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2,3-dibromo-9,10-dihydro-9,10[1',2']-benzenoanthracene-1,4-dione | 67219-72-1

分子结构分类

有机化合物 - 苯类化合物 - 蒽

中文名称

——

中文别名

——

英文名称

2,3-dibromo-9,10-dihydro-9,10[1',2']-benzenoanthracene-1,4-dione

英文别名

2,3-dibromo-9,10-dihydro-9,10-o-benzeno-anthracene-1,4-dione；2,3-Dibrom-9,10-dihydro-9,10-o-benzeno-anthracen-1,4-dion；4,5-Dibromopentacyclo[6.6.6.02,7.09,14.015,20]icosa-2(7),4,9,11,13,15,17,19-octaene-3,6-dione(non-preferred name)；4,5-dibromopentacyclo[6.6.6.02,7.09,14.015,20]icosa-2(7),4,9,11,13,15,17,19-octaene-3,6-dione

2,3-dibromo-9,10-dihydro-9,10[1',2']-benzenoanthracene-1,4-dione化学式

CAS

67219-72-1

化学式

C₂₀H₁₀Br₂O₂

mdl

——

分子量

442.106

InChiKey

SMSZQIJSHGRGMC-UHFFFAOYSA-N

BEILSTEIN

——

EINECS

——

物化性质

熔点：

262 °C (decomp)
沸点：

520.2±50.0 °C(Predicted)
密度：

1.90±0.1 g/cm3(Predicted)

计算性质

辛醇/水分配系数(LogP)：

4.8
重原子数：

24
可旋转键数：

0
环数：

6.0
sp3杂化的碳原子比例：

0.1
拓扑面积：

34.1
氢给体数：

0
氢受体数：

2

SDS

SDS：9995e50200ab2a5ad46bed72b68d83af

查看

上下游信息

上游原料

中文名称	英文名称	CAS号	化学式	分子量
9,10-二氢-9,10[1',2']-苯并蒽-1,4-二酮	9,10-dihydro-9,10-[o]benzenoanthracene-1,4-dione	3519-82-2	C₂₀H₁₂O₂	284.314
——	9,10-dihydro-9,10-[1,2]benzenoanthracene-13,16-dione	60835-52-1	C₂₀H₁₄O₂	286.33
——	triptycene-1,4-quinone	1711-46-2	C₂₀H₁₄O₂	286.33

反应信息

作为反应物：

描述：

2,3-dibromo-9,10-dihydro-9,10[1',2']-benzenoanthracene-1,4-dione 在 sodium dithionite 作用下，以乙醚为溶剂，反应 24.0h，以90%的产率得到2,3-dibromo-1,4-dihydroxytryptycene

参考文献：

名称：

A Highly Conductive Macrocycle-Linked Metallophthalocyanine Polymer

摘要：

DOI：

10.1002/1521-3773(20000818)39:16<2897::aid-anie2897>3.0.co;2-r
作为产物：

描述：

9,10-二氢-9,10[1',2']-苯并蒽-1,4-二酮在溴作用下，以氯仿为溶剂，反应 72.0h，以87%的产率得到2,3-dibromo-9,10-dihydro-9,10[1',2']-benzenoanthracene-1,4-dione

参考文献：

名称：

A Highly Conductive Macrocycle-Linked Metallophthalocyanine Polymer

摘要：

DOI：

10.1002/1521-3773(20000818)39:16<2897::aid-anie2897>3.0.co;2-r

点击查看最新优质反应信息

文献信息

Synthesis, Photochemistry, and Electrochemistry of a Series of Phthalocyanines with Graded Steric Hindrance

作者：Gongzhen Cheng、Xinzhan Peng、Guolun Hao、Vance O. Kennedy、Ilya N. Ivanov、Kenneth Knappenberger、Tessa J. Hill、Michael A. J. Rodgers、Malcolm E. Kenney

DOI：10.1021/jp027006q

日期：2003.5.1

A group of twelve new and three known silicon phthalocyanines having axial ligands and peripheral groups which provide varying amounts of steric protection to the ring face and ring periphery has been assembled. These are SiPc[OSi(n-C6H13)(3)](2), 1, (known), SiPc[OSi(i-C4H9)(2)(n-C18H37)](2), 2, SiPc(OEt)(8)[OH](2), 5, SiPc(OEt)(8)[OSi(CH3)(3)](2), 6, SiPc(OnBu)(8)[OH](2), 8, (known), SiPc(OnBu)(8)[OSi(n-C6H13)(3)](2), 9, (known), SiPc(OnBu)(8)[OSi(i-C4H9)(2)(n-C18H37)](2), 10, SiPc(dib)(4)(OnBu)(8)[OH](2), 15, SiPc(dib)(4)(OnBu)(8)[F](2), 16, SiPc(dib)(4)(OnBu)(8)[OSi(n-C6H13)(2)](2), 17, SiPc(dib)(4)(OnBu)(8)[OSi(i-C4H9)(2)(n-C18H37)](2), 18, SiPc(dib)(4)(OnBu)(8)[OSi8O12(C5H9)(7)](2), 19, SiPc(dib)(4)(OnBu)(8)[OH](2), 22, SiPc(dib)(4)(OiBu)(8)[OSi(n-C6H13)(3)](2), 23, and SiPc(dib)(4)(OiBu)(8)[OSi8O12(C5H9)(7)](2), 24. Syntheses are given for the twelve members of the group that are new. Photophysical and voltammetric investigations of six representative members of the group, 1, 2, 10, 18, 19, and 24, have been carried out. The results show that compounds 1 and 2 (no butoxy substituents at the I and 4 positions) have significantly larger values of the first oxidation potential (E+1) than those compounds (10, 18, 19, and 24) that do carry these substituents. The values of E-1 (first reduction potential) show very little in the way of structural dependence. Alkoxy substitution at the 1,4 positions affects the HOMO energies, and therefore, the addition of an electron from an electrode to the LUMO of a 1,4 substituted silicon phthalocyanine will not be a sensitive function of the substitution pattern. The removal of an electron from the HOMO in an oxidation step on the other hand would be expected to be energetically less demanding for those compounds wherein the HOMO is higher lying. This orbital energy effect of substitution makes it clear why the E+1 values for compounds 1 and 2 are significantly lower. Substitution of dibenzobarreleno (dib) at the 2,3 positions has only minor effects on the HOMO energy, as shown by the similarities in the position of the Q-band maximum. However, it is very likely that the steric effects of the dibenzobarreleno substituents and the [OSi8O12(C5H9)(7)] axial cages contribute to the observed trends in E+1. Bimolecular rate constants for quenching of the triplet states of the six target compounds by O-2, by beta-carotene, and by chloranil were measured. The first two compounds quench by triplet-triplet (TT) energy transfer, whereas the last is an electron transfer (ET) reactant. All rate parameters were sensitive to the steric crowding of the phthalocyanine pi system, but with different degrees. The least sensitive was the ET reaction with chloranil.Thus, it appears that although steric crowding of the triplet state of the silicon phthalocyanines is very effective at reducing the rate constants of exoergic electron exchange energy transfer (TT) reactions, even for a small molecule such as oxygen, it is much less effective at discriminating against electron transfer (ET) processes. These differences may be accounted for on the concept that the overlap requirement for the double electron exchange of TT energy transfer is more stringent compared to the single electron transfer (ET).
Clar, Chemische Berichte, 1931, vol. 64, p. 1676,1679

作者：Clar

DOI：——

日期：——
AGARWAL N. L.; JAIN S. K., SYNTHESIS, 1978, NO 6, 437-438

作者：AGARWAL N. L.、 JAIN S. K.

DOI：——

日期：——
A Highly Conductive Macrocycle-Linked Metallophthalocyanine Polymer

作者：Richard P. Kingsborough、Timothy M. Swager

DOI：10.1002/1521-3773(20000818)39:16<2897::aid-anie2897>3.0.co;2-r

日期：2000.8.18