Structures by: Senthil Kumar V. S.

Total: 16

5-Nitrosalicylic acid

C7H5NO5

Senthil Kumar, V. S.Nangia, AshwiniKirchner, Michael T.Boese, Roland

New Journal of Chemistry (2003) 27, 2 224

a=5.2010(7)Å   b=8.8753(13)Å   c=9.2841(13)Å

α=62.449(2)°   β=75.388(2)°   γ=81.657(3)°

Dioxane solvate of 5-Nitrosalicylic acid

'C9H9NO6'

Senthil Kumar, V. S.Nangia, AshwiniKirchner, Michael T.Boese, Roland

New Journal of Chemistry (2003) 27, 2 224

a=5.3656(11)Å   b=22.995(5)Å   c=7.9984(16)Å

α=90.00°   β=90.79(3)°   γ=90.00°

1,3,5-tris(4-cyanobenzoyl)benzene)

C30H15N3O3

Senthil Kumar, V. S.Christopher Pigge, F.Rath, Nigam P.

New Journal of Chemistry (2003) 27, 11 1554

a=5.9762(2)Å   b=13.9047(4)Å   c=14.2152(4)Å

α=71.790(2)°   β=84.290(2)°   γ=87.967(2)°

1,3,5-tris(4-cyanobenzoyl)benzene)

C30H15N3O3

Senthil Kumar, V. S.Christopher Pigge, F.Rath, Nigam P.

New Journal of Chemistry (2003) 27, 11 1554

a=7.7072(2)Å   b=11.3057(2)Å   c=13.7913(3)Å

α=73.2840(10)°   β=88.4220(10)°   γ=83.4200(10)°

C7H4N2O7.C2H4O2

C7H4N2O7.C2H4O2

Senthil Kumar, V. S.Kuduva, Srinivasan S.Desiraju, Gautam R.

Journal of the Chemical Society, Perkin Transactions 2 (1999) 6 1069

a=6.006(4)Å   b=9.517(4)Å   c=10.396(5)Å

α=78.99(3)°   β=73.84(5)°   γ=85.86(5)°

C7H4N2O7.C4H8O2

C7H4N2O7.C4H8O2

Senthil Kumar, V. S.Kuduva, Srinivasan S.Desiraju, Gautam R.

Journal of the Chemical Society, Perkin Transactions 2 (1999) 6 1069

a=6.6852(8)Å   b=9.7347(18)Å   c=10.5534(18)Å

α=79.468(17)°   β=80.152(14)°   γ=82.990(12)°

C7H4N2O7.C4H8O2

C7H4N2O7.C4H8O2

Senthil Kumar, V. S.Kuduva, Srinivasan S.Desiraju, Gautam R.

Journal of the Chemical Society, Perkin Transactions 2 (1999) 6 1069

a=9.149(15)Å   b=11.912(3)Å   c=13.318(4)Å

α=111.22(3)°   β=90.13(6)°   γ=101.12(4)°

C7H4N2O7.C4H8O2

C7H4N2O7.C4H8O2

Senthil Kumar, V. S.Kuduva, Srinivasan S.Desiraju, Gautam R.

Journal of the Chemical Society, Perkin Transactions 2 (1999) 6 1069

a=11.3053(10)Å   b=6.0266(5)Å   c=16.9126(2)Å

α=90.00°   β=97.921(9)°   γ=90.00°

C7H4N2O7.H2O

C7H4N2O7.H2O

Senthil Kumar, V. S.Kuduva, Srinivasan S.Desiraju, Gautam R.

Journal of the Chemical Society, Perkin Transactions 2 (1999) 6 1069

a=16.487(4)Å   b=5.8204(16)Å   c=13.462(4)Å

α=90.00°   β=132.58(2)°   γ=90.00°

C7H4N2O7.C4H10O

C7H4N2O7.C4H10O

Senthil Kumar, V. S.Kuduva, Srinivasan S.Desiraju, Gautam R.

Journal of the Chemical Society, Perkin Transactions 2 (1999) 6 1069

a=10.290(4)Å   b=5.972(3)Å   c=22.928(7)Å

α=90.00°   β=90.00°   γ=90.00°

3,5-Dinitrosalicylic acid--phenazine (1/1)

C7H4N2O7,C12H8N2

V. S. Senthil KumarSrinivasan S. KuduvaGautam R. Desiraju

Acta Crystallographica Section E (2002) 58, 8 o865-o866

a=14.8002(15)Å   b=7.4029(16)Å   c=16.0091(16)Å

α=90°   β=96.395(8)°   γ=90°

2,2'-bis(4,4-diphenyl-2,5-cyclohexadienone)diselenide

C36H26O2Se2

Senthil Kumar, V. S.Nangia, Ashwini 2,2'-Diselenobis(4,4-diphenylcyclohexa-2,5-dienone)

Acta Crystallographica Section C (2000) 56, 1 123-124

a=17.4144(16)Å   b=10.6767(10)Å   c=15.2187(14)Å

α=90.00°   β=90.00°   γ=90.00°

1:0.5 Molecular complex of 5-Nitrosalicylic acid and trans-1,4-dithiane-1,4-dioxide

(C7H5NO5).(C4H8O2S2)0.5

Senthil Kumar, V. S.Nangia, AshwiniKatz, Amy K.Carrell, H. L.

Crystal Growth & Design (2002) 2, 4 313

a=6.5864(13)Å   b=23.353(5)Å   c=7.0345(14)Å

α=90°   β=96.07(3)°   γ=90°

1:1 Molecular complex of 3,5-Dinitrosalicylic acid and trans-1,4-dithiane-1,4-dioxide

(C7H4N2O7).(C4H8O2S2)

Senthil Kumar, V. S.Nangia, AshwiniKatz, Amy K.Carrell, H. L.

Crystal Growth & Design (2002) 2, 4 313

a=13.766(3)Å   b=6.2818(13)Å   c=18.675(4)Å

α=90°   β=111.53(3)°   γ=90°

1:1:2 Molecular complex of oxalic acid, trans-1,4-dithiane-1,4-dioxide and water

(C2H2O4)0.5.(C4H8O2S2)0.5.(H2O)

Senthil Kumar, V. S.Nangia, AshwiniKatz, Amy K.Carrell, H. L.

Crystal Growth & Design (2002) 2, 4 313

a=6.2640(13)Å   b=6.6570(13)Å   c=7.6130(15)Å

α=100.12(3)°   β=97.09(3)°   γ=114.20(3)°

1:1 Molecular complex of succinic acid and trans-1,4-dithiane-1,4-dioxide

(C4H6O4)0.5.(C4H8O2S2)0.5

Senthil Kumar, V. S.Nangia, AshwiniKatz, Amy K.Carrell, H. L.

Crystal Growth & Design (2002) 2, 4 313

a=6.2210(12)Å   b=6.5660(13)Å   c=7.6850(15)Å

α=89.78(3)°   β=79.36(3)°   γ=64.55(3)°