 (12) | |
C6S | 0.1294 (4) | 0.27024 (17) | 0.7250 (3) | 0.0267 (11) | |
C1T | 0.1076 (4) | 0.16277 (15) | 0.7964 (3) | 0.0195 (9) | |
C2T | −0.0107 (4) | 0.14380 (16) | 0.7660 (3) | 0.0228 (10) | |
C3T | −0.1053 (4) | 0.13098 (17) | 0.8232 (3) | 0.0260 (10) | |
C4T | −0.0799 (4) | 0.13703 (17) | 0.9103 (3) | 0.0291 (11) | |
C5T | 0.0370 (4) | 0.15600 (17) | 0.9411 (3) | 0.0278 (11) | |
C6T | 0.1297 (4) | 0.16895 (15) | 0.8839 (3) | 0.0228 (10) | |
C1U | 0.3795 (4) | 0.16716 (16) | 0.7928 (3) | 0.0207 (10) | |
C2U | 0.4230 (4) | 0.11905 (17) | 0.8091 (3) | 0.0252 (10) | |
C3U | 0.5174 (5) | 0.10979 (19) | 0.8722 (3) | 0.0338 (12) | |
C4U | 0.5729 (4) | 0.1486 (2) | 0.9180 (3) | 0.0333 (12) | |
C5U | 0.5342 (4) | 0.19633 (19) | 0.9008 (3) | 0.0318 (12) | |
C6U | 0.4372 (4) | 0.20573 (17) | 0.8385 (3) | 0.0260 (11) | |
P3 | 0.58388 (12) | −0.03276 (5) | 0.78832 (8) | 0.0276 (3) | |
F1 | 0.6892 (3) | 0.00507 (12) | 0.82619 (19) | 0.0503 (8) | |
F2 | 0.6615 (3) | −0.07689 (12) | 0.8341 (2) | 0.0613 (10) | |
F3 | 0.6624 (3) | −0.04046 (13) | 0.70555 (19) | 0.0535 (9) | |
F4 | 0.5035 (3) | −0.02591 (12) | 0.87252 (18) | 0.0495 (8) | |
F5 | 0.5034 (3) | 0.01136 (10) | 0.74542 (18) | 0.0427 (8) | |
F6 | 0.4772 (3) | −0.07066 (11) | 0.7511 (2) | 0.0519 (8) | |
H1A | 0.3312 | −0.1233 | 0.5166 | 0.051* | |
H1B | 0.3029 | −0.142 | 0.6094 | 0.051* | |
H1C | 0.431 | −0.1122 | 0.5937 | 0.051* | |
H3A | −0.0755 | 0.0018 | 0.689 | 0.043* | |
H3B | −0.0399 | −0.0506 | 0.7274 | 0.043* | |
H3C | −0.101 | −0.0461 | 0.6334 | 0.043* | |
H62A | 0.7204 | 0.1136 | 0.5863 | 0.053* | |
H62B | 0.6759 | 0.086 | 0.6687 | 0.053* | |
H62C | 0.6713 | 0.1442 | 0.6644 | 0.053* | |
H71A | 0.715 | 0.0161 | 0.5822 | 0.05* | |
H71B | 0.6756 | 0.0438 | 0.4961 | 0.05* | |
H71C | 0.6704 | −0.0144 | 0.5 | 0.05* | |
H2P | −0.0713 | 0.0541 | 0.4802 | 0.031* | |
H3P | −0.0701 | −0.0268 | 0.4312 | 0.038* | |
H4P | 0.0997 | −0.0553 | 0.3545 | 0.036* | |
H5P | 0.2699 | −0.0038 | 0.3254 | 0.033* | |
H6P | 0.2662 | 0.0781 | 0.3689 | 0.029* | |
H2Q | 0.3282 | 0.2017 | 0.4755 | 0.028* | |
H3Q | 0.4085 | 0.2563 | 0.3775 | 0.036* | |
H4Q | 0.3167 | 0.26 | 0.2389 | 0.035* | |
H5Q | 0.1446 | 0.2087 | 0.1999 | 0.033* | |
H6Q | 0.0619 | 0.1548 | 0.2987 | 0.028* | |
H2R | −0.1459 | 0.1235 | 0.3891 | 0.032* | |
H3R | −0.3402 | 0.1659 | 0.3958 | 0.038* | |
H4R | −0.3598 | 0.2306 | 0.491 | 0.039* | |
H5R | −0.1882 | 0.2532 | 0.5801 | 0.033* | |
H6R | 0.0065 | 0.2104 | 0.5776 | 0.031* | |
H2S | 0.3956 | 0.2418 | 0.6351 | 0.034* | |
H3S | 0.3967 | 0.3255 | 0.608 | 0.043* | |
H4S | 0.2244 | 0.3744 | 0.6496 | 0.044* | |
H5S | 0.0587 | 0.3397 | 0.7214 | 0.038* | |
H6S | 0.0622 | 0.2566 | 0.7556 | 0.032* | |
H2T | −0.0272 | 0.1396 | 0.7071 | 0.027* | |
H3T | −0.1852 | 0.1184 | 0.8027 | 0.031* | |
H4T | −0.1428 | 0.1281 | 0.9487 | 0.035* | |
H5T | 0.0535 | 0.1601 | 1 | 0.033* | |
H6T | 0.2088 | 0.1821 | 0.9047 | 0.027* | |
H2U | 0.3876 | 0.0928 | 0.7768 | 0.03* | |
H3U | 0.5438 | 0.0773 | 0.884 | 0.041* | |
H4U | 0.6371 | 0.1423 | 0.9609 | 0.04* | |
H5U | 0.5734 | 0.2226 | 0.9312 | 0.038* | |
H6U | 0.4108 | 0.2383 | 0.8273 | 0.031* |
U11 | U22 | U33 | U12 | U13 | U23 | |
Cu | 0.0251 (3) | 0.0193 (3) | 0.0208 (3) | 0.0017 (3) | 0.0003 (2) | −0.0014 (3) |
P1 | 0.0198 (6) | 0.0182 (6) | 0.0201 (6) | −0.0016 (5) | 0.0019 (5) | −0.0011 (5) |
P3 | 0.0303 (7) | 0.0282 (7) | 0.0240 (7) | 0.0092 (6) | −0.0019 (5) | 0.0004 (6) |
P2 | 0.0207 (6) | 0.0170 (6) | 0.0197 (6) | −0.0007 (5) | 0.0016 (5) | −0.0002 (5) |
F5 | 0.0552 (18) | 0.0388 (18) | 0.0334 (17) | 0.0198 (15) | −0.0044 (14) | −0.0035 (14) |
F4 | 0.0354 (17) | 0.085 (2) | 0.0288 (16) | 0.0019 (16) | 0.0031 (13) | 0.0025 (16) |
O2 | 0.0344 (19) | 0.0212 (17) | 0.0312 (19) | −0.0059 (16) | −0.0004 (15) | 0.0040 (15) |
F3 | 0.0449 (18) | 0.077 (2) | 0.0400 (19) | 0.0188 (17) | 0.0119 (15) | −0.0074 (17) |
F1 | 0.0419 (18) | 0.058 (2) | 0.050 (2) | −0.0132 (16) | −0.0049 (14) | −0.0048 (17) |
O4 | 0.0258 (17) | 0.0189 (17) | 0.0309 (19) | 0.0019 (14) | 0.0061 (14) | 0.0000 (14) |
F2 | 0.074 (2) | 0.047 (2) | 0.061 (2) | 0.0180 (18) | −0.0148 (19) | 0.0068 (17) |
O61 | 0.0243 (17) | 0.0264 (18) | 0.035 (2) | −0.0006 (15) | 0.0027 (14) | 0.0011 (15) |
F6 | 0.0561 (19) | 0.0426 (19) | 0.056 (2) | −0.0042 (15) | −0.0058 (17) | −0.0024 (15) |
N3 | 0.021 (2) | 0.018 (2) | 0.023 (2) | −0.0033 (16) | −0.0001 (16) | 0.0019 (16) |
N1 | 0.0220 (19) | 0.0152 (19) | 0.024 (2) | −0.0008 (15) | 0.0026 (16) | −0.0012 (16) |
N8 | 0.027 (2) | 0.027 (2) | 0.018 (2) | −0.0007 (18) | 0.0017 (16) | −0.0039 (17) |
N5 | 0.0235 (19) | 0.021 (2) | 0.0162 (19) | −0.0047 (17) | 0.0012 (16) | 0.0013 (16) |
C8A | 0.023 (2) | 0.023 (3) | 0.015 (2) | 0.000 (2) | −0.0001 (18) | −0.0029 (19) |
C6U | 0.022 (2) | 0.025 (3) | 0.031 (3) | −0.006 (2) | 0.006 (2) | −0.007 (2) |
C2U | 0.025 (2) | 0.028 (3) | 0.023 (2) | 0.002 (2) | 0.002 (2) | −0.002 (2) |
C7 | 0.022 (2) | 0.033 (3) | 0.014 (2) | 0.005 (2) | 0.0009 (18) | 0.004 (2) |
C1Q | 0.018 (2) | 0.021 (2) | 0.023 (2) | 0.0025 (19) | 0.0026 (18) | 0.0007 (19) |
C1U | 0.019 (2) | 0.024 (2) | 0.020 (2) | −0.0006 (19) | 0.0050 (18) | −0.002 (2) |
C1R | 0.018 (2) | 0.022 (2) | 0.018 (2) | 0.0008 (19) | 0.0022 (18) | 0.0086 (19) |
C1P | 0.018 (2) | 0.022 (2) | 0.018 (2) | 0.0010 (19) | −0.0003 (18) | 0.0009 (19) |
C5S | 0.043 (3) | 0.027 (3) | 0.025 (3) | 0.009 (2) | 0.002 (2) | 0.002 (2) |
C2T | 0.022 (2) | 0.020 (2) | 0.026 (3) | 0.0031 (19) | 0.001 (2) | 0.0044 (19) |
C4A | 0.017 (2) | 0.020 (2) | 0.013 (2) | 0.0008 (18) | −0.0021 (18) | 0.0005 (18) |
C4 | 0.025 (2) | 0.021 (2) | 0.013 (2) | −0.001 (2) | −0.0026 (18) | −0.0015 (19) |
C71 | 0.022 (2) | 0.041 (3) | 0.036 (3) | 0.003 (2) | 0.003 (2) | 0.001 (2) |
C6Q | 0.026 (2) | 0.021 (2) | 0.022 (3) | −0.0061 (19) | 0.0000 (19) | −0.0009 (19) |
C2Q | 0.021 (2) | 0.025 (2) | 0.025 (2) | −0.001 (2) | −0.0004 (19) | −0.004 (2) |
C6R | 0.030 (3) | 0.023 (2) | 0.024 (3) | 0.003 (2) | 0.000 (2) | 0.004 (2) |
C2 | 0.031 (3) | 0.024 (3) | 0.017 (2) | 0.002 (2) | −0.003 (2) | 0.002 (2) |
C3Q | 0.030 (3) | 0.029 (3) | 0.031 (3) | −0.011 (2) | 0.005 (2) | 0.001 (2) |
C1T | 0.021 (2) | 0.014 (2) | 0.024 (2) | 0.0045 (18) | 0.0005 (18) | 0.0039 (19) |
C5Q | 0.034 (3) | 0.028 (3) | 0.020 (2) | −0.003 (2) | 0.003 (2) | 0.002 (2) |
C6S | 0.028 (2) | 0.022 (3) | 0.029 (3) | 0.001 (2) | 0.003 (2) | 0.003 (2) |
C5R | 0.034 (3) | 0.024 (2) | 0.026 (3) | 0.007 (2) | 0.010 (2) | 0.004 (2) |
C4T | 0.023 (2) | 0.035 (3) | 0.030 (3) | 0.006 (2) | 0.010 (2) | 0.007 (2) |
C2S | 0.033 (3) | 0.026 (3) | 0.028 (3) | 0.000 (2) | 0.008 (2) | 0.005 (2) |
C5T | 0.027 (3) | 0.036 (3) | 0.020 (2) | 0.008 (2) | 0.004 (2) | 0.003 (2) |
C6 | 0.017 (2) | 0.026 (2) | 0.015 (2) | 0.0037 (19) | −0.0016 (17) | 0.0050 (19) |
C1S | 0.022 (2) | 0.019 (2) | 0.020 (2) | −0.0030 (19) | −0.0022 (18) | −0.0006 (18) |
C6T | 0.023 (2) | 0.021 (2) | 0.025 (2) | 0.0044 (19) | −0.0020 (19) | 0.001 (2) |
C62 | 0.028 (3) | 0.032 (3) | 0.046 (3) | −0.008 (2) | −0.008 (2) | 0.008 (2) |
C1 | 0.036 (3) | 0.018 (3) | 0.048 (3) | 0.006 (2) | 0.005 (2) | −0.002 (2) |
C3P | 0.027 (3) | 0.030 (3) | 0.038 (3) | −0.008 (2) | 0.004 (2) | −0.003 (2) |
C4Q | 0.029 (3) | 0.025 (3) | 0.034 (3) | −0.004 (2) | 0.010 (2) | 0.005 (2) |
C2P | 0.024 (2) | 0.024 (3) | 0.029 (3) | 0.002 (2) | 0.007 (2) | −0.002 (2) |
C4R | 0.034 (3) | 0.028 (3) | 0.037 (3) | 0.012 (2) | 0.009 (2) | 0.012 (2) |
C5U | 0.021 (2) | 0.039 (3) | 0.035 (3) | −0.007 (2) | −0.001 (2) | −0.005 (2) |
C4P | 0.038 (3) | 0.019 (2) | 0.032 (3) | 0.000 (2) | 0.001 (2) | −0.006 (2) |
C3T | 0.019 (2) | 0.026 (3) | 0.034 (3) | 0.0033 (19) | 0.0042 (19) | 0.000 (2) |
C3 | 0.020 (2) | 0.028 (3) | 0.038 (3) | −0.002 (2) | 0.004 (2) | 0.004 (2) |
C3S | 0.042 (3) | 0.024 (3) | 0.041 (3) | −0.007 (2) | 0.006 (2) | 0.004 (2) |
C6P | 0.023 (2) | 0.022 (2) | 0.027 (3) | −0.002 (2) | 0.000 (2) | 0.001 (2) |
C4U | 0.019 (2) | 0.050 (3) | 0.030 (3) | 0.005 (2) | −0.003 (2) | −0.001 (2) |
C4S | 0.060 (3) | 0.016 (3) | 0.033 (3) | −0.004 (3) | −0.005 (3) | 0.001 (2) |
C3U | 0.036 (3) | 0.035 (3) | 0.030 (3) | 0.014 (2) | 0.000 (2) | 0.002 (2) |
C5P | 0.026 (3) | 0.025 (3) | 0.030 (3) | 0.002 (2) | −0.001 (2) | −0.007 (2) |
C3R | 0.020 (2) | 0.038 (3) | 0.036 (3) | 0.003 (2) | 0.001 (2) | 0.009 (2) |
C2R | 0.027 (3) | 0.028 (3) | 0.024 (3) | 0.001 (2) | 0.001 (2) | 0.000 (2) |
C61 | 0.023 (2) | 0.027 (3) | 0.019 (2) | 0.000 (2) | 0.0045 (19) | 0.003 (2) |
Cu—N5 | 2.036 (3) | C2Q—C3Q | 1.372 (6) |
Cu—P2 | 2.212 (1) | C2Q—H2Q | 0.93 |
Cu—P1 | 2.238 (1) | C6R—C5R | 1.383 (6) |
Cu—O4 | 2.466 (3) | C6R—H6R | 0.93 |
Cu—O61 | 2.529 (3) | C3Q—C4Q | 1.379 (7) |
P1—C1P | 1.800 (4) | C3Q—H3Q | 0.93 |
P1—C1Q | 1.812 (4) | C1T—C6T | 1.378 (6) |
P1—C1R | 1.815 (4) | C5Q—C4Q | 1.369 (6) |
P3—F3 | 1.563 (3) | C5Q—H5Q | 0.93 |
P3—F5 | 1.576 (3) | C6S—C1S | 1.378 (6) |
P3—F1 | 1.578 (3) | C6S—H6S | 0.93 |
P3—F2 | 1.580 (3) | C5R—C4R | 1.346 (7) |
P3—F6 | 1.585 (3) | C5R—H5R | 0.93 |
P3—F4 | 1.590 (3) | C4T—C5T | 1.369 (6) |
P2—C1U | 1.809 (4) | C4T—C3T | 1.376 (6) |
P2—C1S | 1.817 (4) | C4T—H4T | 0.93 |
P2—C1T | 1.818 (4) | C2S—C3S | 1.362 (6) |
O2—C2 | 1.198 (5) | C2S—C1S | 1.387 (6) |
O4—C4 | 1.225 (5) | C2S—H2S | 0.93 |
O61—C61 | 1.209 (5) | C5T—C6T | 1.377 (6) |
N3—C4 | 1.372 (5) | C5T—H5T | 0.93 |
N3—C2 | 1.392 (6) | C6—C61 | 1.485 (6) |
N3—C3 | 1.468 (6) | C6T—H6T | 0.93 |
N1—C8A | 1.366 (5) | C62—C61 | 1.485 (6) |
N1—C2 | 1.370 (5) | C62—H62A | 0.96 |
N1—C1 | 1.481 (6) | C62—H62B | 0.96 |
N8—C8A | 1.325 (5) | C62—H62C | 0.96 |
N8—C7 | 1.336 (6) | C1—H1A | 0.96 |
N5—C6 | 1.324 (5) | C1—H1B | 0.96 |
N5—C4A | 1.334 (5) | C1—H1C | 0.96 |
C8A—C4A | 1.384 (6) | C3P—C4P | 1.363 (7) |
C6U—C1U | 1.375 (6) | C3P—C2P | 1.380 (6) |
C6U—C5U | 1.380 (6) | C3P—H3P | 0.93 |
C6U—H6U | 0.93 | C4Q—H4Q | 0.93 |
C2U—C3U | 1.369 (6) | C2P—H2P | 0.93 |
C2U—C1U | 1.388 (6) | C4R—C3R | 1.373 (6) |
C2U—H2U | 0.93 | C4R—H4R | 0.93 |
C7—C6 | 1.408 (6) | C5U—C4U | 1.367 (7) |
C7—C71 | 1.489 (6) | C5U—H5U | 0.93 |
C1Q—C2Q | 1.375 (6) | C4P—C5P | 1.361 (6) |
C1Q—C6Q | 1.380 (6) | C4P—H4P | 0.93 |
C1R—C2R | 1.388 (6) | C3T—H3T | 0.93 |
C1R—C6R | 1.390 (6) | C3—H3A | 0.96 |
C1P—C2P | 1.378 (6) | C3—H3B | 0.96 |
C1P—C6P | 1.392 (6) | C3—H3C | 0.96 |
C5S—C4S | 1.352 (7) | C3S—C4S | 1.387 (7) |
C5S—C6S | 1.373 (6) | C3S—H3S | 0.93 |
C5S—H5S | 0.93 | C6P—C5P | 1.377 (6) |
C2T—C1T | 1.380 (6) | C6P—H6P | 0.93 |
C2T—C3T | 1.389 (6) | C4U—C3U | 1.371 (7) |
C2T—H2T | 0.93 | C4U—H4U | 0.93 |
C4A—C4 | 1.449 (6) | C4S—H4S | 0.93 |
C71—H71A | 0.96 | C3U—H3U | 0.93 |
C71—H71B | 0.96 | C5P—H5P | 0.93 |
C71—H71C | 0.96 | C3R—C2R | 1.377 (6) |
C6Q—C5Q | 1.377 (6) | C3R—H3R | 0.93 |
C6Q—H6Q | 0.93 | C2R—H2R | 0.93 |
P2—Cu—P1 | 130.68 (4) | N1—C2—N3 | 116.7 (4) |
P1—Cu—O4 | 91.13 (9) | C2Q—C3Q—C4Q | 120.2 (4) |
P1—Cu—O61 | 107.04 (8) | C2Q—C3Q—H3Q | 119.9 |
N5—Cu—P1 | 108.2 (1) | C4Q—C3Q—H3Q | 119.9 |
P2—Cu—O4 | 102.85 (9) | C6T—C1T—C2T | 119.0 (4) |
P2—Cu—O61 | 88.81 (8) | C6T—C1T—P2 | 121.1 (3) |
N5—Cu—P2 | 121.1 (1) | C2T—C1T—P2 | 119.7 (3) |
O4—Cu—O61 | 143.9 (1) | C4Q—C5Q—C6Q | 120.4 (4) |
O4—Cu—N5 | 74.3 (1) | C4Q—C5Q—H5Q | 119.8 |
O61—Cu—N5 | 70.5 (1) | C6Q—C5Q—H5Q | 119.8 |
C1P—P1—C1Q | 103.8 (2) | C5S—C6S—C1S | 120.3 (5) |
C1P—P1—C1R | 107.41 (19) | C5S—C6S—H6S | 119.8 |
C1Q—P1—C1R | 101.13 (19) | C1S—C6S—H6S | 119.8 |
C1P—P1—Cu | 108.38 (14) | C4R—C5R—C6R | 120.1 (4) |
C1Q—P1—Cu | 117.90 (14) | C4R—C5R—H5R | 119.9 |
C1R—P1—Cu | 117.02 (14) | C6R—C5R—H5R | 119.9 |
F3—P3—F5 | 91.82 (17) | C5T—C4T—C3T | 120.7 (4) |
F3—P3—F1 | 91.25 (18) | C5T—C4T—H4T | 119.7 |
F5—P3—F1 | 90.51 (17) | C3T—C4T—H4T | 119.7 |
F3—P3—F2 | 90.15 (18) | C3S—C2S—C1S | 120.8 (5) |
F5—P3—F2 | 178.02 (19) | C3S—C2S—H2S | 119.6 |
F1—P3—F2 | 89.66 (18) | C1S—C2S—H2S | 119.6 |
F3—P3—F6 | 89.31 (18) | C4T—C5T—C6T | 119.3 (4) |
F5—P3—F6 | 89.44 (17) | C4T—C5T—H5T | 120.3 |
F1—P3—F6 | 179.4 (2) | C6T—C5T—H5T | 120.3 |
F2—P3—F6 | 90.37 (17) | N5—C6—C7 | 120.4 (4) |
F3—P3—F4 | 179.0 (2) | N5—C6—C61 | 113.6 (4) |
F5—P3—F4 | 88.81 (16) | C7—C6—C61 | 126.0 (4) |
F1—P3—F4 | 89.51 (17) | C6S—C1S—C2S | 118.6 (4) |
F2—P3—F4 | 89.22 (18) | C6S—C1S—P2 | 122.5 (3) |
F6—P3—F4 | 89.94 (17) | C2S—C1S—P2 | 118.9 (3) |
C1U—P2—C1S | 103.53 (19) | C5T—C6T—C1T | 121.3 (4) |
C1U—P2—C1T | 100.84 (19) | C5T—C6T—H6T | 119.4 |
C1S—P2—C1T | 105.4 (2) | C1T—C6T—H6T | 119.4 |
C1U—P2—Cu | 116.22 (14) | C61—C62—H62A | 109.5 |
C1S—P2—Cu | 114.68 (14) | C61—C62—H62B | 109.5 |
C1T—P2—Cu | 114.54 (14) | H62A—C62—H62B | 109.5 |
C4—N3—C2 | 125.2 (4) | C61—C62—H62C | 109.5 |
C4—N3—C3 | 119.0 (4) | H62A—C62—H62C | 109.5 |
C2—N3—C3 | 115.8 (4) | H62B—C62—H62C | 109.5 |
C8A—N1—C2 | 122.9 (4) | N1—C1—H1A | 109.5 |
C8A—N1—C1 | 119.3 (4) | N1—C1—H1B | 109.5 |
C2—N1—C1 | 117.7 (4) | H1A—C1—H1B | 109.5 |
C8A—N8—C7 | 116.8 (4) | N1—C1—H1C | 109.5 |
C6—N5—C4A | 117.9 (4) | H1A—C1—H1C | 109.5 |
C6—N5—Cu | 123.6 (3) | H1B—C1—H1C | 109.5 |
C4A—N5—Cu | 117.8 (3) | C4P—C3P—C2P | 120.2 (4) |
N8—C8A—N1 | 118.8 (4) | C4P—C3P—H3P | 119.9 |
N8—C8A—C4A | 122.0 (4) | C2P—C3P—H3P | 119.9 |
N1—C8A—C4A | 119.2 (4) | C5Q—C4Q—C3Q | 119.4 (4) |
C1U—C6U—C5U | 120.2 (4) | C5Q—C4Q—H4Q | 120.3 |
C1U—C6U—H6U | 119.9 | C3Q—C4Q—H4Q | 120.3 |
C5U—C6U—H6U | 119.9 | C1P—C2P—C3P | 120.6 (4) |
C3U—C2U—C1U | 120.8 (4) | C1P—C2P—H2P | 119.7 |
C3U—C2U—H2U | 119.6 | C3P—C2P—H2P | 119.7 |
C1U—C2U—H2U | 119.6 | C5R—C4R—C3R | 120.5 (4) |
N8—C7—C6 | 121.4 (4) | C5R—C4R—H4R | 119.8 |
N8—C7—C71 | 115.6 (4) | C3R—C4R—H4R | 119.8 |
C6—C7—C71 | 123.0 (4) | C4U—C5U—C6U | 120.2 (5) |
C2Q—C1Q—C6Q | 118.8 (4) | C4U—C5U—H5U | 119.9 |
C2Q—C1Q—P1 | 119.5 (3) | C6U—C5U—H5U | 119.9 |
C6Q—C1Q—P1 | 121.6 (3) | C5P—C4P—C3P | 120.6 (4) |
C6U—C1U—C2U | 118.8 (4) | C5P—C4P—H4P | 119.7 |
C6U—C1U—P2 | 123.8 (3) | C3P—C4P—H4P | 119.7 |
C2U—C1U—P2 | 116.9 (3) | C4T—C3T—C2T | 119.6 (4) |
C2R—C1R—C6R | 118.2 (4) | C4T—C3T—H3T | 120.2 |
C2R—C1R—P1 | 125.1 (3) | C2T—C3T—H3T | 120.2 |
C6R—C1R—P1 | 116.5 (3) | N3—C3—H3A | 109.5 |
C2P—C1P—C6P | 118.0 (4) | N3—C3—H3B | 109.5 |
C2P—C1P—P1 | 122.2 (3) | H3A—C3—H3B | 109.5 |
C6P—C1P—P1 | 118.9 (3) | N3—C3—H3C | 109.5 |
C4S—C5S—C6S | 120.6 (5) | H3A—C3—H3C | 109.5 |
C4S—C5S—H5S | 119.7 | H3B—C3—H3C | 109.5 |
C6S—C5S—H5S | 119.7 | C2S—C3S—C4S | 119.5 (5) |
C1T—C2T—C3T | 120.2 (4) | C2S—C3S—H3S | 120.2 |
C1T—C2T—H2T | 119.9 | C4S—C3S—H3S | 120.2 |
C3T—C2T—H2T | 119.9 | C5P—C6P—C1P | 121.0 (4) |
N5—C4A—C8A | 121.0 (4) | C5P—C6P—H6P | 119.5 |
N5—C4A—C4 | 117.8 (4) | C1P—C6P—H6P | 119.5 |
C8A—C4A—C4 | 121.2 (4) | C5U—C4U—C3U | 120.2 (4) |
O4—C4—N3 | 122.6 (4) | C5U—C4U—H4U | 119.9 |
O4—C4—C4A | 122.8 (4) | C3U—C4U—H4U | 119.9 |
N3—C4—C4A | 114.6 (4) | C5S—C4S—C3S | 120.1 (4) |
C7—C71—H71A | 109.5 | C5S—C4S—H4S | 120 |
C7—C71—H71B | 109.5 | C3S—C4S—H4S | 120 |
H71A—C71—H71B | 109.5 | C2U—C3U—C4U | 119.8 (5) |
C7—C71—H71C | 109.5 | C2U—C3U—H3U | 120.1 |
H71A—C71—H71C | 109.5 | C4U—C3U—H3U | 120.1 |
H71B—C71—H71C | 109.5 | C4P—C5P—C6P | 119.6 (4) |
C5Q—C6Q—C1Q | 120.5 (4) | C4P—C5P—H5P | 120.2 |
C5Q—C6Q—H6Q | 119.8 | C6P—C5P—H5P | 120.2 |
C1Q—C6Q—H6Q | 119.8 | C4R—C3R—C2R | 120.3 (5) |
C3Q—C2Q—C1Q | 120.8 (4) | C4R—C3R—H3R | 119.8 |
C3Q—C2Q—H2Q | 119.6 | C2R—C3R—H3R | 119.8 |
C1Q—C2Q—H2Q | 119.6 | C3R—C2R—C1R | 120.2 (4) |
C5R—C6R—C1R | 120.6 (4) | C3R—C2R—H2R | 119.9 |
C5R—C6R—H6R | 119.7 | C1R—C2R—H2R | 119.9 |
C1R—C6R—H6R | 119.7 | O61—C61—C6 | 118.3 (4) |
O2—C2—N1 | 122.9 (4) | O61—C61—C62 | 121.5 (4) |
O2—C2—N3 | 120.3 (4) | C6—C61—C62 | 119.7 (4) |
N5—Cu—P1—C1P | 23.80 (18) | C2R—C1R—C6R—C5R | −0.4 (6) |
P2—Cu—P1—C1P | −158.14 (15) | P1—C1R—C6R—C5R | 174.7 (3) |
N5—Cu—P1—C1Q | −93.63 (19) | C8A—N1—C2—O2 | −179.4 (4) |
P2—Cu—P1—C1Q | 84.43 (17) | C1—N1—C2—O2 | −3.1 (6) |
N5—Cu—P1—C1R | 145.35 (19) | C8A—N1—C2—N3 | 1.4 (5) |
P2—Cu—P1—C1R | −36.59 (17) | C1—N1—C2—N3 | 177.7 (4) |
N5—Cu—P2—C1U | 20.5 (2) | C4—N3—C2—O2 | −178.0 (4) |
P1—Cu—P2—C1U | −157.32 (16) | C3—N3—C2—O2 | 1.6 (6) |
N5—Cu—P2—C1S | 141.42 (19) | C4—N3—C2—N1 | 1.2 (6) |
P1—Cu—P2—C1S | −36.43 (17) | C3—N3—C2—N1 | −179.2 (3) |
N5—Cu—P2—C1T | −96.56 (18) | C1Q—C2Q—C3Q—C4Q | −1.0 (7) |
P1—Cu—P2—C1T | 85.59 (15) | C3T—C2T—C1T—C6T | −0.3 (6) |
P2—Cu—N5—C6 | −80.8 (3) | C3T—C2T—C1T—P2 | 174.4 (3) |
P1—Cu—N5—C6 | 97.5 (3) | C1U—P2—C1T—C6T | 22.1 (4) |
P2—Cu—N5—C4A | 108.6 (3) | C1S—P2—C1T—C6T | −85.3 (4) |
P1—Cu—N5—C4A | −73.1 (3) | Cu—P2—C1T—C6T | 147.7 (3) |
C7—N8—C8A—N1 | −171.8 (4) | C1U—P2—C1T—C2T | −152.5 (3) |
C7—N8—C8A—C4A | 7.7 (6) | C1S—P2—C1T—C2T | 100.1 (4) |
C2—N1—C8A—N8 | 178.5 (4) | Cu—P2—C1T—C2T | −26.9 (4) |
C1—N1—C8A—N8 | 2.2 (6) | C1Q—C6Q—C5Q—C4Q | 0.0 (7) |
C2—N1—C8A—C4A | −1.0 (6) | C4S—C5S—C6S—C1S | −1.2 (7) |
C1—N1—C8A—C4A | −177.3 (4) | C1R—C6R—C5R—C4R | 1.0 (7) |
C8A—N8—C7—C6 | −4.2 (6) | C3T—C4T—C5T—C6T | −0.2 (7) |
C8A—N8—C7—C71 | 176.2 (4) | C4A—N5—C6—C7 | 6.7 (6) |
C1P—P1—C1Q—C2Q | −133.2 (4) | Cu—N5—C6—C7 | −163.9 (3) |
C1R—P1—C1Q—C2Q | 115.6 (4) | C4A—N5—C6—C61 | −170.6 (4) |
Cu—P1—C1Q—C2Q | −13.3 (4) | Cu—N5—C6—C61 | 18.8 (5) |
C1P—P1—C1Q—C6Q | 51.2 (4) | N8—C7—C6—N5 | −3.1 (6) |
C1R—P1—C1Q—C6Q | −60.1 (4) | C71—C7—C6—N5 | 176.5 (4) |
Cu—P1—C1Q—C6Q | 171.0 (3) | N8—C7—C6—C61 | 173.8 (4) |
C5U—C6U—C1U—C2U | −1.7 (6) | C71—C7—C6—C61 | −6.6 (7) |
C5U—C6U—C1U—P2 | 170.3 (3) | C5S—C6S—C1S—C2S | −0.2 (7) |
C3U—C2U—C1U—C6U | 3.0 (6) | C5S—C6S—C1S—P2 | −178.5 (4) |
C3U—C2U—C1U—P2 | −169.5 (4) | C3S—C2S—C1S—C6S | 2.1 (7) |
C1S—P2—C1U—C6U | 18.9 (4) | C3S—C2S—C1S—P2 | −179.6 (4) |
C1T—P2—C1U—C6U | −90.0 (4) | C1U—P2—C1S—C6S | −116.1 (4) |
Cu—P2—C1U—C6U | 145.5 (3) | C1T—P2—C1S—C6S | −10.7 (4) |
C1S—P2—C1U—C2U | −169.0 (3) | Cu—P2—C1S—C6S | 116.2 (4) |
C1T—P2—C1U—C2U | 82.1 (4) | C1U—P2—C1S—C2S | 65.6 (4) |
Cu—P2—C1U—C2U | −42.4 (4) | C1T—P2—C1S—C2S | 171.1 (3) |
C1P—P1—C1R—C2R | −23.5 (4) | Cu—P2—C1S—C2S | −62.0 (4) |
C1Q—P1—C1R—C2R | 84.9 (4) | C4T—C5T—C6T—C1T | −0.6 (7) |
Cu—P1—C1R—C2R | −145.6 (3) | C2T—C1T—C6T—C5T | 0.8 (6) |
C1P—P1—C1R—C6R | 161.7 (3) | P2—C1T—C6T—C5T | −173.8 (3) |
C1Q—P1—C1R—C6R | −89.8 (4) | C6Q—C5Q—C4Q—C3Q | 0.6 (7) |
Cu—P1—C1R—C6R | 39.6 (4) | C2Q—C3Q—C4Q—C5Q | −0.1 (7) |
C1Q—P1—C1P—C2P | −148.2 (4) | C6P—C1P—C2P—C3P | −0.6 (6) |
C1R—P1—C1P—C2P | −41.6 (4) | P1—C1P—C2P—C3P | −169.8 (4) |
Cu—P1—C1P—C2P | 85.7 (4) | C4P—C3P—C2P—C1P | 1.1 (7) |
C1Q—P1—C1P—C6P | 42.7 (4) | C6R—C5R—C4R—C3R | −0.7 (7) |
C1R—P1—C1P—C6P | 149.3 (3) | C1U—C6U—C5U—C4U | −0.4 (7) |
Cu—P1—C1P—C6P | −83.4 (3) | C2P—C3P—C4P—C5P | −0.1 (7) |
C6—N5—C4A—C8A | −3.3 (6) | C5T—C4T—C3T—C2T | 0.7 (7) |
Cu—N5—C4A—C8A | 167.9 (3) | C1T—C2T—C3T—C4T | −0.4 (6) |
C6—N5—C4A—C4 | 173.8 (4) | C1S—C2S—C3S—C4S | −2.5 (7) |
Cu—N5—C4A—C4 | −15.0 (5) | C2P—C1P—C6P—C5P | −0.8 (6) |
N8—C8A—C4A—N5 | −4.2 (6) | P1—C1P—C6P—C5P | 168.8 (3) |
N1—C8A—C4A—N5 | 175.3 (4) | C6U—C5U—C4U—C3U | 1.3 (7) |
N8—C8A—C4A—C4 | 178.8 (4) | C6S—C5S—C4S—C3S | 0.8 (7) |
N1—C8A—C4A—C4 | −1.7 (6) | C2S—C3S—C4S—C5S | 1.1 (8) |
C2—N3—C4—O4 | 178.5 (4) | C1U—C2U—C3U—C4U | −2.2 (7) |
C3—N3—C4—O4 | −1.1 (6) | C5U—C4U—C3U—C2U | 0.0 (7) |
C2—N3—C4—C4A | −3.7 (6) | C3P—C4P—C5P—C6P | −1.3 (7) |
C3—N3—C4—C4A | 176.7 (3) | C1P—C6P—C5P—C4P | 1.7 (7) |
N5—C4A—C4—O4 | 4.6 (6) | C5R—C4R—C3R—C2R | −0.2 (7) |
C8A—C4A—C4—O4 | −178.3 (4) | C4R—C3R—C2R—C1R | 0.7 (7) |
N5—C4A—C4—N3 | −173.2 (4) | C6R—C1R—C2R—C3R | −0.4 (6) |
C8A—C4A—C4—N3 | 3.9 (5) | P1—C1R—C2R—C3R | −175.1 (4) |
C2Q—C1Q—C6Q—C5Q | −1.1 (6) | N5—C6—C61—O61 | −31.9 (6) |
P1—C1Q—C6Q—C5Q | 174.6 (3) | C7—C6—C61—O61 | 151.0 (4) |
C6Q—C1Q—C2Q—C3Q | 1.6 (7) | N5—C6—C61—C62 | 140.4 (4) |
P1—C1Q—C2Q—C3Q | −174.2 (3) | C7—C6—C61—C62 | −36.8 (6) |
Experimental details
Crystal data | |
Chemical formula | [Cu(C11H12N4O3)(C18H15P)2]PF6 |
Mr | 981.3 |
Crystal system, space group | Monoclinic, Cc |
Temperature (K) | 293 |
a, b, c (Å) | 10.2627 (13), 26.890 (3), 15.5387 (15) |
β (°) | 92.666 (10) |
V (Å3) | 4283.5 (8) |
Z | 4 |
Radiation type | Mo Kα |
µ (mm−1) | 0.70 |
Crystal size (mm) | 0.26 × 0.14 × 0.14 |
Data collection | |
Diffractometer | Nonius KappaCCD |
Absorption correction | Multi-scan (SADABS; Sheldrick, 2003) |
Tmin, Tmax | 0.840, 0.909 |
No. of measured, independent and observed [I > 2σ(I)] reflections | 32442, 9626, 6616 |
Rint | 0.066 |
(sin θ/λ)max (Å−1) | 0.650 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.049, 0.113, 1.04 |
No. of reflections | 9626 |
No. of parameters | 581 |
No. of restraints | 2 |
H-atom treatment | H-atom parameters constrained |
Δρmax, Δρmin (e Å−3) | 0.44, −0.45 |
Absolute structure | Flack (1983) |
Absolute structure parameter | 0.05 (2) |
Computer programs: COLLECT (Nonius, 1998), DIRAX/LSQ (Duisenberg, 1992), EVALCCD (Duisenberg et al., 2003), SIR92 (Altomare et al., 1994), SHELXL97 (Sheldrick, 2008), Mercury (Macrae et al., 2006), WinGX (Farrugia, 1999).
Cu—N5 | 2.036 (3) | Cu—O4 | 2.466 (3) |
Cu—P2 | 2.212 (1) | Cu—O61 | 2.529 (3) |
Cu—P1 | 2.238 (1) |
Five-coordinated copper(I) complexes are very rare as contrasted with the copper(II) ones. A bibliographical survey using the CCDC database indicates only two previously reported CuIP2NO2 examples: the Cu(I) complex with the 2',7',9'-trimethylesther of pyrroloquinoline-quinone (Wanner et al., 1999) and the isostructural perchlorate salt of the title compound (Hueso-Ureña et al., 2008). The title compound shows a salt-like structure containing [Cu(DLMAceM)(PPh3)2]+ cations (DLMAceM = 6-acetyl-1,3,7-trimethylpteridine-2,4(1H,3H)-dione, see Scheme 1) and octahedral hexafluorophosphate anions (Fig. 1).
Within the relative arrangement of the acetyl group and the pteridine moiety (N5—C6—C61—O61 torsion: 166.5 (2)°), the free DLMAceM (Hueso-Ureña et al., 2008) is not able to act as tridentate ligand through the O4, N5 and O61 atoms; however, the energy difference between the metal-free conformation and the Cu(I)-coordinated one (N5—C6—C61—O61 torsion, 31.9 (7)°), in which the acetyl mean plane is turned off by ca133° around the C6—C61 bond, is not large enough to avoid the formation of M—L bonds, despite the steric hindrances between C62 and C71 methyl groups. Due to the coordination steric requirements, both rings of the pteridine moiety are slightly angled (7.4 (2)°). The two five-membered chelates are also angled to each other by 10.3 (2)°. Despite the fact that the Cremer and Pople's ring puckering analysis (Cremer & Pople, 1975) may be dubious since the bond distance range/average is higher than 25%, the closest description of the chelate-rings could be as a half-chair twisted on N5—Cu (Cu—N5—C4A—C4—O4, Φ=169.3° and k=4.20) and an envelope on C61 (Cu—N5—C6—C61—O61, Φ=253.9° and k=7.05). The metal is trigonal-planar three-coordinated with atoms P1, P2 and N5 (Cu—P1, 2.238 (1); Cu—P2, 2.212 (1); Cu—N5, 2.036 (3) Å). The metal center lies only slightly out of the plane defined by the three donor atoms (0.021 Å); despite bond angles around the metal (N5—Cu—P1, 108.2 (1); N5—Cu—P2, 121.1 (1); P1—Cu—P2, 130.68 (4)°) deviate by a little extent from the ideal value (120°), their sum is 360.0°.
The lumazine ligand is arranged in a roughly perpendicular fashion (81.0°) to the above-mentioned trigonal plane, the metal ion lying 0.41 Å out of this plane; in this plane, there are two additional and very long Cu···O4 and Cu···O61 (2.466 (3) and 2.529 (3) Å, respectively). The final coordination polyhedron can be defined as an intermediate TBP/SP shaped polyhedron, since Addison's τ criterion (Addison et al., 1984) indicates a distorted square-pyramid (τ= 1/5, apical atom N5), whereas Muetterties and Guggenberger's calculation (Muetterties & Guggenberger, 1974) shows a distorted trigonal-bipyramid (Δ = 1/5) with an P1/P2/N5 equatorial plane and a skewed O61···Cu···O4 axis due the restricted bite of tridentate DLMAceM. This description is coincident with those previously reported for the related perchlorate compound (Hueso-Ureña et al., 2008).
A close comparison of the coordination environments of the title compound and its related perchlorate one (Hueso-Ureña et al., 2008) with the Cu(I) complex of the 2',7',9'-trimethylesther of pyrroloquinoline-quinone (Wanner et al., 1999) indicates that both DLMAceM Cu(I) complexes show a little more unsymmetrical PPh3 groups with a P1 atom occupying a somewhat more apical position than P2; thus, the difference between both Cu—P bond lengths in the DLMAceM complexes (0.034 Å for Cu/DLMAceM/ClO4 and 0.026 Å for the title compound) is higher than in those reported by Kaim (0.014 Å) (Wanner et al., 1999). In addition to this, whereas the exocyclic carbonyl Cu···O distances are similar (2.559 (5) and 2.529 (3) Å for Cu/DLMAceM/ClO4 and the title compound and 2.579 (4)Å for the Wanner's compound), the endocyclic ones are quiet different (2.479 (5), 2.466 (3) Å and 2.254 (4) Å, respectively), the very weak O4-DLMAceM semicoordinative behaviour being in according with previously reported results for analogous lumazine derivatives (Acuña-Cueva et al., 2003; Jiménez-Pulido et al., 2008).
The analysis of short π-π ring interactions, made with PLATON (Spek, 2009), in the crystal structure does not indicate the existence of any significative π-stacking interaction. Only the interaction between both pyrimidine and pyrazine rings from DLMAceM and the P phenyl ring from PPh3 could be cited, but despite distances between centroids (3.696 (3) and 4.039 (3) Å) lies in the range accepted for these interactions (3.4–4.6 Å), the interplanar dihedral angles α (15.6 and 14.7°, respectively) clearly show both rings of each couple are far to be parallel enough to consider the existence of π-stacking (Janiak, 2000).
The packing structure indicates that hexafluorophosphate anions are placed in cavities and held in place by a large number of F···H—C interactions at distances smaller than the sum of the Van der Waals' radii (2.67 Å), F···H lengths ranging from 2.46 to 2.55 Å and F···H—C angles, from 118 to 144°; the arrangement of the counteranions is similar than in the crystal structure of the related perchlorate compound (Hueso-Ureña et al., 2008), but in the latter one there are fewer interactions, which justifies the disorder of these anions. Finally, in both structures, unit cell contains no additional residual solvent accessible voids.
The structure of the Cu(I) complex cation in this hexafluorophosphate salt is similar to the previously reported for the perchlorate analog (Hueso-Ureña et al., 2008), in which the nature of the metal-ligand bonds, especially in regard to the semicoordinated oxygen atoms, was defined using an AIM topological analysis of the electron density. The results indicated that Cu—X (X = N, O, P) bonds are weakly closed-shell interactions (Hueso-Ureña et al., 2008). On the other hand, the delocalization indices for the Cu···O bonds are lower than the Cu—P values, which is related to the higher covalent character of the Cu—P bonds versus the Cu···O interactions, the Cu—N interaction being intermediate between both.