関: azulene sulfonate sodium

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出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2017/08/26 01:53:14」(JST)

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Azulene is an organic compound and an isomer of naphthalene. Whereas naphthalene is colourless, azulene is dark blue. Two terpenoids, vetivazulene (4,8-dimethyl-2-isopropylazulene) and guaiazulene (1,4-dimethyl-7-isopropylazulene), that feature the azulene skeleton are found in nature as constituents of pigments in mushrooms, guaiac wood oil, and some marine invertebrates.

Azulene has a long history, dating back to the 15th century as the azure-blue chromophore obtained by steam distillation of German chamomile. The chromophore was discovered in yarrow and wormwood and named in 1863 by Septimus Piesse. Its structure was first reported by Lavoslav Ružička, followed by its organic synthesis in 1937 by Placidus Plattner.

Structure and bonding

The blue color of the mushroom Lactarius indigo is due to the azulene derivative (7-isopropenyl-4-methylazulen-1-yl)methyl stearate.^[3]

Azulene is usually viewed as resulting from fusion of cyclopentadiene and cycloheptatriene rings. Like naphthalene and cyclodecapentaene, it is a 10 pi electron system. It exhibits aromatic properties: (i) the peripheral bonds have similar lengths and (ii) it undergoes Friedel-Crafts-like substitutions. The stability gain from aromaticity is estimated to be half that of naphthalene.

Its dipole moment is 1.08 D,^[4] in contrast with naphthalene, which has a dipole moment of zero. This polarity can be explained by regarding azulene as the fusion of a 6 π-electron cyclopentadienyl anion and a 6 π-electron tropylium cation: one electron from the seven-membered ring is transferred to the five-membered ring to give each ring aromatic stability by Hückel's rule. Reactivity studies confirm that seven-membered ring is electrophilic and the five-membered ring is nucleophilic.

The dipolar nature of the ground state is reflected in its deep colour, which is unusual for small unsaturated aromatic compounds. Another notable feature of azulene is that it violates Kasha's rule by exhibiting fluorescence from an upper-excited state (S₂ → S₀).^[5]

Organic synthesis

Synthetic routes to azulene have long been of interest because of its unusual structure. In 1939 the first method was reported by St. Pfau and Plattner ^[6] starting from indane and ethyl diazoacetate.

An efficient one-pot route entails annulation of cyclopentadiene with unsaturated C₅-synthons.^[7] The alternative approach from cycloheptatriene has long been known, one illustrative method being shown below.^[8]

Azulene procedure. step 1: cycloheptatriene 2+2 cycloaddition with dichloro ketene step 2: diazomethane insertion reaction step 3: dehydrohalogenation reaction with DMF step 4: Luche reduction to alcohol with sodium borohydride step 5: elimination reaction with Burgess reagent step 6: oxidation with p-chloranil step 7: dehalogenation with polymethylhydrosiloxane, palladium(II) acetate, potassium phosphate and the DPDB ligand

Organometallic complexes

In organometallic chemistry, azulene serves as a ligand for low-valent metal centers, which otherwise are known to form π-complexes with both cyclopentadienyl and cycloheptatrienyl ligands. Illustrative complexes are (azulene)Mo₂(CO)₆ and (azulene)Fe₂(CO)₅.^[9]

Related compounds

1-Hydroxyazulene is an unstable green oil and it does not show keto–enol tautomerism.^[10] 2-Hydroxyazulene is obtained by hydrolysis of 2-methoxyazulene with hydrobromic acid. It is stable and does show keto–enol tautomerism.^[11] The pK_a of 2-hydroxyazulene in water is 8.71. It is more acidic than phenol or naphthol. The pK_a of 6-hydroxyazulenes in water is 7.38 making it also more acidic than phenol or naphthol.^[11]

In naphth[a]azulene, a naphthalene ring is condensed at the 1,2-positions of azulene. In one such system^[12] deformation from planarity is found similar to that of tetrahelicene.

References

^ http://deepblue.lib.umich.edu/bitstream/2027.42/42354/1/128-58-2-268_58n2p268.pdf
^ Carl Salter; James B. Foresman (1998). "Naphthalene and Azulene I: Semimicro Bomb Calorimetry and Quantum Mechanical Calculations". Journal of Chemical Education. 75 (10): 1341. Bibcode:1998JChEd..75.1341S. doi:10.1021/ed075p1341.
^ Harmon AD, Weisgraber KH, Weiss U (1980). "Preformed azulene pigments of Lactarius indigo (Schw.) Fries (Russulaceae, Basidiomycetes)". Cellular and Molecular Life Sciences (Experientia). 36 (1): 54–56. ISSN 1420-682X. doi:10.1007/BF02003967.
^ Anderson A. G., Jr.; Stecker, B. M. (1959). "Azulene. VIII. A Study of the Visible Absorption Spectra and Dipole Moments of Some 1- and 1,3-Substituted Azulenes". J. Am. Chem. Soc. 81 (18): 4941–4946. doi:10.1021/ja01527a046.
^ Tétreault, N.; Muthyala, R.S.; Liu, R.S.H.; Steer, R.P. (1999). "Control of the Photophysical Properties of Polyatomic Molecules by Substitution and Solvation: The Second Excited Singlet State of Azulene". J. Phys. Chem. A. 103 (15): 2524–31. doi:10.1021/jp984407q.
^ Zur Kenntnis der flüchtigen Pflanzenstoffe VIII. Synthese des Vetivazulens Alexander St. Pfau , Pl. A. Plattner Helvetica Chimica Acta Volume 22 Issue 1, Pages 202–08 1939 doi:10.1002/hlca.19390220126
^ Klaus Hafner; Klaus-Peter Meinhardt (1990). "Azulene". Org. Synth. ; Coll. Vol., 7, p. 15
^ Approach to the Blues: A Highly Flexible Route to the Azulenes Sébastien Carret, Aurélien Blanc, Yoann Coquerel, Mikaël Berthod, Andrew E. Greene, Jean-Pierre Deprés Angewandte Chemie International Edition Volume 44, Issue 32 , Pages 5130–33 2005 Abstract
^ Melvyn R. Churchill "Transition Metal Complexes of Azulene and Related Ligands" Progress in Inorganic Chemistry 1970, volume 11. doi:10.1002/9780470166123.ch2
^ Asao, Toyonobu; Shunji Ito; Noboru Morita (1989), "1-Hydroxyazulene and 3-hydroxyguaiazulene: Synthesis and their properties", Tetrahedron Letters, 30 (48): 6693–6696, doi:10.1016/S0040-4039(00)70653-8
^ ^a ^b Takase, Kahei; Toyonobu Asao; Yoshikazu Takagi; Tetsuo Nozoe (1968), "Syntheses and some properties of 2- and 6-hydroxyazulenes", Chemical Communications (London) (7): 368b–370, doi:10.1039/C1968000368B
^ Yamamura, Kimiaki; Kawabata, Shizuka; Kimura, Takatomo; Eda, Kazuo; Hashimoto, Masao (2005). "Novel Synthesis of Benzalacetone Analogues of Naphth[a]azulenes by Intramolecular Tropylium Ion-Mediated Furan Ring-Opening Reaction and X-ray Investigation of a Naphth[1,2-a]azulene Derivative". The Journal of Organic Chemistry. 70 (22): 8902. PMID 16238325. doi:10.1021/jo051409f.

External links

MSDS Website
MSDS Website

English Journal

Collective Total Synthesis of Englerin A and B, Orientalol E and F, and Oxyphyllol: Application of the Organocatalytic [4+3] Cycloaddition Reaction.

Wang J, Chen SG, Sun BF, Lin GQ, Shang YJ.SourceCAS Key Laboratory of Synthetic Chemistry of Natural, Substances Shanghai, Institute of Organic Chemistry, 345 Lingling Road, 200032 (China), Fax: (+86) 21-54925081.
Chemistry (Weinheim an der Bergstrasse, Germany).Chemistry.2013 Jan 4. doi: 10.1002/chem.201203467. [Epub ahead of print]
The concise collective total synthesis of englerin A and B, orientalol E and F, and oxyphyllol has been accomplished in 10-15 steps, with the total synthesis of orientalol E and oxyphyllol being achieved for the first time. The success obtained was enabled by the realization of the [4+3] cyclo
PMID 23292997

Anti-UV Activity of Newly-synthesized Water-soluble Azulenes.

Ueki J, Sakagami H, Wakabayashi H.SourceFaculty of Science, Josai University, Sakado, Saitama 350-0295, Japan. hwaka@josai.ac.jp/sakagami@dent.meikai.ac.jp.
In vivo (Athens, Greece).In Vivo.2013 Jan;27(1):119-26.
BACKGROUND: We have previously reported that azulene-related compounds can protect cells from UV-induced cytotoxicity. However, due to their high water insolubility, their anti-UV activity could not be accurately determined. In the present study, we newly-synthesized a total of nine derivatives with
PMID 23239860

Near-Infrared Responsive Conjugated Polymers to 1.5 μm and Beyond: Synthesis and Electrochromic Switching Application.

Tang T, Ding G, Lin T, Chi H, Liu C, Lu X, Wang F, He C.SourceInstitute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research), 3 Research Link, Singapore, 117602; Department of Materials Science and Engineering, National University of Singapore, 9 Engineering Drive 1, Singapore 117576.
Macromolecular rapid communications.Macromol Rapid Commun.2012 Dec 27. doi: 10.1002/marc.201200695. [Epub ahead of print]
Azulene-containing conjugated polymers with near-infrared absorption up to 1.5 μm and beyond are achieved by treating with trifluoroacetic acid (TFA). Density functional theory calculations reveal that the near-infrared absorption arises from a strong intramolecular charge transfer transition on th
PMID 23281193

Japanese Journal

原子間力顕微鏡によるアズレン-フルバレン転位反応の高分解能測定

表面科学学術講演会要旨集 36(0), 289, 2016
NAID 130005175649

SYNTHESIS OF 2,6-DIAMINOAZULENES BY THE S[N]Ar REACTION WITH CYCLIC AMINES (Dedicated to Professor Isao Kuwajima on the occasion of his 77th birthday)

Heterocycles : an international journal for reviews and communications in heterocyclic chemistry 90(1), 85-88, 2015-01-01
NAID 40020329899

Electron-rich Five-membered Ring of Azulene as a Donor Unit in Donor–Acceptor Alternating Copolymers for Polymer Solar Cell Applications

Chemistry Letters 44(1), 47-49, 2015
NAID 130004868304

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★リンクテーブル★

リンク元	「アズレン」
拡張検索	「guaiazulene」「dimethylisopropylazulene」「dimethyl isopropylazulene」

「アズレン」

Azulene
Names
	Preferred IUPAC name Azulene
	Systematic IUPAC name Bicyclo[5.3.0]decapentaene
Identifiers
CAS Number	275-51-4 ;
3D model (JSmol)	Interactive image;
ChEBI	CHEBI:31249 ;
ChemSpider	8876 ;
ECHA InfoCard	100.005.449
KEGG	C13392 ;
PubChem CID	9231;
UNII	82R6M9MGLP ;
	InChI InChI=1S/C10H8/c1-2-5-9-7-4-8-10(9)6-3-1/h1-8H Key: CUFNKYGDVFVPHO-UHFFFAOYSA-N ; InChI=1/C10H8/c1-2-5-9-7-4-8-10(9)6-3-1/h1-8H Key: CUFNKYGDVFVPHO-UHFFFAOYAT ;
	SMILES c1cccc2cccc2c1 ;
Properties
Chemical formula	C10H8
Molar mass	128.17 g·mol−1
Melting point	99 to 100 °C (210 to 212 °F; 372 to 373 K)
Boiling point	242 °C (468 °F; 515 K)
Solubility in water	0.02
Magnetic susceptibility (χ)	-98.5·10−6 cm3/mol g/l
Thermochemistry
Std enthalpy of; combustion (ΔcHo298)	−1266.5 kcal/mol
	Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
	verify (what is ?)
	Infobox references

　　[★]

英: azulene
化: アズレンスルホン酸ナトリウム azulene sulfonate sodium
商: AZ、アズガグル、アズクレニンS、アズノール、アズノールST、アズラビン、アズレイ、アズレミック、アズレミン、アズレワン、アズレン・グルタミン、アズレンスルホン酸ナトリウム・L-グルタミン、アゾテシン、アテネレン、アボダース、ウルクゾール、エマーゲン、グリマック、グロリアミン、セダガストン、トーワズレン、ノズレン、バウロ、ハスレン、フォルテガード、ポドニンS、マーズレン、マーズレンS、マズレニン、マナミンGA、メサドリンS、ヨウズレンS、ルフレン、水溶性アズレン
関: ジメチルイソプロピルアズレン、(合剤)マーズレン; 含嗽剤

「guaiazulene」

　　[★] ジメチルイソプロピルアズレン。グアイアズレン

「dimethylisopropylazulene」

　　[★]

ジメチルイソプロピルアズレン

「dimethyl isopropylazulene」

　　[★] ジメチルイソプロピルアズレン

[1] ttp://deepblue.lib.umich.edu/bitstream/2027.42/42354/1/128-58-2-268_58n2p268.pdf

[2] Carl Salter; James B. Foresman (1998). "Naphthalene and Azulene I: Semimicro Bomb Calorimetry and Quantum Mechanical Calculations". Journal of Chemical Education. 75 (10): 1341. Bibcode:1998JChEd..75.1341S. doi:10.1021/ed075p1341.

[3] Harmon AD, Weisgraber KH, Weiss U (1980). "Preformed azulene pigments of Lactarius indigo (Schw.) Fries (Russulaceae, Basidiomycetes)". Cellular and Molecular Life Sciences (Experientia). 36 (1): 54–56. ISSN 1420-682X. doi:10.1007/BF02003967.

[4] Anderson A. G., Jr.; Stecker, B. M. (1959). "Azulene. VIII. A Study of the Visible Absorption Spectra and Dipole Moments of Some 1- and 1,3-Substituted Azulenes". J. Am. Chem. Soc. 81 (18): 4941–4946. doi:10.1021/ja01527a046.

[5] Tétreault, N.; Muthyala, R.S.; Liu, R.S.H.; Steer, R.P. (1999). "Control of the Photophysical Properties of Polyatomic Molecules by Substitution and Solvation: The Second Excited Singlet State of Azulene". J. Phys. Chem. A. 103 (15): 2524–31. doi:10.1021/jp984407q.

[6] Zur Kenntnis der flüchtigen Pflanzenstoffe VIII. Synthese des Vetivazulens Alexander St. Pfau , Pl. A. Plattner Helvetica Chimica Acta Volume 22 Issue 1, Pages 202–08 1939 doi:10.1002/hlca.19390220126

[7] Klaus Hafner; Klaus-Peter Meinhardt (1990). "Azulene". Org. Synth. ; Coll. Vol., 7, p. 15

[8] Approach to the Blues: A Highly Flexible Route to the Azulenes Sébastien Carret, Aurélien Blanc, Yoann Coquerel, Mikaël Berthod, Andrew E. Greene, Jean-Pierre Deprés Angewandte Chemie International Edition Volume 44, Issue 32 , Pages 5130–33 2005 Abstract

[9] Melvyn R. Churchill "Transition Metal Complexes of Azulene and Related Ligands" Progress in Inorganic Chemistry 1970, volume 11. doi:10.1002/9780470166123.ch2

[10] Asao, Toyonobu; Shunji Ito; Noboru Morita (1989), "1-Hydroxyazulene and 3-hydroxyguaiazulene: Synthesis and their properties", Tetrahedron Letters, 30 (48): 6693–6696, doi:10.1016/S0040-4039(00)70653-8

[2-_and_6-_hydroxyazulene-11] Takase, Kahei; Toyonobu Asao; Yoshikazu Takagi; Tetsuo Nozoe (1968), "Syntheses and some properties of 2- and 6-hydroxyazulenes", Chemical Communications (London) (7): 368b–370, doi:10.1039/C1968000368B

[12] Yamamura, Kimiaki; Kawabata, Shizuka; Kimura, Takatomo; Eda, Kazuo; Hashimoto, Masao (2005). "Novel Synthesis of Benzalacetone Analogues of Naphth[a]azulenes by Intramolecular Tropylium Ion-Mediated Furan Ring-Opening Reaction and X-ray Investigation of a Naphth[1,2-a]azulene Derivative". The Journal of Organic Chemistry. 70 (22): 8902. PMID 16238325. doi:10.1021/jo051409f.

v t e Polycyclic aromatic hydrocarbons
2 rings	Butalene Azulene Naphthalene
3 rings	Acenaphthene Acenaphthylene Anthracene Fluorene Phenalene Phenanthrene
4 rings	Benz[a]anthracene Benzo[a]fluorene Benzo[c]fluorene Benzo[c]phenanthrene Chrysene Fluoranthene Pyrene Tetracene Triphenylene Tricyclobutabenzene
5 rings	Benz[e]acephenanthrylene Benzopyrene Benzo[a]pyrene Benzo[e]pyrene Benzo[a]fluoranthene Benzo[b]fluoranthene Benzo[j]fluoranthene Benzo[k]fluoranthene trans-Bicalicene Dibenz[a,h]anthracene Dibenz[a,j]anthracene Olympicene Pentacene Perylene Picene Tetraphenylene
6+ rings	Anthanthrene Benzo[ghi]perylene Circulene Corannulene Coronene Dicoronylene Diindenoperylene Helicene Heptacene Hexacene Kekulene Ovalene Zethrene

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azulene