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Wittig-Reaktionen von sulfonierten Phosphoniomethylstrylaromaten mit aromatischen und heteroaromatischen AldehydenHerrn Dr. Dr. h.c. Willy G. Stoll zum 70. Geburtstag (1981)

Märky, Michael

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 64 (1981), S. 957-975

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Wittig Reactions of Phosphoniomethylaryl Compounds with Sulfonated Aromatic and Heteroaromatic AldehydesBis (triphenylphosphoniomethyl)aryl dichloride derivatives react with aromatic or heteroaromatic aldehydes which have a sulfonic or carboxylic group attached to the ring system, to yield stilbene compounds of a betaine-type structure. These betaines are reacted further with various aromatic or heteroaromatic aldehydes yielding asymmetrically substituted derivatives in excellent yields. This new method is widely applicable to the preparation of water-soluble, fluorescent whitening agents of the bis-stilbene type.

Additional Material: 13 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19810640403

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2

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Photoreaktionen von 1-Alkylbenztriazolen (1979)

Märky, Michael ; Schmid, Hans ; Hansen, Hans Jürgen

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 62 (1979), S. 2129-2153

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The irradiation of benzotriazoles (cf. Scheme 2) with light of 225-325 nm in protic and in aromatic solvents was investigated. In aqueous 0.1N H2SO4 benzotriazole (5) and 1-methyl-benzotriazole (6) yielded 2-amino- and 2-methylaminophenol (25 and 26), respectively (Scheme 3). In 2-propanol 6, 5-chloro- and 6-chloro-1-methyl-benzotriazole (14 and 15) were reduced to N-methylaniline, 4-chloro- and 3-chloro-N-methyl-aniline (27, 28 and 29), respectively (Scheme 4). When the benzotriazoles were irradiated in aromatic solvents only C, C coupling products were observed (cf. Scheme 6 and Tables 1-4). It is of importance that 5-chloro-1-methyl-benztriazole (14) when decomposed photolytically in benzene solution yielded only 4-chloro-2-phenyl-N-methyl-aniline (49) and its 6-chloro isomer only 5-chloro-2-phenyl-N-methyl-aniline (50), i.e. the intervention of benzo-1H-azirine intermediates (e.g. 53, Scheme 8) can be excluded. The substitution patterns which are observed when 6 is irradiated in toluene, anisole, fluoro-, chloro-, bromobenzene and benzonitrile (cf. Table 4) can best be explained by assuming that 6, after loss of nitrogen, forms a diradical intermediate in the singlet state with highly zwitterionic character. 1-(1′-Alkenyl)-benzotriazoles (cf. Table 7) form on irradiation in cyclohexane solution indoles by intramolecular ring closure of the diradical intermediate and proton shift. After irradiation of 1-decyl-benzotriazole (8) in a glassy matrix at 77K a 7-line ESR. spectrum characteristic of a triplet radical is observed. This is in agreement with the fact that the lowest lying state of intermediates of type 2 (Scheme 1) should be a triplet state (cf. [21] [26]).

Additional Material: 9 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19790620710

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Zum photochemischen Verhalten von Sydnonen und 1,3,4-Oxadiazolin-2-onen. 56. Mitteilung über Photoreaktionen55. Mitt. siehe [1]. (1978)

Märky, Michael ; Meier, Hansruedi ; Wunderli, Alfred ; [et al.]

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 61 (1978), S. 1477-1510

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: On the Photochemistry of Sydnones and 1,2,3,4-Oxadiazolin-2-onesThe photochemical behaviour of several 3,4-disubstituted sydnones (cf. Scheme 5) dioxane solution was investigated. The pure sydnones give, as was already reported [2-6], 2,4,5-trisubstituted 1,2,3-triazoles 2 (cf. Scheme 1) in 25-30% yield. In the presence of dipolarophiles (cf. Scheme 1) pyrazole derivatives 3 or 4 are formed which can be taken as a proof for the formation of nitril-imines 5 as primary products in sydnone photochemistry. Since irradiation of 2-[15N]-3, 4-diphenyl-sydnone (2-[15N]-15) in dioxane leads to the formation of 1,3-[15N]-2,4,5-triphenyl-1,2,3-triazole (1,3-[15N]22; cf. Scheme 10), nitril-imine formation must be induced by the creation of a bond between N(2) und C(4) in the excited sydnones (cf. Scheme 22). The irradiation of sydnones in dioxane solution in the presence of carboxylic acids yields N′-acylhydrazides in 50-70% (cf. Scheme 14), the formation of which can be explained by addition of the acids to the nitril-imines and rearrangement of the primarily formed anhydride monohydrazones (Scheme 15). By analogy, the formation of 1-benzoyl-2-(t-butyl)-4-phenyl-1,2-diazetidin-3-one (14; Scheme 4) during the photolysis of 3-(t-butyl)-4-phenylsydnone (12) in benzene solution (cf. [5b]) may also be explained: Sydnone 12 undergoes two different photoreactions leading by loss of carbon dioxide to the corresponding nitril-imine 5 (R=t-C4H9, R′= C6H5) and by loss of isobutylene to a 1,2,3-oxadiazolin-5-one of type 48 or 49 which isomerizes to yield diazophenylacetic acid (51; cf. Scheme 17). Reaction of both products (5 and 51) results in the formation of the N′-acylhydrazide 52 (Scheme 18) which may cyclize after loss of nitrogen to yield the diazetidinone 14 in a carbene type reaction. The triazoles 2 are formed photochemically from the corresponding 1,2-bisazo-ethylenes 64 (Scheme 26) which arise from a direct ‘head-to-head’ dimerization of the nitril-imines 5. This type of reaction seems to be common to all nitrilium betaines (Schema 30). The photolysis of the 2,4-disubstituted 1,3,4-oxadiazolines 76 does not lead to nitril-imines 5 (cf. [11]). On the contrary, loss of carbon monoxide induces the formation of azoketones 77 (cf Scheme 31), which may be photo-reduced to yield hydrazides or may undergo cleavage of the N, acyl bond to form derivatives of1,2-diketones (cf. Scheme 32).

Additional Material: 2 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19780610432

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4

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Zum Mechanismus der photochemischen Umwandlung von 2-Alkyl-indazolen in 1-Alkyl-benzimidazole. I. Struktur und Reaktivität eines Zwischenproduktes (1976)

Heinzelmann, Willy ; Märky, Michael ; Gilgen, Paul

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 59 (1976), S. 1512-1527

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Mechanistic studies on the photoisomerization of 2-alkyl-indazoles into 1-alkyl-benzimidazoles. I. Structure and reactivity of an intermediate.2-Alkyl-indazoles (1) undergo photochemical isomerization to 1-alkyl-benzimidazole via previously unknown intermediates 3 (Scheme 1). In the present paper the structure and reactivity of these intermediates are discussed. Low-temperature irradiation (-60°) of 1 b with 300 nm light gives 3 b in quantitative yield. 3 b is transformed during warm-up to 1 b and 2 b (UV.-evidence). The formations of 1 and 2 show the same temperature dependence but their ratio is found to be temperature-independent. In contrast to the above behaviour, low-temperature irradiation with 250 nm light of 3 b yields 1 b only (no 2 b). These findings are consistent with the proposed reaction mechanism 2 c in Scheme 2.On the basis of spectroscopic properties and the described reaction pathways, it appears that the most suitable structure for intermediate 3 is a 7,8-diaza-tricyclo[4.3.0.07,9]nona-2,4,6(10)-trien (9). In Scheme 4 the reaction pathway for the iudazole-benzimidazole-rearrangement is summarized.

Additional Material: 10 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19760590512

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5

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Zum Mechanismus der Photochemie von 2-Alkylindazolen in wässerigen Lösungen (1976)

Heinzelmann, Willy ; Märky, Michael ; Gilgen, Paul

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 59 (1976), S. 2362-2373

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Mechanistic studies on the photochemistry of 2-alkylindazoles in aqueous solutions.The photochemistry of 2-alkylindazoles 1 in aqueous solutions is rather complex, the relative yields of different products being dependent on the pH-value of the irradiated solution: In neutral or basic solutions (pH 〉 7) as well as in most of the organic solvents isomerization to 1-alkyl-benzimidazoles 2 takes place. In dilute sulfuric acid (pH 2-4) this reaction is suppressed and the dihydro-azepinones 3 and 4 are formed. Irradiation in strongly acid solutions (pH 〈 1) yields the o-amino-acetophenones 5 (Scheme 1).The relative quantum yields of the photoproducts 2-5 have been measured as a function of the pH-value of the irradiated solution (Fig. 1). A comparison of these yields with the protonation equilibrium of the indazole in its first excited singlet state (pK = 2.8) suggests that 2 and 3 are both photoproducts of the neutral indazole molecule, whereas 4 as well as 5 are formed from the protonated indazole.The rearrangement of the indazole 1 to the benzimidazole 2 proceeds via an intermediate 6, which can be produced in high concentrations by monochromatic irradiation of 1 at low temperatures. The thermal reactivity of this intermediate in dilute sulfuric acid could be investigated: At pH 8 the only product is the benzimidazole 2. With decreasing pH-value increasing amounts of 3 are formed and at pH 〈 4 the formation of 2 is completely suppressed, the only product being the azepinone 3. Thus, 3 is a solvolysis product of the intermediate 6 (Scheme 2).The most probable primary product of singlet indazolium is the nitrenium ion 7. From this intermediate the formation of 5 can proceed in well-known thermal reactions. The formation of 4 is possibly due to a further protonation equilibrium nitrenium-nitrene. The nitrene 7 can be converted into the azepinone 4 via the azirine 8 (Scheme 3). The pK-values of different indazoles and intermediates are listed in the Table.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19760590709

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6

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Photochemische Synthese von 4-Phenyl-3-oxazolin-5-onen und deren thermische Dimerisierung. 45. Mitteilung über Photoreaktionen44. Mitteilung siehe [1]. (1976)

Gakis, Nikolas ; Märky, Michael ; Hansen, Hans-Jürgen ; [et al.]

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 59 (1976), S. 2149-2167

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Photochemical Synthesis of 4-Phenyl-3-oxazolin-5-ones and their Thermal Dimerization.Irradiation of 3-phenyl-2H-azirines affords reactive benzonitrilemethylide intermediates, which can be trapped by carbon dioxide to yield 4-phenyl-3-oxazolin-5-ones (Scheme 1). The first section of the paper deals with the experimental description of this reaction, which already has been preliminarily communicated. Upon irradiation the 3-oxazolin-5-ones undergo photoextrusion of carbon dioxide to reform the corresponding benzonitrile-methylides, which can be trapped by dimethyl acetylenedicarboxylate.In the second section of the paper, reactions of 2-methyl-4-phenyl-3-oxazolin-5-one (3c) are described. Upon heating to 130°, this compound is partially converted to 2-methyl-4-phenyl-2-oxazolin-5-one (azlactone 4e). Prolonged heating of 3c affords the dimer 7 (Scheme 3) as well as the imidazole derivative 9 (Scheme 4). Compound 7 is related to the ‘Rügheimer compound’ C18H14N2O4, formed from hippuric acid methylester. The structure of 7 was determined by X-ray crystallography and this supports the formula assigned earlier to the ‘Rügheimer compound’ (12) and related pyrrolidin-2,4-diones. The possible mechanism of the thermal formation of 7, which is also base catalysed, is represented in Scheme 3, the one for the formation of the imidazol 9 in Scheme 4.Under the influence of oxygen the 2,4-diphenyl-3-oxazolin-5-one (3b) undergoes a dehydrodimerization to yield compound 16 (Scheme 7). Section three contains the structure elucidation of compound 16 and a mechanistic proposal for the formation of the pyrazine 19 upon thermolysis of 2,4-diphenyl-2-oxazolin-5-on (4b, Scheme 7).

Additional Material: 2 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19760590626

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7

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Zum Mechanismus der photochemischen Umwandlung von 2-Alkyl-indazolen in 1-Alkyl-benzimidazole. II. Photophysikalische und photochemische Primärprozesse (1976)

Heinzelmann, Willy ; Märky, Michael ; Gilgen, Paul

New York, NY : Wiley-Blackwell

Helvetica Chimica Acta 59 (1976), S. 1528-1546

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ISSN: 0018-019X

Keywords: Chemistry ; Organic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Mechanistic studies on the photoisomerization of 2-alkyl-indazoles into 1-alkyl-benzimidazoles. II. Primary photochemical processes and photophysical deactivation.In the previous paper [1] the structure of the intermediate in the photochemical indazole-benzimidazole-isomerization was discussed (3 in Scheme 1). In this communication experiments concerning the photochemical primary processes and photophysical deactivation of 2-alkyl-indazoles (1) are described.The quantum yield of the rearrangement 1 → 2 (ΦR) decreases with decreasing temperature while the fluorescence quantum yield (ΦF) increases and finally reaches a constant value ( ≠ 1) (Fig.10). This behaviour is inconsistent with the mechanism shown in Scheme 2. Photoreaction and fluorescence are both quenched, but not to the same extent, by freon 113 (Fig. 2). In addition the Stern-Volmer-plots are not linear. These observations are best explained by assuming the existence of two excited states in equilibrium (Scheme 3). The mechanism in Scheme 3 correctly explains the quenching experiments and the temperature dependence of ΦR and ΦF if the Arrhenius law holds for the two rate constants ksx and kR. However, for a quantitative calculation of ΦR, an additional branching of the reaction pathway must be postulated (Scheme 4). Two-dimensional drawings of hypothetical potential energy surfaces of the ground state and the first excited singlet state yielding a qualitative picture of the reaction and deactivation pathways of the discussed molecule are given in Fig. 15 a and b.

Additional Material: 15 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/hlca.19760590513

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