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(9R,9aS,12aR,13S)9,13-diphenyl-11-(2-(pyridin-3-yloxy)phenyl)-12a,13-dihydro-9H-9,13-methanophenanthro[9,10-f]isoindole-10,12,14(9aH,11H)-trione | 1438384-23-6

中文名称
——
中文别名
——
英文名称
(9R,9aS,12aR,13S)9,13-diphenyl-11-(2-(pyridin-3-yloxy)phenyl)-12a,13-dihydro-9H-9,13-methanophenanthro[9,10-f]isoindole-10,12,14(9aH,11H)-trione
英文别名
(1S,16R,17R,21S)-1,16-diphenyl-19-(2-pyridin-3-yloxyphenyl)-19-azahexacyclo[14.5.1.02,15.03,8.09,14.017,21]docosa-2(15),3,5,7,9,11,13-heptaene-18,20,22-trione
(9R,9aS,12aR,13S)9,13-diphenyl-11-(2-(pyridin-3-yloxy)phenyl)-12a,13-dihydro-9H-9,13-methanophenanthro[9,10-f]isoindole-10,12,14(9aH,11H)-trione化学式
CAS
1438384-23-6
化学式
C44H28N2O4
mdl
——
分子量
648.717
InChiKey
WVZKDXVITGBGGS-PMWRMWSGSA-N
BEILSTEIN
——
EINECS
——
  • 物化性质
  • 计算性质
  • ADMET
  • 安全信息
  • SDS
  • 制备方法与用途
  • 上下游信息
  • 反应信息
  • 文献信息
  • 表征谱图
  • 同类化合物
  • 相关功能分类
  • 相关结构分类

计算性质

  • 辛醇/水分配系数(LogP):
    7.6
  • 重原子数:
    50
  • 可旋转键数:
    5
  • 环数:
    10.0
  • sp3杂化的碳原子比例:
    0.09
  • 拓扑面积:
    76.6
  • 氢给体数:
    0
  • 氢受体数:
    5

反应信息

  • 作为反应物:
    描述:
    (9R,9aS,12aR,13S)9,13-diphenyl-11-(2-(pyridin-3-yloxy)phenyl)-12a,13-dihydro-9H-9,13-methanophenanthro[9,10-f]isoindole-10,12,14(9aH,11H)-trione碘甲烷 作用下, 以 丙酮 为溶剂, 反应 12.0h, 以100%的产率得到1-methyl-3-(2-((9R,9aR,12aS,13S)-10,12,14-trioxo-9,13-diphenyl-9a,10,12a,13-tetrahydro-9H-9,13-methanophenanthro[9,10-f]isoindolo-11(12H)-yl)phenoxy)-pyridin-1-ium iodide
    参考文献:
    名称:
    Comprehensive Experimental Study of N-Heterocyclic π-Stacking Interactions of Neutral and Cationic Pyridines
    摘要:
    A comprehensive experimental study was carried out by measuring the relative strengths of parallel pi-stacking interactions of N-heterocycles with nonheterocycles. A versatile and rigid model system was developed, which was in equilibrium between a "closed" conformation that forms an intramolecular pi-stacking interaction and an "open" conformation that cannot form the interaction. First, the formation and geometries of the intramolecular N-heterocyclic pi-stacking interactions were verified by X-ray crystallography. Next, the closed/open ratios were measured in solution via integration of the H-1 NMR spectra, providing an accurate comparison of the N-heterocyclic pi-stacking interactions. The synthetic versatility of this model system enabled the systematic and comprehensive comparison of the influences of position, charge, and substituent effects of the nitrogen atom of the N-heterocycles within a single model system. The pi-stacking interactions of the neutral N-heterocyclic rings were slightly stronger than that of nonheterocyclic rings. Cationic N-heterocycles formed significantly stronger pi-stacking interactions than neutral N-heterocycles. The position of the nitrogen atom also had a strong influence on the stability of N-heterocyclic pi-stacking complexes. Interestingly, opposite stability trends were observed for neutral and cationic N-heterocycles. For neural N-heterocycles, geometries with the nitrogen away from the pi-face of the opposing ring were the more stable. For cationic N-heterocycles, geometries with the nitrogen close to the pi-face of the opposing ring were the more stable. Finally, N-methylated heterocycles consistently formed stronger pi-stacking interactions than N-protonated heterocycles.
    DOI:
    10.1021/jo400370e
  • 作为产物:
    参考文献:
    名称:
    Comprehensive Experimental Study of N-Heterocyclic π-Stacking Interactions of Neutral and Cationic Pyridines
    摘要:
    A comprehensive experimental study was carried out by measuring the relative strengths of parallel pi-stacking interactions of N-heterocycles with nonheterocycles. A versatile and rigid model system was developed, which was in equilibrium between a "closed" conformation that forms an intramolecular pi-stacking interaction and an "open" conformation that cannot form the interaction. First, the formation and geometries of the intramolecular N-heterocyclic pi-stacking interactions were verified by X-ray crystallography. Next, the closed/open ratios were measured in solution via integration of the H-1 NMR spectra, providing an accurate comparison of the N-heterocyclic pi-stacking interactions. The synthetic versatility of this model system enabled the systematic and comprehensive comparison of the influences of position, charge, and substituent effects of the nitrogen atom of the N-heterocycles within a single model system. The pi-stacking interactions of the neutral N-heterocyclic rings were slightly stronger than that of nonheterocyclic rings. Cationic N-heterocycles formed significantly stronger pi-stacking interactions than neutral N-heterocycles. The position of the nitrogen atom also had a strong influence on the stability of N-heterocyclic pi-stacking complexes. Interestingly, opposite stability trends were observed for neutral and cationic N-heterocycles. For neural N-heterocycles, geometries with the nitrogen away from the pi-face of the opposing ring were the more stable. For cationic N-heterocycles, geometries with the nitrogen close to the pi-face of the opposing ring were the more stable. Finally, N-methylated heterocycles consistently formed stronger pi-stacking interactions than N-protonated heterocycles.
    DOI:
    10.1021/jo400370e
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