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Acta Cryst. (2022). C78, 681-684
https://doi.org/10.1107/S2053229622010002
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Synthesis, crystal structure and Hirshfeld analysis of tri­phenyl­phosphine–(4-bromo­phen­yl)borane

C. J. Allen, A. M. Olden, J. L. Yates, K. A. Wheeler and E. R. Abbey
The title com­pound, alternatively called (4-bromo­phen­yl)dihydrido(tri­phenyl­phosphan­yl)boron, C24H21BBrP, crystallizes in the space group P\overline{1} with one symmetry-independent mol­ecule in the asymmetric unit. The B and P atoms both adopt the expected tetra­hedral geometry. A possible intra­molecular B—Hδ−...δ+H—C di­hydrogen bond exists between an arene group on phospho­rus and the borane center. In the solid state, the title mol­ecule is connected to its neighbors by inter­molecular C—H...π inter­actions, with the arene rings on the P atom acting as hydrogen-bond donors and the arene ring of the borane acting as the acceptor. Hirshfeld analysis supports the existence of these inter­actions, as well as weak Br...Br inter­actions between neighboring mol­ecules.
Keywords: Lewis acid; Lewis base; phosphine-borane; NMR; crystal structure.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S2053229622010002/zo3028sup1.cif
Contains datablocks I, global

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S2053229622010002/zo3028Isup2.hkl
Contains datablock I

CCDC reference: 2212562

Computing details top

Data collection: APEX3 (Bruker, 2018); cell refinement: SAINT (Bruker, 2017); data reduction: SAINT (Bruker, 2017); program(s) used to solve structure: SHELXT2018 (Sheldrick, 2015b); program(s) used to refine structure: SHELXL2018 (Sheldrick, 2015a); molecular graphics: X-SEED (Barbour, 2001); software used to prepare material for publication: X-SEED (Barbour, 2001).

(4-Bromophenyl)(triphenylphosphanyl)borane top
Crystal data top
C24H21BBrPZ = 2
Mr = 431.10F(000) = 440
Triclinic, P1Dx = 1.403 Mg m3
a = 9.4920 (6) ÅCu Kα radiation, λ = 1.54178 Å
b = 10.0234 (7) ÅCell parameters from 9941 reflections
c = 12.0606 (8) Åθ = 3.8–72.1°
α = 81.515 (2)°µ = 3.51 mm1
β = 74.038 (2)°T = 100 K
γ = 67.798 (2)°Plate, colourless
V = 1020.21 (12) Å30.24 × 0.21 × 0.03 mm
Data collection top
Bruker D8 Venture
diffractometer		3986 independent reflections
Radiation source: Microsource IuS Incoatec 3.03904 reflections with I > 2σ(I)
Double Bounce Multilayer Mirrors monochromatorRint = 0.022
Detector resolution: 7.9 pixels mm-1θmax = 72.3°, θmin = 3.8°
φ and ω scansh = 1111
Absorption correction: multi-scan
(SADABS; Bruker, 2016)		k = 127
Tmin = 0.644, Tmax = 0.754l = 1414
6803 measured reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullHydrogen site location: mixed
R[F2 > 2σ(F2)] = 0.025H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.063 w = 1/[σ2(Fo2) + (0.0215P)2 + 0.9841P]
where P = (Fo2 + 2Fc2)/3
S = 1.05(Δ/σ)max = 0.001
3986 reflectionsΔρmax = 0.41 e Å3
250 parametersΔρmin = 0.53 e Å3
0 restraints
Special details top

Geometry. All esds (except the esd in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell esds are taken into account individually in the estimation of esds in distances, angles and torsion angles; correlations between esds in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell esds is used for estimating esds involving l.s. planes.

Refinement. All nonhydrogen atoms were located in a single difference Fourier electron density map and refined using anisotropic displacement parameters. All C-H hydrogen atoms were placed in calculated positions with Uiso = 1.2xUeqiv of the connected C atoms (1.5xUeqiv for methyl groups). Those H atoms attached to boron were located in Fourier diff maps and assigned Uiso = 1.2xUeqiv.

The structure was solved by direct methods and refined by full-matrix least-squares analysis onF2using X-Seed (ref) equipped with SHELXT (ref). All non-hydrogen atoms were refined anisotropically by full-matrix least-squares onF2using the SHELXL (ref) program.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
Br10.32328 (2)0.48490 (2)0.10590 (2)0.02829 (7)
P10.33317 (4)0.25085 (4)0.71649 (3)0.01089 (9)
C10.27423 (18)0.26888 (16)0.48269 (13)0.0138 (3)
C20.14369 (18)0.34670 (17)0.43727 (14)0.0159 (3)
H20.0422120.3576350.4846720.019*
C30.15653 (19)0.40865 (17)0.32563 (14)0.0184 (3)
H30.0656790.4598340.2970540.022*
C40.3039 (2)0.39432 (17)0.25703 (14)0.0183 (3)
C50.43797 (19)0.31845 (17)0.29691 (14)0.0185 (3)
H50.5387920.3088350.2488980.022*
C60.42157 (18)0.25669 (17)0.40878 (14)0.0170 (3)
H60.5131210.2044280.4362530.020*
C70.24868 (17)0.44382 (16)0.73670 (13)0.0130 (3)
C80.26936 (18)0.53691 (17)0.63964 (13)0.0159 (3)
H80.3292050.4981540.5669210.019*
C90.20268 (19)0.68562 (17)0.64938 (14)0.0180 (3)
H90.2175210.7482130.5835250.022*
C100.11435 (19)0.74256 (17)0.75545 (15)0.0199 (3)
H100.0687030.8441410.7621010.024*
C110.09272 (19)0.65123 (18)0.85174 (15)0.0207 (3)
H110.0321440.6905380.9241450.025*
C120.15934 (18)0.50237 (17)0.84270 (14)0.0169 (3)
H120.1439780.4403970.9088900.020*
C130.54478 (17)0.20455 (16)0.67799 (12)0.0116 (3)
C140.63650 (18)0.06484 (16)0.64157 (13)0.0140 (3)
H140.5875650.0010740.6333630.017*
C150.79873 (18)0.01938 (16)0.61745 (13)0.0149 (3)
H150.8606110.0756130.5931610.018*
C160.87093 (17)0.11267 (17)0.62878 (13)0.0140 (3)
H160.9819880.0813660.6123180.017*
C170.78068 (18)0.25123 (17)0.66410 (13)0.0152 (3)
H170.8301860.3149130.6714490.018*
C180.61755 (18)0.29778 (16)0.68893 (13)0.0141 (3)
H180.5561630.3928510.7132630.017*
C190.29636 (17)0.15859 (16)0.85681 (13)0.0146 (3)
C200.2256 (2)0.0560 (2)0.87270 (15)0.0240 (4)
H200.1905040.0386960.8115410.029*
C210.2063 (2)0.0213 (2)0.97838 (17)0.0290 (4)
H210.1602810.0929020.9884780.035*
C220.2540 (2)0.0060 (2)1.06842 (15)0.0261 (4)
H220.2400890.0464031.1404370.031*
C230.3218 (2)0.10963 (19)1.05379 (14)0.0228 (4)
H230.3522380.1297651.1163710.027*
C240.34567 (18)0.18436 (17)0.94789 (14)0.0174 (3)
H240.3955750.2530590.9374230.021*
B10.2510 (2)0.19065 (19)0.60936 (16)0.0159 (3)
H1A0.315 (2)0.071 (2)0.6110 (17)0.019*
H1B0.123 (2)0.219 (2)0.6589 (17)0.019*
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
Br10.04593 (13)0.03054 (12)0.01421 (10)0.02059 (9)0.00767 (8)0.00151 (7)
P10.01051 (17)0.01121 (17)0.01213 (18)0.00479 (13)0.00335 (13)0.00028 (13)
C10.0168 (7)0.0119 (7)0.0162 (7)0.0067 (6)0.0053 (6)0.0039 (6)
C20.0155 (7)0.0151 (7)0.0194 (8)0.0066 (6)0.0048 (6)0.0037 (6)
C30.0216 (8)0.0168 (8)0.0214 (8)0.0077 (6)0.0113 (6)0.0000 (6)
C40.0295 (9)0.0163 (7)0.0140 (7)0.0120 (7)0.0069 (6)0.0014 (6)
C50.0195 (8)0.0189 (8)0.0185 (8)0.0095 (6)0.0007 (6)0.0057 (6)
C60.0157 (7)0.0160 (7)0.0204 (8)0.0049 (6)0.0061 (6)0.0034 (6)
C70.0106 (6)0.0128 (7)0.0171 (7)0.0039 (5)0.0062 (6)0.0001 (6)
C80.0159 (7)0.0184 (8)0.0147 (7)0.0066 (6)0.0050 (6)0.0004 (6)
C90.0204 (8)0.0167 (8)0.0200 (8)0.0086 (6)0.0097 (6)0.0046 (6)
C100.0188 (8)0.0130 (7)0.0268 (9)0.0014 (6)0.0096 (7)0.0011 (6)
C110.0187 (8)0.0189 (8)0.0192 (8)0.0002 (6)0.0035 (6)0.0044 (6)
C120.0154 (7)0.0168 (8)0.0162 (8)0.0032 (6)0.0050 (6)0.0014 (6)
C130.0119 (7)0.0130 (7)0.0107 (7)0.0050 (5)0.0035 (5)0.0000 (5)
C140.0162 (7)0.0127 (7)0.0155 (7)0.0068 (6)0.0048 (6)0.0011 (6)
C150.0151 (7)0.0119 (7)0.0157 (7)0.0029 (6)0.0027 (6)0.0022 (6)
C160.0117 (7)0.0169 (7)0.0128 (7)0.0051 (6)0.0025 (5)0.0006 (6)
C170.0157 (7)0.0162 (7)0.0167 (7)0.0098 (6)0.0034 (6)0.0003 (6)
C180.0144 (7)0.0116 (7)0.0163 (7)0.0045 (6)0.0034 (6)0.0020 (6)
C190.0120 (7)0.0141 (7)0.0145 (7)0.0023 (6)0.0025 (6)0.0013 (6)
C200.0267 (9)0.0271 (9)0.0227 (9)0.0158 (7)0.0071 (7)0.0046 (7)
C210.0293 (9)0.0282 (9)0.0294 (10)0.0165 (8)0.0040 (8)0.0105 (8)
C220.0224 (8)0.0249 (9)0.0185 (8)0.0016 (7)0.0002 (7)0.0082 (7)
C230.0217 (8)0.0217 (8)0.0158 (8)0.0020 (7)0.0044 (6)0.0001 (6)
C240.0162 (7)0.0149 (7)0.0171 (8)0.0010 (6)0.0041 (6)0.0010 (6)
B10.0170 (8)0.0174 (8)0.0180 (8)0.0091 (7)0.0073 (7)0.0011 (7)
Geometric parameters (Å, º) top
Br1—C41.9062 (16)C12—H120.9500
P1—C191.8161 (16)C13—C181.394 (2)
P1—C71.8175 (15)C13—C141.401 (2)
P1—C131.8198 (15)C14—C151.388 (2)
P1—B11.9444 (18)C14—H140.9500
C1—C21.400 (2)C15—C161.391 (2)
C1—C61.408 (2)C15—H150.9500
C1—B11.609 (2)C16—C171.385 (2)
C2—C31.391 (2)C16—H160.9500
C2—H20.9500C17—C181.395 (2)
C3—C41.382 (2)C17—H170.9500
C3—H30.9500C18—H180.9500
C4—C51.388 (2)C19—C201.392 (2)
C5—C61.392 (2)C19—C241.397 (2)
C5—H50.9500C20—C211.395 (2)
C6—H60.9500C20—H200.9500
C7—C121.395 (2)C21—C221.382 (3)
C7—C81.403 (2)C21—H210.9500
C8—C91.391 (2)C22—C231.383 (3)
C8—H80.9500C22—H220.9500
C9—C101.389 (2)C23—C241.389 (2)
C9—H90.9500C23—H230.9500
C10—C111.388 (2)C24—H240.9500
C10—H100.9500B1—H1A1.12 (2)
C11—C121.391 (2)B1—H1B1.14 (2)
C11—H110.9500
C19—P1—C7107.96 (7)C18—C13—C14119.56 (13)
C19—P1—C13103.51 (7)C18—C13—P1123.29 (11)
C7—P1—C13106.24 (7)C14—C13—P1117.06 (11)
C19—P1—B1110.16 (8)C15—C14—C13120.13 (14)
C7—P1—B1113.37 (7)C15—C14—H14119.9
C13—P1—B1114.93 (7)C13—C14—H14119.9
C2—C1—C6116.19 (14)C14—C15—C16120.13 (14)
C2—C1—B1119.85 (14)C14—C15—H15119.9
C6—C1—B1123.81 (14)C16—C15—H15119.9
C3—C2—C1122.68 (15)C17—C16—C15119.93 (14)
C3—C2—H2118.7C17—C16—H16120.0
C1—C2—H2118.7C15—C16—H16120.0
C4—C3—C2118.74 (15)C16—C17—C18120.38 (14)
C4—C3—H3120.6C16—C17—H17119.8
C2—C3—H3120.6C18—C17—H17119.8
C3—C4—C5121.38 (15)C13—C18—C17119.86 (14)
C3—C4—Br1119.30 (13)C13—C18—H18120.1
C5—C4—Br1119.30 (13)C17—C18—H18120.1
C4—C5—C6118.60 (15)C20—C19—C24119.39 (15)
C4—C5—H5120.7C20—C19—P1120.06 (12)
C6—C5—H5120.7C24—C19—P1120.46 (12)
C5—C6—C1122.40 (15)C19—C20—C21120.05 (17)
C5—C6—H6118.8C19—C20—H20120.0
C1—C6—H6118.8C21—C20—H20120.0
C12—C7—C8119.17 (14)C22—C21—C20120.14 (17)
C12—C7—P1122.87 (12)C22—C21—H21119.9
C8—C7—P1117.90 (12)C20—C21—H21119.9
C9—C8—C7120.32 (14)C21—C22—C23120.07 (16)
C9—C8—H8119.8C21—C22—H22120.0
C7—C8—H8119.8C23—C22—H22120.0
C10—C9—C8119.95 (15)C22—C23—C24120.23 (17)
C10—C9—H9120.0C22—C23—H23119.9
C8—C9—H9120.0C24—C23—H23119.9
C11—C10—C9120.08 (15)C23—C24—C19120.08 (16)
C11—C10—H10120.0C23—C24—H24120.0
C9—C10—H10120.0C19—C24—H24120.0
C10—C11—C12120.29 (15)C1—B1—P1114.22 (11)
C10—C11—H11119.9C1—B1—H1A114.2 (10)
C12—C11—H11119.9P1—B1—H1A102.0 (10)
C11—C12—C7120.19 (15)C1—B1—H1B113.8 (10)
C11—C12—H12119.9P1—B1—H1B100.0 (10)
C7—C12—H12119.9H1A—B1—H1B111.2 (14)
C6—C1—C2—C30.3 (2)C19—P1—C13—C1475.38 (13)
B1—C1—C2—C3175.62 (14)C7—P1—C13—C14171.02 (11)
C1—C2—C3—C40.8 (2)B1—P1—C13—C1444.80 (14)
C2—C3—C4—C50.8 (2)C18—C13—C14—C150.5 (2)
C2—C3—C4—Br1177.57 (11)P1—C13—C14—C15176.17 (12)
C3—C4—C5—C60.3 (2)C13—C14—C15—C160.3 (2)
Br1—C4—C5—C6178.03 (11)C14—C15—C16—C170.1 (2)
C4—C5—C6—C10.2 (2)C15—C16—C17—C180.3 (2)
C2—C1—C6—C50.2 (2)C14—C13—C18—C170.3 (2)
B1—C1—C6—C5175.92 (14)P1—C13—C18—C17176.18 (12)
C19—P1—C7—C125.66 (15)C16—C17—C18—C130.1 (2)
C13—P1—C7—C12116.17 (13)C7—P1—C19—C20127.27 (13)
B1—P1—C7—C12116.67 (13)C13—P1—C19—C20120.37 (14)
C19—P1—C7—C8177.19 (11)B1—P1—C19—C202.99 (16)
C13—P1—C7—C866.69 (13)C7—P1—C19—C2455.97 (14)
B1—P1—C7—C860.48 (14)C13—P1—C19—C2456.38 (14)
C12—C7—C8—C90.5 (2)B1—P1—C19—C24179.75 (12)
P1—C7—C8—C9177.80 (12)C24—C19—C20—C210.8 (3)
C7—C8—C9—C100.4 (2)P1—C19—C20—C21175.98 (14)
C8—C9—C10—C110.1 (2)C19—C20—C21—C221.5 (3)
C9—C10—C11—C120.1 (2)C20—C21—C22—C230.4 (3)
C10—C11—C12—C70.1 (2)C21—C22—C23—C241.5 (3)
C8—C7—C12—C110.4 (2)C22—C23—C24—C192.2 (2)
P1—C7—C12—C11177.52 (12)C20—C19—C24—C231.0 (2)
C19—P1—C13—C18101.16 (13)P1—C19—C24—C23177.78 (12)
C7—P1—C13—C1812.44 (15)C2—C1—B1—P1122.51 (13)
B1—P1—C13—C18138.67 (13)C6—C1—B1—P161.93 (18)
Hydrogen-bond geometry (Å, º) top
Cg1 is the centroid of the C1–C6 ring.
D—H···AD—HH···AD···AD—H···A
C14—H14···Cg1i0.953.103.786131
C15—H15···Cg1i0.953.313.890122
C17—H17···Cg1ii0.953.283.947129
C18—H18···Cg1ii0.953.494.047120
Symmetry codes: (i) x+1, y, z+1; (ii) x+1, y+1, z+1.
 

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