1,4-二(甲基咪唑)丁烷二溴盐
1,4-di(methylimidazolium )-butane dibromide
- 分子式:C12H20N4Br2
- 分子量:380.12
- CAS编号:273404-21-0
- 纯度:98%
基本信息
| 产品名称: | 1,4-二(甲基咪唑)丁烷二溴盐 | ||
| 英文名称: | 1,4-di(methylimidazolium )-butane dibromide | ||
| CAS编号: | 273404-21-0 | 简 写: | Bu(MIm)2Br2 |
| 分 子 式 : | C12H20N4Br2 | 分 子 量 : | 380.12 |
| 纯 度: | 98% | 产品编号: | CP1231 |
物性数据
| 项目 | 数据 | 测试条件 | 备注 | 数据来源 |
| 熔点 ℃ | 132.8 | SciFinder |
参考谱图
安全信息
Other Names and Identifiers
Canonical SMILES
[Br-].C1=C[N+](=CN1C)CCCC[N+]=2C=CN(C2)C
InChI
InChI=1S/C12H20N4.2BrH/c1-13-7-9-15(11-13)5-3-4-6-16-10-8-14(2)12-16;;/h7-12H,3-6H2,1-2H3;2*1H/q+2;;/p-2
InChI Key
SRQWFLDDZLJJIR-UHFFFAOYSA-L
4 Other Names for this Substance
- 1H-Imidazolium, 1,1′-(1,4-butanediyl)bis[3-methyl-, dibromide (9CI)
- 1,1′-(1,4-Butanediyl)bis[3-methyl-1H-imidazolium] dibromide
- 1,4-Bis[3-methylimidazolium-1-yl]butane dibromide
- 3-Methyl-1-[4-(1-methylimidazolium-3-yl)butyl]imidazolium dibromide
参考文献
Experimental Properties
Thermal
- (1) Aher, Sainath Babaji; Research on Chemical Intermediates, (2016), 42(6), 5587-5596, CAplus
- (2) Liu, Kenny T.-C.; Organic & Biomolecular Chemistry, (2020), 18(37), 7388-7395, CAplus
- (3) Kotov, Vitalii Yu.; Journal of Molecular Structure, (2018), 1151, 186-190, CAplus
- (4) Lee, Minjae; Journal of Physical Chemistry B, (2010), 114(21), 7312-7319, CAplus
- (5) Nachtigall, Fabiane M.; Angewandte Chemie, International Edition, (2008), 47(1), 151-154, CAplus
- (6) Veisi, Hojat; RSC Advances, (2014), 4(49), 25898-25903, CAplus
- (7) Liu, Mengshuai; Journal of Molecular Catalysis A: Chemical, (2015), 408, 242-249, CAplus
- (8) Nezampour, Fahime; Applied Catalysis, A: General, (2017), 543, 104-114, CAplus
Experimental Spectra
1H-NMR
- (1) Guglielmero, Luca; Frontiers in Chemistry (Lausanne, Switzerland), (2018), 6, 612pp., CAplus
- (2) Liu, Mengshuai; Journal of Molecular Catalysis A: Chemical, (2015), 408, 242-249, CAplus
- (3) Aher, Sainath Babaji; Research on Chemical Intermediates, (2016), 42(6), 5587-5596, CAplus
- (4) Jaiswal, Pooja; Catalysis Letters, (2017), 147(8), 2067-2076, CAplus
- (5) Nachtigall, Fabiane M.; Angewandte Chemie, International Edition, (2008), 47(1), 151-154, CAplus
- (6) Li, Shengke; Journal of Organic Chemistry, (2016), 81(19), 9494-9498, CAplus
- (7) Lee, Minjae; Journal of Physical Chemistry B, (2010), 114(21), 7312-7319, CAplus
- (8) Vitz, Jurgen; Green Chemistry, (2007), 9(5), 431-433, CAplus
- (9) Zhang, Hang; Journal of Physical Chemistry C, (2018), 122(5), 2467-2474, CAplus
- (10) Fan, Mingming; RSC Advances, (2013), 3(3), 752-756, CAplus
- (11) Nachtigall, Fabiane M.; Angewandte Chemie, International Edition, (2008), 47(1), 151-154, CAplus
- (12) Lee, Minjae; Journal of Physical Chemistry B, (2010), 114(21), 7312-7319, CAplus
- (13) Chang, Jui-Cheng; Polyhedron, (2010), 29(15), 2976-2984, CAplus
- (14) Shirota, Hideaki; Journal of Chemical & Engineering Data, (2011), 56(5), 2453-2459, CAplus
13C-NMR
- (1) Guglielmero, Luca; Frontiers in Chemistry (Lausanne, Switzerland), (2018), 6, 612pp., CAplus
- (2) Aher, Sainath Babaji; Research on Chemical Intermediates, (2016), 42(6), 5587-5596, CAplus
- (3) Jaiswal, Pooja; Catalysis Letters, (2017), 147(8), 2067-2076, CAplus
- (4) Nachtigall, Fabiane M.; Angewandte Chemie, International Edition, (2008), 47(1), 151-154, CAplus
- (5) Zhang, Hang; Journal of Physical Chemistry C, (2018), 122(5), 2467-2474, CAplus
- (6) Kawadkar, Dinesh V.; Journal of Chemical & Engineering Data, (2019), 64(2), 421-432, CAplus
