2,3-bis(dodecyloxy)anthracene-9,10-dione | 191416-02-1

• 分子结构分类: 有机化合物 - 苯类化合物 - 蒽
• 英文名称: 2,3-bis(dodecyloxy)anthracene-9,10-dione
• 英文别名: 2,3-Didodecoxyanthracene-9,10-dione
• CAS: 191416-02-1
• 化学式: C₃₈H₅₆O₄
• 分子量: 576.86
• InChiKey: MFYDOQPSVRWVON-UHFFFAOYSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  14
• 重原子数：
  42
• 可旋转键数：
  24
• 环数：
  3.0
• sp3杂化的碳原子比例：
  0.63
• 拓扑面积：
  52.6
• 氢给体数：
  0
• 氢受体数：
  4

反应信息

• 作为反应物：
  描述：

  2,3-bis(dodecyloxy)anthracene-9,10-dione 在 sodium periodate 、 rhodium(III) chloride hydrate 、 sodium hydroxide 、 锌 作用下， 以 二氯甲烷 、 水 、 乙腈 为溶剂， 反应 64.0h， 生成 2,3-bis(dodecyloxy)anthracene-6,7-dione
  参考文献：
  名称：

  ORGANIC COMPOUND, THREE-DIMENSIONAL ORGANIC FRAMEWORK FORMED BY USING ORGANIC COMPOUND, SEPARATION SIEVE AND OPTICAL LAYER, WHICH COMPRISE ORGANIC FRAMEWORK, AND OPTICAL DEVICE COMPRISING OPTICAL LAYER AS OPTICAL AMPLIFICATION LAYER

  摘要：

  提供一种有机化合物，通过使用该有机化合物形成的三维有机结构、分离筛和具有该有机结构的光学层，以及具有光学层作为光学放大层的光学器件。该有机结构包括通过非共价键自组装的多个有机分子。每个单元有机分子具有芳香环，第一对取代基连接到芳香环的可取代位置的相邻位置，第二对取代基连接到芳香环的剩余可取代位置的相邻位置。单元有机分子通过范德华力相互作用、伦敦分散相互作用或氢键作用于第一和第二对取代基之间的π-π相互作用而自组装。

  公开号：

  US20190031586A1
• 作为产物：
  描述：

  1,2-(二十二烷氧荃)苯 在 sodium dichromate 、 硫酸 、 溶剂黄146 作用下， 以 乙腈 为溶剂， 反应 3.0h， 生成 2,3-bis(dodecyloxy)anthracene-9,10-dione
  参考文献：
  名称：

  ORGANIC COMPOUND, THREE-DIMENSIONAL ORGANIC FRAMEWORK FORMED BY USING ORGANIC COMPOUND, SEPARATION SIEVE AND OPTICAL LAYER, WHICH COMPRISE ORGANIC FRAMEWORK, AND OPTICAL DEVICE COMPRISING OPTICAL LAYER AS OPTICAL AMPLIFICATION LAYER

  摘要：

  提供一种有机化合物，通过使用该有机化合物形成的三维有机结构、分离筛和具有该有机结构的光学层，以及具有光学层作为光学放大层的光学器件。该有机结构包括通过非共价键自组装的多个有机分子。每个单元有机分子具有芳香环，第一对取代基连接到芳香环的可取代位置的相邻位置，第二对取代基连接到芳香环的剩余可取代位置的相邻位置。单元有机分子通过范德华力相互作用、伦敦分散相互作用或氢键作用于第一和第二对取代基之间的π-π相互作用而自组装。

  公开号：

  US20190031586A1

文献信息

• Spectroscopic properties and gelling ability of a set of rod-like 2,3-disubstituted anthracenesElectronic supplementary information (ESI) available: UV absorption spectra of DDOA in 1-propanol and acetonitrile as a function of temperature; phase transition diagrams and related plots for DDOA in various solvents. See http://www.rsc.org/suppdata/nj/b3/b306961c/
  作者：Jean-Pierre Desvergne、Thierry Brotin、Danny Meerschaut、Gilles Clavier、Fr�d�ric Placin、Jean-Luc Pozzo、Henri Bouas-Laurent

  DOI：10.1039/b306961c

  日期：——

  The UV absorption spectra of 2,3-didecyloxyanthracene (DDOA) recorded in methanol, ethanol, 1-propanol, acetonitrile and methylcyclohexane reveal interesting features: they show a striking contrast between the isotropic solution and the gel state where, at ambient temperature, a fine structure appears with an apparent bathochromic shift (Δν ≈ −700 cm−1), as observed in the solid state. Such an effect was mimicked by 2,3-dioxydi- (and -tri-) methyleneanthracenes in which the conformational mobility of the two juxtanuclear oxygen atoms is reduced in a manner similar to that assumed in the gel state. The fluorescence emission of DDOA (10−5 M) at very low temperature exhibits a loss of fine structure and a bathochromic shift, for the gel state, in agreement with the presence of aggregates; the excitation spectra were found to be superimposable upon the absorption spectra of the isotropic and gel phases, respectively. Solvent screening for DDOA gelling ability has shown that the most efficient solvents are CH3OH and CH3CN. From the phase transition diagram (temperatures of gel setting, Tgel, and gel melting, Tm, versus concentration), thermodynamic parameters were derived: ΔH0gel/kJ mol−1 =  −70 (CH3OH), −66 (CH3CN); ΔS0gel/(J K−1 mol−1 = −147 (CH3OH), −140 (CH3CN) and ΔG0gel/kJ mol−1 (at 300 K) ≈ −26 (CH3OH), −24 (CH3CN). These parameters attest to the good stability of these gel systems. Finally, the influence of the chain length (n = C7H15 to C12H25) on the efficiency of gel formation (or melting) was investigated in methanol, ethanol, acetonitrile and heptane. It emerges that, to form gels, n-decyl and n-undecyl were found to be the most suitable chains and methanol and ethanol the most efficient solvents. It should be noted that the ability to form gels in methanol at a concentration of 0.6 mM at ambient temperature qualifies DDOA as a supergelator.

  2,3-二十烷氧基蒽（DDOA）在甲醇、乙醇、1-丙醇、乙腈和甲基环己烷中记录的紫外吸收光谱显示出有趣的特征：它们在各向同性溶液和凝胶状态之间呈现出显著的对比，在室温下，凝胶状态下出现了一种细微结构，并伴有明显的红移（Δν ≈ −700 cm−1），与固态下观察到的情况一致。这种效应在2,3-二氧二（和三）亚甲基蒽中得到了模拟，其中两个邻核氧原子的构象运动性以类似于假设的凝胶状态的方式减少。DDOA（10−5 M）在极低温下的荧光发射显示出细微结构的丧失和红移，这与聚集体的存在一致；激发光谱发现可与各向同性和凝胶相的吸收光谱重叠。对DDOA的凝胶能力进行溶剂筛选表明，最有效的溶剂是甲醇（CH3OH）和乙腈（CH3CN）。根据相变图（凝胶设置温度Tgel和凝胶熔化温度Tm与浓度的关系），得出了热力学参数：ΔH0gel/kJ mol−1 = −70（CH3OH），−66（CH3CN）；ΔS0gel/(J K−1 mol−1 = −147（CH3OH），−140（CH3CN）；ΔG0gel/kJ mol−1（在300 K下） ≈ −26（CH3OH），−24（CH3CN）。这些参数证明了这些凝胶体系的良好稳定性。最后，研究了链长（n = C7H15至C12H25）对凝胶形成（或熔化）效率的影响，结果显示，n-癸基和n-十一基是形成凝胶的最适合链，甲醇和乙醇是最有效的溶剂。值得注意的是，DDOA在室温下以0.6 mM的浓度在甲醇中形成凝胶的能力，使其成为一种超凝胶剂。
• 유기 화합물 및 이를 사용하여 형성된 3차원 유기 구조체
  申请人：IUCF-HYU (Industry-University Cooperation Foundation Hanyang University) 한양대학교 산학협력단(220040114276) BRN ▼206-82-07306

  公开号：KR20180043221A

  公开（公告）日：2018-04-27

  3차원 유기 구조체를 제공한다. 상기 유기 구조체는 비공유 결합에 의해 자기조립된 다수 개의 유기 분자들을 포함한다. 각 유기 분자는 방향족 고리와 상기 방향족 고리의 치환가능한 위치들 중 바로 인접한 위치들에 각각 결합된 치환기들의 제1 쌍과 나머지 치환가능한 위치들 중 바로 인접한 위치들에 각각 결합된 치환기들의 제2 쌍을 구비한다. 상기 유기 분자들은 상기 치환기들의 제1 쌍과 제2 쌍 사이의 반 데르 발스(Van Der Waals) 상호작용, 런던 분산력(London dispersion interaction) 또는 수소 결합(hydrogen bonding)과 방향족 고리들 사이의 파이-파이 상호작용에 의해 자기 조립된다.

  提供三维有机结构。 该有机结构包括通过非共价键合自组装而成的多个有机分子。 每个有机分子都具有第一对取代基和第二对取代基，它们分别与芳香环和相邻的取代位点上的取代基结合。 这些有机分子通过取代基之间的范德华力、伦敦分散作用或氢键以及芳香环之间的π-π相互作用进行自组装。
• Different synthetic routes towards efficient organogelators: 2,3-substituted anthracenes
  作者：Jean-Luc Pozzo、Gilles M. Clavier、Michel Colomes、Henri Bouas-Laurent

  DOI：10.1016/s0040-4020(97)00297-4

  日期：1997.5

  synthetic approaches towards 2,3-substituted anthracenes are reported and discussed in terms of selectivity and viability. This allowed us to introduce a variety of substituents as sidearms. Promising results have been found using a tandem Diels-Alder aromatization reaction using 2,3-dimethoxybutadiene 9 as a key intermediate. However, for multigram preparations the Friedel-Crafts approach is preferred

  报告了关于2，3-取代的蒽的三种合成方法，并在选择性和生存力方面进行了讨论。这使我们可以引入各种取代基作为侧链。使用串联的Diels-Alder芳构化反应（使用2,3-二甲氧基丁二烯9作为关键中间体）发现了令人鼓舞的结果。但是，对于多谱图制备，首选Friedel-Crafts方法。
• Organic compound, three-dimensional organic framework formed by using organic compound, separation sieve and optical layer, which comprise organic framework, and optical device comprising optical layer as optical amplification layer
  申请人：INDUSTRY-UNIVERSITY COOPERATION FOUNDATION HANYANG UNIVERSITY

  公开号：US11066351B2

  公开（公告）日：2021-07-20

  An organic compound, a three-dimensional organic structure formed by using the organic compound, a separation sieve and an optical layer having the organic structure, and an optical device having the optical layer as an optical amplification layer are provided. The organic structure includes a plurality of organic molecules self-assembled by non-covalent bonding. Each of the unit organic molecules has an aromatic ring, a first pair of substituents being connected to immediately adjacent positions of substitutable positions of the aromatic ring, and a second pair of substituents being connected to immediately adjacent positions of remaining substitutable positions of the aromatic ring. The unit organic molecules are self-assembled by van der Waals interaction, London dispersion interaction or hydrogen bonding between the first and the second pairs of the substituents and by pi-pi interactions between the aromatic rings.

  本文提供了一种有机化合物、利用该有机化合物形成的三维有机结构、具有该有机结构的分离筛和光学层，以及具有该光学层作为光放大层的光学设备。有机结构包括多个通过非共价键自组装的有机分子。每个单元有机分子都有一个芳香环，第一对取代基连接到芳香环可取代位置的紧邻位置，第二对取代基连接到芳香环其余可取代位置的紧邻位置。通过第一对和第二对取代基之间的范德华相互作用、伦敦色散相互作用或氢键作用，以及芳香环之间的π-π相互作用，单元有机分子得以自组装。
• ORGANIC COMPOUND, THREE-DIMENSIONAL ORGANIC FRAMEWORK FORMED BY USING ORGANIC COMPOUND, SEPARATION SIEVE AND OPTICAL LAYER, WHICH COMPRISE ORGANIC FRAMEWORK, AND OPTICAL DEVICE COMPRISING OPTICAL LAYER AS OPTICAL AMPLIFICATION LAYER
  申请人：INDUSTRY-UNIVERSITY COOPERATION FOUNDATION HANYANG UNIVERSITY

  公开号：US20190031586A1

  公开（公告）日：2019-01-31

  An organic compound, a three-dimensional organic structure formed by using the organic compound, a separation sieve and an optical layer having the organic structure, and an optical device having the optical layer as an optical amplification layer are provided. The organic structure includes a plurality of organic molecules self-assembled by non-covalent bonding. Each of the unit organic molecules has an aromatic ring, a first pair of substituents being connected to immediately adjacent positions of substitutable positions of the aromatic ring, and a second pair of substituents being connected to immediately adjacent positions of remaining substitutable positions of the aromatic ring. The unit organic molecules are self-assembled by van der Waals interaction, London dispersion interaction or hydrogen bonding between the first and the second pairs of the substituents and by pi-pi interactions between the aromatic rings.

  提供一种有机化合物，通过使用该有机化合物形成的三维有机结构、分离筛和具有该有机结构的光学层，以及具有光学层作为光学放大层的光学器件。该有机结构包括通过非共价键自组装的多个有机分子。每个单元有机分子具有芳香环，第一对取代基连接到芳香环的可取代位置的相邻位置，第二对取代基连接到芳香环的剩余可取代位置的相邻位置。单元有机分子通过范德华力相互作用、伦敦分散相互作用或氢键作用于第一和第二对取代基之间的π-π相互作用而自组装。