SB-1-222PA1 (Compond 37)

Table 1 Crystal data and structure refinement for SB-1-222PA1

Identification code

SB-1-222PA1

Empirical formula

C25H23NO4

Formula weight

401.44

Temperature/K

172.3

Crystal system

triclinic

Space group

P-1

a/Å

9.0316(2)

b/Å

10.4052(2)

c/Å

10.9083(3)

α/°

99.9550(10)

β/°

97.1890(10)

γ/°

97.4110(10)

Volume/Å3

989.77(4)

Z

2

ρcalcmg/mm3

1.347

m/mm‑1

0.091

F(000)

424.0

Crystal size/mm3

0.735 × 0.675 × 0.418

2Θ range for data collection

3.834 to 75.716°

Index ranges

-15 ≤ h ≤ 15, -17 ≤ k ≤ 17, -18 ≤ l ≤ 18

Reflections collected

40859

Independent reflections

10498[R(int) = 0.0476]

Data/restraints/parameters

10498/0/363

Goodness-of-fit on F2

1.028

Final R indexes [I>=2σ (I)]

R1 = 0.0466, wR2 = 0.1265

Final R indexes [all data]

R1 = 0.0535, wR2 = 0.1355

Largest diff. peak/hole / e Å-3

0.74/-0.37


 

Table 2 Fractional Atomic Coordinates (×104) and Equivalent Isotropic Displacement Parameters (Å2×103) for SB-1-222PA1. Ueq is defined as 1/3 of of the trace of the orthogonalised UIJ tensor.

Atom

x

y

z

U(eq)

O3

6526.0(5)

3680.6(4)

-171.8(4)

13.40(8)

O4

8856.3(6)

1522.4(5)

-1118.2(5)

19.99(9)

O1

8773.4(7)

4581.7(6)

-1411.7(5)

22.27(10)

O2

7345.2(7)

3556.8(7)

-3247.7(5)

28.70(13)

C18

2896.0(8)

1267.0(8)

5167.2(6)

20.20(12)

C22

8577.8(8)

1784.8(8)

3971.2(7)

21.76(12)

C23

9326.5(8)

1101.0(8)

3085.6(7)

21.53(12)

C19

2920.8(8)

2602.2(8)

5146.4(6)

20.72(12)

C25

9775.4(9)

5332.9(7)

-2071.7(8)

22.87(13)

C26

10842.6(10)

4508.4(8)

-2653.3(11)

30.56(17)

N1

7014.5(6)

1680.0(5)

207.5(5)

13.36(8)

C13

4502.2(7)

1942.6(6)

-757.0(6)

13.53(9)

C3

5842.2(6)

2545.7(5)

276.9(5)

12.16(9)

C8

5624.0(7)

2828.7(6)

1632.0(5)

12.98(9)

C6

7643.7(7)

1603.6(6)

1444.8(6)

13.72(9)

C2

6797.7(7)

2913.3(6)

-1336.8(5)

13.69(9)

C7

6859.3(7)

2282.8(6)

2318.4(6)

14.06(9)

C15

3638.8(7)

2279.5(6)

3067.4(6)

14.51(9)

C5

7744.5(7)

1930.5(6)

-788.9(6)

14.30(9)

C9

3990.1(7)

2775.0(6)

1911.7(6)

14.00(9)

C14

5189.4(7)

2223.6(6)

-1933.5(6)

14.82(10)

C10

5000.5(7)

4081.0(6)

2091.5(6)

16.23(10)

C12

3133.7(7)

2594.9(6)

-472.3(6)

16.1(1)

C11

2716.4(7)

2341.8(6)

793.1(6)

16.41(10)

C24

8862.3(7)

991.6(7)

1796.6(6)

17.33(10)

C1

7653.1(7)

3721.1(6)

-2120.4(6)

16.23(10)

C16

3610.3(8)

940.2(6)

3097.2(6)

17.44(10)

C21

7331.6(8)

2373.1(7)

3597.8(6)

18.15(11)

C20

3293.4(8)

3111.4(7)

4105.1(6)

17.86(11)

C17

3248.0(8)

431.1(7)

4139.1(7)

19.43(11)

 

Table 3 Anisotropic Displacement Parameters (Å2×103) for SB-1-222PA1. The Anisotropic displacement factor exponent takes the form: -2π2[h2a*2U11+...+2hka×b×U12]

Atom

U11

U22

U33

U23

U13

U12

O3

16.01(18)

10.61(16)

13.36(17)

2.36(12)

2.71(13)

0.69(13)

O4

17.2(2)

22.3(2)

22.3(2)

4.18(17)

5.70(16)

7.08(17)

O1

23.8(2)

20.1(2)

20.3(2)

2.07(17)

5.72(18)

-6.24(18)

O2

25.7(3)

42.6(3)

16.2(2)

10.0(2)

1.44(19)

-4.7(2)

C18

18.2(3)

26.2(3)

16.1(2)

6.3(2)

1.7(2)

1.0(2)

C22

18.8(3)

27.5(3)

18.6(3)

9.6(2)

-3.0(2)

0.3(2)

C23

16.0(2)

26.0(3)

23.4(3)

11.2(2)

-2.4(2)

2.5(2)

C19

21.3(3)

24.9(3)

15.4(2)

1.8(2)

3.6(2)

3.5(2)

C25

22.1(3)

16.1(3)

32.5(3)

7.0(2)

11.0(3)

0.9(2)

C26

20.8(3)

21.5(3)

51.9(5)

7.4(3)

13.3(3)

4.3(2)

N1

12.98(19)

13.54(19)

14.02(19)

3.48(14)

0.88(15)

3.71(15)

C13

13.2(2)

12.1(2)

14.5(2)

2.56(16)

-0.11(16)

1.41(16)

C3

12.4(2)

10.28(19)

13.8(2)

2.87(15)

1.13(16)

1.83(15)

C8

13.4(2)

11.7(2)

13.6(2)

2.67(15)

1.48(16)

1.57(16)

C6

12.4(2)

13.3(2)

15.3(2)

4.48(16)

-0.18(16)

1.05(16)

C2

15.3(2)

12.8(2)

12.6(2)

2.36(16)

1.69(16)

1.53(17)

C7

13.3(2)

14.1(2)

14.3(2)

4.02(16)

0.34(16)

0.30(16)

C15

14.0(2)

13.8(2)

16.1(2)

2.73(17)

3.15(17)

2.48(17)

C5

14.4(2)

13.5(2)

14.6(2)

2.01(16)

1.58(17)

2.00(17)

C9

14.0(2)

12.3(2)

16.1(2)

2.92(16)

2.87(17)

2.42(16)

C14

15.6(2)

14.2(2)

13.9(2)

2.43(16)

0.01(17)

1.74(17)

C10

19.0(2)

11.3(2)

18.4(2)

2.21(17)

3.98(19)

2.25(18)

C12

14.1(2)

16.8(2)

18.0(2)

4.97(18)

0.58(18)

3.78(18)

C11

13.0(2)

17.7(2)

18.8(2)

4.21(19)

1.77(18)

2.95(18)

C24

13.4(2)

18.1(2)

21.2(3)

7.4(2)

-0.19(19)

2.89(18)

C1

16.8(2)

16.0(2)

16.5(2)

4.74(18)

3.05(18)

2.03(18)

C16

19.4(3)

14.7(2)

19.4(2)

4.56(18)

5.6(2)

2.69(19)

C21

18.0(2)

21.2(3)

14.3(2)

5.24(19)

-0.46(18)

0.0(2)

C20

19.6(3)

17.4(2)

16.7(2)

1.69(18)

3.65(19)

4.51(19)

C17

19.8(3)

18.9(3)

20.8(3)

7.4(2)

3.7(2)

1.8(2)

 

Table 4 Bond Lengths for SB-1-222PA1.

Atom

Atom

Length/Å

 

Atom

Atom

Length/Å

O3

C3

1.4502(7)

 

C13

C12

1.5246(9)

O3

C2

1.4458(7)

 

C3

C8

1.4993(8)

O4

C5

1.2104(8)

 

C8

C7

1.4932(8)

O1

C25

1.4572(9)

 

C8

C9

1.5398(8)

O1

C1

1.3245(8)

 

C8

C10

1.5167(8)

O2

C1

1.2034(8)

 

C6

C7

1.4052(9)

C18

C19

1.3908(11)

 

C6

C24

1.3869(9)

C18

C17

1.3924(10)

 

C2

C5

1.5631(8)

C22

C23

1.3952(11)

 

C2

C14

1.5432(9)

C22

C21

1.3988(10)

 

C2

C1

1.5101(8)

C23

C24

1.3967(10)

 

C7

C21

1.3906(9)

C19

C20

1.3936(10)

 

C15

C9

1.4961(8)

C25

C26

1.4986(11)

 

C15

C16

1.3966(9)

N1

C3

1.4768(8)

 

C15

C20

1.3954(9)

N1

C6

1.4170(8)

 

C9

C10

1.5036(9)

N1

C5

1.3845(8)

 

C9

C11

1.5298(9)

C13

C3

1.5323(8)

 

C12

C11

1.5320(9)

C13

C14

1.5492(9)

 

C16

C17

1.3913(9)

 

Table 5 Bond Angles for SB-1-222PA1.

Atom

Atom

Atom

Angle/˚

 

Atom

Atom

Atom

Angle/˚

C2

O3

C3

94.43(4)

 

C14

C2

C5

111.20(5)

C1

O1

C25

116.56(6)

 

C1

C2

C5

112.54(5)

C19

C18

C17

119.73(6)

 

C1

C2

C14

116.62(5)

C23

C22

C21

121.14(6)

 

C6

C7

C8

109.39(5)

C22

C23

C24

121.00(6)

 

C21

C7

C8

131.48(6)

C18

C19

C20

120.60(6)

 

C21

C7

C6

119.12(6)

O1

C25

C26

111.46(6)

 

C16

C15

C9

119.25(5)

C6

N1

C3

109.07(5)

 

C20

C15

C9

121.82(5)

C5

N1

C3

106.22(5)

 

C20

C15

C16

118.90(6)

C5

N1

C6

129.02(5)

 

O4

C5

N1

128.65(6)

C3

C13

C14

100.18(4)

 

O4

C5

C2

129.41(6)

C12

C13

C3

109.09(5)

 

N1

C5

C2

101.90(5)

C12

C13

C14

116.74(5)

 

C15

C9

C8

117.55(5)

O3

C3

N1

102.19(4)

 

C15

C9

C10

117.58(5)

O3

C3

C13

103.32(4)

 

C15

C9

C11

113.52(5)

O3

C3

C8

114.28(5)

 

C10

C9

C8

59.77(4)

N1

C3

C13

108.86(5)

 

C10

C9

C11

120.79(5)

N1

C3

C8

106.06(5)

 

C11

C9

C8

117.48(5)

C8

C3

C13

120.60(5)

 

C2

C14

C13

101.41(5)

C3

C8

C9

117.31(5)

 

C9

C10

C8

61.30(4)

C3

C8

C10

117.45(5)

 

C13

C12

C11

109.69(5)

C7

C8

C3

105.07(5)

 

C9

C11

C12

115.26(5)

C7

C8

C9

126.06(5)

 

C6

C24

C23

117.02(6)

C7

C8

C10

126.86(5)

 

O1

C1

C2

111.35(5)

C10

C8

C9

58.93(4)

 

O2

C1

O1

125.91(6)

C7

C6

N1

109.62(5)

 

O2

C1

C2

122.72(6)

C24

C6

N1

127.36(6)

 

C17

C16

C15

121.14(6)

C24

C6

C7

123.01(6)

 

C7

C21

C22

118.69(6)

O3

C2

C5

99.24(4)

 

C19

C20

C15

120.06(6)

O3

C2

C14

101.86(5)

 

C16

C17

C18

119.56(6)

O3

C2

C1

113.58(5)

 

 

 

 

 

 

Table 6 Torsion Angles for SB-1-222PA1.

A

B

C

D

Angle/˚

 

A

B

C

D

Angle/˚

O3

C3

C8

C7

-103.10(5)

 

C7

C8

C9

C11

-133.29(6)

O3

C3

C8

C9

111.31(6)

 

C7

C8

C10

C9

-114.03(6)

O3

C3

C8

C10

44.03(7)

 

C7

C6

C24

C23

-1.60(9)

O3

C2

C5

O4

-139.07(7)

 

C15

C9

C10

C8

107.43(6)

O3

C2

C5

N1

38.83(5)

 

C15

C9

C11

C12

-168.73(5)

O3

C2

C14

C13

-36.80(5)

 

C15

C16

C17

C18

0.50(10)

O3

C2

C1

O1

42.17(7)

 

C5

N1

C3

O3

-31.16(6)

O3

C2

C1

O2

-139.35(7)

 

C5

N1

C3

C13

77.69(6)

C18

C19

C20

C15

0.32(11)

 

C5

N1

C3

C8

-151.16(5)

C22

C23

C24

C6

0.73(10)

 

C5

N1

C6

C7

136.26(6)

C23

C22

C21

C7

-0.98(11)

 

C5

N1

C6

C24

-42.47(10)

C19

C18

C17

C16

-0.47(11)

 

C5

C2

C14

C13

68.11(6)

C25

O1

C1

O2

-4.18(11)

 

C5

C2

C1

O1

-69.59(7)

C25

O1

C1

C2

174.25(6)

 

C5

C2

C1

O2

108.89(8)

N1

C3

C8

C7

8.68(6)

 

C9

C8

C7

C6

135.57(6)

N1

C3

C8

C9

-136.92(5)

 

C9

C8

C7

C21

-46.24(10)

N1

C3

C8

C10

155.81(5)

 

C9

C15

C16

C17

-178.21(6)

N1

C6

C7

C8

0.83(7)

 

C9

C15

C20

C19

177.75(6)

N1

C6

C7

C21

-177.62(5)

 

C14

C13

C3

O3

35.38(5)

N1

C6

C24

C23

176.98(6)

 

C14

C13

C3

N1

-72.70(5)

C13

C3

C8

C7

132.81(5)

 

C14

C13

C3

C8

164.50(5)

C13

C3

C8

C9

-12.78(7)

 

C14

C13

C12

C11

-173.61(5)

C13

C3

C8

C10

-80.06(7)

 

C14

C2

C5

O4

114.29(7)

C13

C12

C11

C9

55.51(7)

 

C14

C2

C5

N1

-67.81(6)

C3

O3

C2

C5

-55.88(5)

 

C14

C2

C1

O1

160.17(6)

C3

O3

C2

C14

58.23(5)

 

C14

C2

C1

O2

-21.35(9)

C3

O3

C2

C1

-175.53(5)

 

C10

C8

C7

C6

-149.03(6)

C3

N1

C6

C7

4.92(6)

 

C10

C8

C7

C21

29.16(10)

C3

N1

C6

C24

-173.82(6)

 

C10

C8

C9

C15

-107.48(6)

C3

N1

C5

O4

173.34(6)

 

C10

C8

C9

C11

111.39(6)

C3

N1

C5

C2

-4.58(6)

 

C10

C9

C11

C12

43.39(8)

C3

C13

C14

C2

0.86(5)

 

C12

C13

C3

O3

-87.71(5)

C3

C13

C12

C11

-61.04(6)

 

C12

C13

C3

N1

164.22(5)

C3

C8

C7

C6

-6.04(6)

 

C12

C13

C3

C8

41.42(7)

C3

C8

C7

C21

172.15(6)

 

C12

C13

C14

C2

118.42(5)

C3

C8

C9

C15

145.39(5)

 

C11

C9

C10

C8

-105.93(6)

C3

C8

C9

C10

-107.13(6)

 

C24

C6

C7

C8

179.63(6)

C3

C8

C9

C11

4.26(7)

 

C24

C6

C7

C21

1.18(9)

C3

C8

C10

C9

106.90(6)

 

C1

O1

C25

C26

-75.72(9)

C8

C7

C21

C22

-177.90(6)

 

C1

C2

C5

O4

-18.66(9)

C8

C9

C11

C12

-26.08(8)

 

C1

C2

C5

N1

159.24(5)

C6

N1

C3

O3

111.44(5)

 

C1

C2

C14

C13

-161.02(5)

C6

N1

C3

C13

-139.72(5)

 

C16

C15

C9

C8

-70.88(8)

C6

N1

C3

C8

-8.56(6)

 

C16

C15

C9

C10

-139.27(6)

C6

N1

C5

O4

40.99(10)

 

C16

C15

C9

C11

71.74(7)

C6

N1

C5

C2

-136.93(6)

 

C16

C15

C20

C19

-0.30(10)

C6

C7

C21

C22

0.15(9)

 

C21

C22

C23

C24

0.54(11)

C2

O3

C3

N1

54.44(5)

 

C20

C15

C9

C8

111.08(7)

C2

O3

C3

C13

-58.58(5)

 

C20

C15

C9

C10

42.68(8)

C2

O3

C3

C8

168.52(5)

 

C20

C15

C9

C11

-106.31(7)

C7

C8

C9

C15

7.84(8)

 

C20

C15

C16

C17

-0.11(10)

C7

C8

C9

C10

115.32(7)

 

C17

C18

C19

C20

0.07(11)

 

Table 7 Hydrogen Atom Coordinates (Å×104) and Isotropic Displacement Parameters (Å2×103) for SB-1-222PA1.

Atom

x

y

z

U(eq)

H13

4253(13)

979(12)

-775(11)

16(2)

H14A

5170(15)

1419(14)

-2589(13)

26(3)

H14B

4670(13)

2833(12)

-2331(11)

18(3)

H12A

3337(15)

3555(13)

-472(12)

24(3)

H12B

2254(14)

2226(13)

-1138(12)

22(3)

H11A

2363(15)

1401(13)

711(12)

25(3)

H11B

1821(16)

2792(14)

997(13)

29(3)

H10A

4813(14)

4645(13)

1495(12)

22(3)

H10B

5389(14)

4532(13)

2933(12)

23(3)

H25A

10343(17)

6082(15)

-1388(15)

36(4)

H25B

9161(18)

5646(16)

-2708(15)

41(4)

H24

9410(15)

520(14)

1160(13)

27(3)

H23

10165(16)

662(14)

3336(13)

31(3)

H22

8948(17)

1874(15)

4862(14)

35(4)

H21

6829(14)

2851(13)

4230(12)

24(3)

H26A

11537(19)

5033(17)

-3095(15)

43(4)

H26B

10310(20)

3710(20)

-3281(19)

60(5)

H26C

11410(20)

4220(20)

-1967(19)

63(5)

H20

3329(15)

4049(14)

4103(13)

27(3)

H19

2670(16)

3194(14)

5857(13)

30(3)

H18

2614(17)

902(15)

5895(14)

34(3)

H17

3243(16)

-496(14)

4139(13)

29(3)

H16

3860(15)

377(14)

2371(13)

29(3)

Experimental

Single crystals of C25H23NO4 [SB-1-222PA1] were [ether/hexanes]. A suitable crystal was selected and [] on a apex2_Mo diffractometer. The crystal was kept at 172.3 K during data collection. Using Olex2 [1], the structure was solved with the Superflip [2] structure solution program using Charge Flipping and refined with the ShelXL [3] refinement package using Least Squares minimisation.

  1. O. V. Dolomanov, L. J. Bourhis, R. J. Gildea, J. A. K. Howard and H. Puschmann, OLEX2: a complete structure solution, refinement and analysis program. J. Appl. Cryst. (2009). 42, 339-341.
  2. SHELXS-97 (Sheldrick, 2008)
  3. SHELXL-97 (Sheldrick, 2008)

Crystal structure determination of [SB-1-222PA1]

Crystal Data for C25H23NO4 (=401.44): triclinic, space group P-1 (no. 2), a = 9.0316(2) Å, b = 10.4052(2) Å, c = 10.9083(3) Å, α = 99.9550(10)°, β = 97.1890(10)°, γ = 97.4110(10)°, = 989.77(4) Å3, Z = 2, T = 172.3 K, μ(MoKα) = 0.091 mm-1, Dcalc = 1.347 g/mm3, 40859 reflections measured (3.834 ≤ 2Θ ≤ 75.716), 10498 unique (Rint = 0.0476) which were used in all calculations. The final R1 was 0.0466 (I > 2σ(I)) and wR2 was 0.1355 (all data).

This report has been created with Olex2, compiled on Dec 5 2012 16:17:34. Please let us know if there are any errors or if you would like to have additional featrues.