Synthesen von Tricyclo [5.2.1.04,8]decan (2-Homobrendan)

Syntheses of Tricyclo [5.2.1.0^4,8]decane (2-Homobrendane) Three different approaches to tricyclo [5.2.1.0^4,8] decane (5) (and derivatives thereof), one of the 19 isomeric hydrocarbons of the ‘adamantaneland’, are described: (1) Cyclization of properly functionalized bicyclo [3.2.1]octanes as 32 (cyclialkylation), 40+42 (thermocyclization) and 44+45 (photocyclization); (2) Silver-(I)-ion catalyzed rearrangement of 5,7- and 5,10-Dehydroprotoadamantane ( 63 and 64 , respectively) yielding tricyclo[5.2.1.0^4,8]dec-2- (39) and -5-ene (59) , respectively; (3) Thermal eliminative rearrangement of the 10endo-p-toluenesulfonate and -methanesulfonate of protoadamantane ( 71 and 72 ) and protoadamant-4-ene ( 76 and 77 ), respectively, yielding tricyclo [5.2.1.0^4,8]dec-2-ene (39) and -2, 5-diene (15) , respectively.     

Synthese von Tricyclo[4.4.1.13, 8]dodecan-4, 9-dion und Tricyclo[4.4.1.13, 8]dodeca-4, 9-dien

Treatment of 2, 6-bis-aminomethyladamantane-2, 6-diol (II) with nitrous acid gives tricyclo[4.4.1.1^{3, 8}]dodecane-4, 9-dione (III), which is converted into the tricyclo[4.4.1.1^{3, 8}]dodeca-4, 9-diene (V) by reduction to the corresponding diols (IV, R = H) and pyrolysis of their O-4-methylphenyl thiocarbonate O-esters. II is accessible from 2, 6-adamantanedione by reaction with diethyl aluminium cyanide and subsequent reduction with lithiumaluminium hydride. The physical properties of the new compounds including ¹³C NMR. spectra of III, V and tricyclo-[4.4.1.1^{3, 8}]dodecane are given.     

Synthese und Geruch von Tricyclo[6.2.2.02, 7]dodecan-Derivaten

Summary The acetale-ketone9 was synthesized as precursor for the preparation of -santalol derivatives posessing a bicyclo[2.2.2]octane nucleus. After methylenation of the keto-group the subsequent acidic hydrolysis of the acetal leads via a Prins reaction of the liberated aldehyde with the methylene group to tricyclo[6.2.2.0^{2, 7}]dodecane derivatives. Their olfactory properties are described.

     

Heterotricyclodecane XXVII. Ein weiterer Zugang zu 2,6-Dioxatricyclo [3.3.2.03,7]decan

A Further Approach to 2,6-Dioxatricyclo[3.3.2.0^3,7]decane A further synthesis of 2,6-dioxatricyclo[3.3.2.0^3,7]decane ( 10 ) is described by bridging the 9-oxabicyclo[4.2.1]non-7-en-3endo-ol ( 9 ). The latter compound was prepared by ring expansion starting from the known 8-oxabicyclo[3.2.1]oct-6-en-3-on ( 1 ).     

Synthese und Umwandlungen von Isoxazolidin-Nucleosiden

Synthesis and Transformations of Isoxazolidine-Nucleosides Reaction of the oxime 12 with formaldehyde, acetaldehyde or acetone in the presence of methacrylic acid methylester leads in a highly stereoselective 1,3 dipolar cycloaddition of the corresponding nitrones to the protected isoxazolidine ribosides 13, 14, 20, 21 and 26 (Scheme 1 and 2). Using a new, mild procedure to effect detriylation, the cycloaddition products were transformed into the alcohols 16–19 , 22–25 and 27 . Cleavage of a mixture of the glycosides 16 and 17 yielded the N-unsubstituted isoxazolidine 29 in 65% optical purity while the cleavage of 27 gave optically pure 28 . Alternatively, the isoxazolidine ribosides 13, 14, 16–18 and 26 were transformed via reductive cleavage of the isoxazolidine N-O bond and subsequent lactamization into the corresponding pyrrolidinone-ribosides 30, 33, 35, 42, 49 and 50 , the ribitolyl pyrrolidinones 31, 34, 36–39 and 43–46 (see Scheme 4) and the ribitolyl isoxazolidine 47 .     

Heterotricyclodecane. XXVI. 2,6-Dioxatricyclo [3.3.2.03,7]decan,ein neuartiges isomers von 2,6-dioxaadamantan

2,6-Dioxatricyclo [3.3.2.0^3,7]decane, a Novel Isomer of 2,6-Dioxaadamantane Restriction among the great number of possible diheterotricyclodecanes to such with a carbocyclic 8membered ring (cyclooctane) as basic skeleton, which is crosswise bridged by two heteroatoms, and restriction to 5-, 6- and 7membered heterocyclic rings results in the isomeric diheterotricyclodecanes of the following five different structural types: 2,6-diheteroadamantane (a) , 2,7-diheteroisotwistane (b) , 2,7-diheterotwistance (c) , 2,8-diheterohomotwistbrendane (d) , and 2,6-diheterotricyclo [3.3.2.0^3,7]decane (e ; s. Scheme 1). Starting from a suitably C (5)^o(2)-functionalized 2,7-dioxaisotwistane, first representatives with the hitherto unknown skeleton of type e were prepared by molecular rearrangement involving neighboring group participation: 2,6-dioxatricyclo [3.3.2.0^3,7]decane (41) and the derivatives 34–40 thereof (Scheme 7).     

Cis- und trans-1-Phosphabicyclo[4.4.0]decan

Cis- and trans-1-Phosphabicyclo[4.4.0]decane A mixture of cis-( 5a ) and trans-1-phosphabicyclo [4.4.0] decane 5b has been prepared by free-radical cyclization of (CH₂ = CH? CH₂? CH₂)₂CH? PH₂ 10 . The isomers could be separated in a pure state. Stereostructures have been assigned by ¹³C n.m.r. at 153—302 K. Equilibration of 5a and 5b by u.v. irradiation gave ?G°₃₅ ≈? 0 kJ ° mol^?1 · Activation parameters for ring inversion of “cis” stereoisomer 5a and its “cis” P-sulfid 17a are found to be ΔG° = 41.9 kJ · mol^?1 and 39.7 kJ · mol^?1, respectively. Treatment of 5a and 5b with H₂O₂, sulfur, selenium, HSO₃F, CH₃I, CS₂, and Ni(CO)₄, respectively, yield the corresponding derivatives. ¹H, ¹³C, ³¹P, ⁷⁷Se n.m.r. and i.r. data are reported.     

Photochemische Umwandlungen,XXXVII [1]. Synthese von Methylen-tetracyclo[3.2.0.02,7.04,6]heptan-Derivaten

Several isopropylidene-, benzylidene- and benzhydrylidene-norbornadiene derivatives ( 11 , 16 ) have been synthesized. The [2π+2π] cycloadditions leading to the tetracyclic isomers 12 and 17 resp. upon direct photoexcitation proceed practically quantitatively in the case of the trienes 11 , much less specifically, however, with 16 . Sensitization by acetone or fluorenone allows the isolation of the quadricyclanes 17 in 20–90% yields.     

Synthese und Kristallstruktur des Nonaselenids [Sr(15-Krone-5)2]Se9

Synthesis and Crystal Structure of the Nonaselenide [Sr(15-crown-5)₂]Se₉ The title compound was prepared by the reaction of excess selenium with strontium diselenide in DMF in the presence of 15-crown-5. [Sr(15-crown-5)₂]Se₉ forms black crystals, which are soluble in DMF. They were characterized by FIR spectroscopy and by an X-ray structure determination. Space group P2₁/n, Z = 4, 2 381 observed unique reflections, R = 0.073. Lattice dimensions at 19°C: a = 1 228.7, b = 1 893.4, c = 1 575.7 pm, β = 99.15°. The compound consists of [Sr(15-crown-5)₂]²⁺ ions in which the strontium ion is coordinated by the oxygen atoms of the crown ether molecules in a sandwich-like fashion, and of Se₉^2? ions with a chain structure, which has a topolocical resemblance with the bicyclic ion Se.     

Synthese und Charakterisierung einiger Poly[nitrilo-bis(phenylamino)phosphorantriyle]

Ohne Zusammenfassung     

Synthese und Eigenschaften von [n] (2,5) Pyridinophanen und ihren Derivaten

[n] (2,5) Pyridinophanes (I) have been synthesized by acid catalyzed cyclization of bis-(β-aminovinyl)-diketones to [n] (2,5) pyridinophan-n-ones (V), followed by WOLFF -KISHNER reduction. The conformational stability of the lower members (n < 12) of the series is shown by reduction of V to diastereomeric [n] (2,5) pyridinophan-n-ols (XI). In addition [9] (2,5) pyridinophane (I, n = 9) has been resolved into enantiomers.     

Versuche zur Herstellung eines «Bis(triasterans)» und Synthese des heterocyclischen (Tricyclo[4.4.1.01,6]undeca-3,8-dien-11,11-dimethyl)sulfits

Tentative Synthesis of ‘Bis(triasterane)’ and Synthesis of the Heterocyclic (Tricyclo[4.4.1.0^1,6]undeca-3,8-diene-11,11-dimethyl)sulfite The synthesis of the bis(triasterane) ( 1 ) has been tried; the reaction of ‘isotetraline’ (1,4,5,8-Tetrahydronaphthalene; 2 ) with diazomalonate yielded the tricyclic systems 5 and 6 , and not 4 . Hydrolysis of 5 gave the monocarboxylic acid 7 , and not the dicarboxylic acid 9 . The latter could be obtained from the dibromoderivative 8 , but 9 couldn't be converted to the acyl chloride 10 . The reduction of 9 with LiAlH₄ yielded the crystalline diol 11 , which was cyclized with SOCl₂ to the heterocycle 12 . The spectral data of the new compounds 5, 6, 7, 11 and 12 are reported and discussed.     

Tricyclo[4.2.2.22,5] dodecane and Tricyclo [4.2.2.12,5]undecane. Preliminary communication

A synthesis of tricyclo [4.2.2.2^2,5]dodecane ( 19 ), a novel tricyclic C₁₂H₂₀ compound, is described. The key intermediate ketone 13 was prepared either from the C₁₀-photodimer 1 of cyclopentadienone or the C₁₁-cycloaddition products 11 and 12 . 13 was also transformed to tricyclo [4.2.2.1^2,5]undecane ( 8 ).