Universität Stuttgart
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Item Open Access Stereoselective alkylation of aromatic compounds with threonine trifluoromethanesulfonates(1987) Effenberger, Franz; Weber, ThomasAlkyl trifluoromethanesulfonates (alkyl triflates) have only been used in special cases for the alkylation of aromatic compounds. We have now succeeded in synthesizing the N-protected triflates of (S)- and (R)-serine methyl ester as well as the N-protected triflates 1 of all diastereomeric threonine methyl esters in very good yields and with complete retention of configuration.Item Open Access Stereoselektive Synthesen von α,α'-Iminodicarbonsäuren (Aminosäuren ; 5)(1986) Effenberger, Franz; Burkard, UlrikeDie Trifluormethansulfonate 1, 11 bzw. 26 von enantiomerenreinen Milchsäureestern, β-Phenylmilchsäureestern bzw. α-Hydroxyglutarsäure-dimethylester (25) reagieren mit (S)-bzw. (R)-α-Aminosäureestern 2, 5, 8, 14, 17, 20 bzw. 23 diastereoselektiv zu denα,α'-Iminodicarbonsäureestern 3, 6, 9, 12, 15, 16, 18, 21 bzw. 24, die sich ohne Schwierigkeiten zu den entsprechenden α,α'-Iminodicarbonsäuren 4, 7, 10, 13, 19 bzw. 22 verseifen lassen. Verantwortlich für die hohe Diastereomerenausbeute bei diesen Reaktionen ist die große Austrittstendenz des Trifluormethansulfonat-Ions, das auch bei tiefen Temperaturen den Austausch mit den relativ schwach nucleophilen α-Aminosäureestern nach einem reinen SN2-Mechanismus ermöglicht.Item Open Access Counterion effects on the mesomorphic and electrochemical properties of guanidinium salts(2024) Ebert, Max; Lange, Alyna; Müller, Michael; Wuckert, Eugen; Gießelmann, Frank; Klamroth, Tillmann; Zens, Anna; Taubert, Andreas; Laschat, SabineIonic liquid crystals (ILCs) combine the ion mobility of ionic liquids with the order and self-assembly of thermotropic mesophases. To understand the role of the anion in ILCs, wedge-shaped arylguanidinium salts with tetradecyloxy side chains were chosen as benchmark systems and their liquid crystalline self-assembly in the bulk phase as well as their electrochemical behavior in solution were studied depending on the anion. Differential scanning calorimetry (DSC), polarizing optical microscopy (POM) and X-ray diffraction (WAXS, SAXS) experiments revealed that for spherical anions, the phase width of the hexagonal columnar mesophase increased with the anion size, while for non-spherical anions, the trends were less clear cut. Depending on the anion, the ILCs showed different stability towards electrochemical oxidation and reduction with the most stable being the PF6 based compound. Cyclic voltammetry (CV) and density functional theory (DFT) calculations suggest a possible contribution of the guanidinium cation to the oxidation processes.Item Open Access Highly active cooperative Lewis acid : ammonium salt catalyst for the enantioselective hydroboration of ketones(2021) Titze, Marvin; Heitkämper, Juliane; Junge, Thorsten; Kästner, Johannes; Peters, RenéEnantiopure secondary alcohols are fundamental high‐value synthetic building blocks. One of the most attractive ways to get access to this compound class is the catalytic hydroboration. We describe a new concept for this reaction type that allowed for exceptional catalytic turnover numbers (up to 15 400), which were increased by around 1.5-3 orders of magnitude compared to the most active catalysts previously reported. In our concept an aprotic ammonium halide moiety cooperates with an oxophilic Lewis acid within the same catalyst molecule. Control experiments reveal that both catalytic centers are essential for the observed activity. Kinetic, spectroscopic and computational studies show that the hydride transfer is rate limiting and proceeds via a concerted mechanism, in which hydride at Boron is continuously displaced by iodide, reminiscent to an SN2 reaction. The catalyst, which is accessible in high yields in few steps, was found to be stable during catalysis, readily recyclable and could be reused 10 times still efficiently working.Item Open Access Darstellung von Aminosäuren aus Halogencarbonsäure-alkylestern mit Alkalimetallcyanaten (Aminosäuren ; 1)(1981) Effenberger, Franz; Drauz, Karlheinz; Förster, Siegfried; Müller, Wolfgangα- und ω-Halogen- sowie α,ω-Dihalogencarbonsäure-alkylester reagieren mit Kaliumcyanat in Gegenwart von Alkoholen in dipolaren aprotischen Lösungsmitteln bei 80-120°C in guten Ausbeuten zu α- und ω-(Alkoxycarbonylamino)- bzw. α,ω-Bis(alkoxycarbonylamino)carbonsäurealkylestern (Mono- bzw. Diuerthane). Die hydrolytische Spaltung dieser Verbindungen mit einem wäßrigen Salzsäure/Ameisensäure-Gemisch führt in meist quantitativen Ausbeuten zu den entsprechenden Aminosäure-hydrochloriden.Item Open Access Darstellung von Didehydropyridinen aus (Trimethylsilyl)pyridinen(1991) Effenberger, Franz; Daub, WolfgangHalogen-substituted (trimethylsilyl)pyridines 2, 3, 5 - 7 and trifluoromethylsulfonyloxy-substituted (trimethylsilyl)pyridines 9b, 11b are obtained from 2- and 3-halopyridines 1, 4 or hydroxypyridines 8, 10, and 12. Reactions of the 3- and 2-(trimethylsilyl)pyridines 2,9b and 11b with bases in the presence of furans 15 give only protodesilylation or hydrolysis products but no indication is found for the formation of a 2,3-didehydropyridine. 3-Bromo-4-(trimethylsilyl)pyridine (5a) reacts with KOCMe3 in the presence of furan (15a) to give a mixture of products from which the isoquinoline derivative 20 and the tert-butoxypyridines 23, 24 are formed by addition to 3,4-didehydropyridine. Under comparable conditions far higher yields of 3,4-didehydropyridines are obtained by treatment of the 3-halo-2,4-bis(trimethylsilyl)pyridines 7 with strong bases.Item Open Access Stereoretentive regio‐ und enantioselektive Allylierung von Isoxazolinonen per planar chiralem Palladacyclus‐Katalysator(2022) Yu, Xin; Hu, Lingfei; Frey, Wolfgang; Lu, Gang; Peters, RenéDie katalytische allylische Substitution ist eines der wichtigsten Werkzeuge in der asymmetrischen Synthese zur enantioselektiven Bildung von C-C-Bindungen. Während in vorigen Arbeiten eine hohe Effizienz in Bezug auf Enantio- und Regiokontrolle unter Verwendung verschiedener Katalysatortypen erreicht wurde, besteht eine starke allgemeine Einschränkung in einer sehr ausgeprägten Präferenz für die Bildung von allylischen Substitutionsprodukten mit (E)-konfigurierten C=C-Doppelbindungen. Hier berichten wir, dass mit einem planar-chiralen Palladacyclus-Katalysator unter Verwendung von Isoxazolinonen und Allylimidaten als Substrate ein diastereospezifisches Reaktionsergebnis erzielt wird, wodurch die C=C-Doppelbindungsgeometrie der Allylsubstrate in den hoch enantiomerenangereicherten Produkten beibehalten wird. DFT-Rechnungen zeigen, dass die Reaktionen über einen SN2-Mechanismus und nicht über π-Allyl-Pd-Komplexe ablaufen. Entscheidend für die hohe Kontrolle ist die Stabilisierung des allylischen Fragments im SN2-Übergangszustand durch π-Wechselwirkungen mit den Phenylsubstituenten des Pentaphenylferrocen-Katalysatorkerns.Item Open Access Eine einfache Synthese von N-Carboxy-α,β-didehydro-α-aminosäure-anhydriden (4-Alkyliden-2,5-oxazolidindionen) (Aminosäuren ; 10)(1988) Effenberger, Franz; Niesert, Claus-Peter; Kühlwein, Jürgen; Ziegler, Thomasα-Azidocarboxylic acids 1 react with phosgene in the presence of catalytic amounts of sodium perrhenate in dimethoxyethane at 85°C to give N-carboxy-α,β-didehydroamino acid anhydrides (4-alkylidene-2.5-oxazolidinediones) 2 in good yields.Item Open Access Die Spaltung von Arylether-Bindungen durch initiale Dioxygenierung: Grundlage des bakteriellen Dioxinabbaus(1991) Engesser, Karl-Heinrich; Strubel, Volker; Kirchner, S.; Schestag, S.; Schulte, P.; Knackmuss, Hans-JoachimBei der Untersuchung des bakteriellen Abbaus von Arylether-Modellsubstraten wie 2-Alkoxybenzoat, Carboxybiphenylether und Dibenzofuran wurde ein grundlegender Mechanismus für die Spaltung von Aryletherbindungen aufgedeckt. Demnach bewirken Dioxygenase-Enzyme unter Einführung zweier Hydroxylgruppen die Überführung von Ether- in Hemiacetalbindungen. Diese instabilen Hemiacetale reagieren unter Rearomatisierung zu aliphatischen Alkoholen und/oder Phenolverbindungen ab. Enzyme dieses Typs sind auch in der Lage, Dioxine zu spalten.Item Open Access Synthetic and mechanistic prospects of homogeneous gold catalysis(2009) Pankajakshan, Sreekumar; Hashmi, A. Stephen K. (Prof. Dr.)a) The first chapter of this thesis manifests the exploration of homogeneous gold-catalyzed conversions of furan containing aryl-ynamides and ynol ethers. Enynes boast to be the most explored substrate structures in the realm of homogeneous gold catalysis, whereas the reactivity of ene-ynamides and ene-ynol ethers are much less explored till date.34, 45 Hashmi and co-workers recently reported the homogeneous gold-catalyzed synthesis of phenols from furan containing ynamides/ynol ethers.45e These substrates showed excellent reactivity and selectivity apparently owing to the heteroatom directly attached to the alkyne unit. Impressed with the reactivity and high selectivity of these systems, we decided to explore the catalytic activity of the aryl substituted variants of these compounds. Gold catalysis of aryl-ynamides The aryl-ynamide substrates turned out to be interesting candidates for gold catalysis. The mode of reactivity depended on the tether length. The substrates with two carbon tether underwent a Friedel-Crafts type reaction upon subjected to gold catalysts and furnished benzannulated arenes in moderate to excellent yields (Scheme C). A combination of Ph3PAuCl /AgBF4 (5 mol%, 1:1) in CH2Cl2 or CHCl3 was found to be the best choice of catalyst. The reaction conditions were mild and a broad spectrum of polyarenes and polyheteroarenes were synthesized. The substrates carrying an unactivated arene failed to react even under higher temperature and prolonged reaction time. The gold catalysis of substrates 58r-58t with a longer tether took a completely different pathway and gave rise to cyclopentadiene structures (Scheme D). Similar to shorter tethered substrates, electron withdrawing groups on the arene were not tolerated. b) The second chapter of this thesis deals with the development of gold-catalyzed transformations of furan containing alkynes that prove the potential intermediacy of a cationic intermediate in these types of reactions. The actual electronic state of the intermediate in gold-catalyzed enyne cycloisomerizations is a hot spot in recent scientific reports.20a-c A cyclopropyl "carbene" form of the intermediate has been used by most of the authors. But it is important to note that such a species is yet to be isolated or characterized spectroscopically. Recently Fürstner et al., proposed remarkable experimental evidence for the involvement of the cationic form of this intermediate in gold-catalyzed cyclizations.20a,20c The scenario demands the consideration of the actual electronic state of the intermediate as a mesomeric/tautomeric package of different canonical forms (Scheme H). In the context of this thesis it was found that furyl-alkynes carrying electron donating substituents in the α-position of the tether led to the formation of unexpected five-membered structures (instead of the expected phenols) when subjected to gold catalysts (Scheme I). The observed reactivity pattern for the substrates 116/118 was highly informative and served as an experimental evidence for the significant contribution of the cationic form of the intermediate AO in the mesomeric/tautomeric equilibria shown in the scheme H. A mechanistic proposal based on this intermediate was suggested for this hitherto unknown transformation in the gold catalysis of furyl-alkynes (Scheme J). c) The third chapter of this thesis elaborates the unexpected formation of N,O-acetals from oxanorbornadienes-the potential precursors for phenols- upon exposure to gold and other Lewis acids (Scheme K). AuCl was found to be the best Lewis acid catalyst under the given conditions, and Yb(CF3SO3)3 also showed remarkable reactivity. The generality and the absence of any other products/side products confirmed that the reactions followed general acid catalysis. The observation that there is a net reversal in the connectivity of the tether in the product hinted at a complex mechanism operating in the process. d) The fourth chapter of this thesis describes the investigations carried out on the aerobic oxidation reactions catalyzed by gold. A homogeneous catalytic system comprising of gold(I) chloride, n-butyl lithium and sodium carbonate was developed and was found to oxidize primary aromatic alcohols to aldehydes. The system was poor in activity towards aliphatic and secondary alcohols (Scheme L).