TY - JOUR A1 - Rager, Sabrina A1 - Jakowetz, Andreas C. A1 - Gole, Bappaditya A1 - Beuerle, Florian A1 - Medina, Dana D. A1 - Bein, Thomas T1 - Scaffold-Induced Diketopyrrolopyrrole Molecular Stacks in a Covalent Organic Framework JF - Chemistry of Materials N2 - In recent years, covalent organic frameworks (COFs) have attracted considerable attention due to their crystalline and porous nature, which positions them as intriguing candidates for diverse applications such as catalysis, sensing, or optoelectronics. The incorporation of dyes or semiconducting moieties into a rigid two-dimensional COF can offer emergent features such as enhanced light harvesting or charge transport. However, this approach can be challenging when dealing with dye molecules that exhibit a large aromatic backbone, since the steric demand of solubilizing side chains also needs to be integrated into the framework. Here, we report the successful synthesis of DPP2-HHTP-COF consisting of diketopyrrolopyrrole (DPP) diboronic acid and hexahydroxytriphenylene (HHTP) building blocks. The well-known boronate ester coupling motif guides the formation of a planar and rigid backbone and long-range molecular DPP stacks, resulting in a highly crystalline and porous material. DPP2-HHTP-COF exhibits excellent optical properties including strong absorption over the visible spectral range, broad emission into the NIR and a singlet lifetime of over 5 ns attributed to the formation of molecular stacks with J-type interactions between the DPP subcomponents in the COF. Electrical measurements of crystalline DPP2-HHTP-COF pellets revealed conductivity values of up to 10(-6) S cm(-1). KW - Polymers KW - Electron KW - Design Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-224927 VL - 31 IS - 8 ER - TY - JOUR A1 - Griesbeck, Stefanie A1 - Michail, Evripidis A1 - Rauch, Florian A1 - Ogasawara, Hiroaki A1 - Wang, Chenguang A1 - Sato, Yoshikatsu A1 - Edkins, Robert M. A1 - Zhang, Zuolun A1 - Taki, Masayasu A1 - Lambert, Christoph A1 - Yamaguchi, Shigehiro A1 - Marder, Todd B. T1 - The Effect of Branching on the One‐ and Two‐Photon Absorption, Cell Viability, and Localization of Cationic Triarylborane Chromophores with Dipolar versus Octupolar Charge Distributions for Cellular Imaging JF - Chemistry – A European Journal N2 - Two different chromophores, namely a dipolar and an octupolar system, were prepared and their linear and nonlinear optical properties as well as their bioimaging capabilities were compared. Both contain triphenylamine as the donor and a triarylborane as the acceptor, the latter modified with cationic trimethylammonio groups to provide solubility in aqueous media. The octupolar system exhibits a much higher two‐photon brightness, and also better cell viability and enhanced selectivity for lysosomes compared with the dipolar chromophore. Furthermore, both dyes were applied in two‐photon excited fluorescence (TPEF) live‐cell imaging. KW - boranes KW - cell imaging KW - fluorescence KW - lysosome KW - two-photon excited fluorescence Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-212887 VL - 25 IS - 57 SP - 13164 EP - 13175 ER - TY - JOUR A1 - Bäumer, Nils A1 - Kartha, Kalathil K. A1 - Allampally, Naveen Kumar A1 - Yagai, Shiki A1 - Albuquerque, Rodrigo Q. A1 - Fernández, Gustavo T1 - Kontrolle über Selbstassemblierung durch Ausnutzung von Koordinationsisomerie JF - Angewandte Chemie N2 - Hierin wird die inhärente geometrische Isomerie eines PtII Komplexes als neues Werkzeug zur Kontrolle von supramolekularen Assemblierungsprozessen ausgenutzt. Bestrahlung mit UV‐Licht sowie die sorgfältige Auswahl des verwendeten Lösungsmittels, der Temperatur und Konzentration führen zu einer regelbaren Koordinationsisomerie. Dies ermöglicht ein vollständig reversibles Schalten zwischen zwei definierten aggregierten Spezies (1D Fasern ↔ 2D Lamellen) mit unterschiedlichem photoresponsivem Verhalten. Unsere Erkenntnisse erweitern nicht nur die Reichweite von Koordinationsisomerie, sondern eröffnen auch aufregende Möglichkeiten zur Entwicklung neuartiger stimuliresponsiver Materialien. KW - Koordinationsisomerie KW - Photoresponsives Verhalten KW - Selbstassemblierung KW - Supramolekulare Polymere KW - π-Konjugierte Systeme Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-212176 VL - 131 IS - 44 SP - 15772 EP - 15776 ER - TY - JOUR A1 - Pöppler, Ann‐Christin A1 - Lübtow, Michael M. A1 - Schlauersbach, Jonas A1 - Wiest, Johannes A1 - Meinel, Lorenz A1 - Luxenhofer, Robert T1 - Strukturmodell von Polymermizellen in Abhängigkeit von der Curcumin‐Beladung mithilfe von Festkörper‐NMR‐Spektroskopie JF - Angewandte Chemie N2 - Detaillierte Einblicke in die Struktur von mit Wirkstoffen beladenen Polymermizellen sind rar, aber wichtig um gezielt optimierte Transportsysteme entwickeln zu können. Wir konnten beobachten, dass eine Erhöhung der Curcumin‐Beladung von Triblockcopolymeren auf Basis von Poly(2‐oxazolinen) und Poly(2‐oxazinen) schlechtere Auflösungseigenschaften nach sich zieht. Mitthilfe von Festkörper‐NMR‐Spektroskopie und komplementären Techniken ist es möglich, ein ladungsabhängiges Strukturmodell auf molekularer Ebene zu erstellen, das eine Erklärung für die beobachteten Unterschiede liefert. Dabei belegen die Änderungen der chemischen Verschiebungen und Kreuzsignale in 2D‐NMR‐Experimenten die Beteiligung des hydrophoben Polymerblocks an der Koordination der Curcumin‐Moleküle, während bei höherer Beladung auch eine zunehmende Wechselwirkung mit dem hydrophilen Polymerblock beobachtet wird. Letztere könnte elementar für die Stabilisierung von ultrahochbeladenen Polymermizellen sowie das Design von verbesserten Wirkstofftransportsystemen sein. KW - Auflösungsraten KW - Festkörper-NMR KW - Mizellen KW - Nahordnung KW - Polymere Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-212513 VL - 131 IS - 51 ER - TY - JOUR A1 - Zhang, Fangyuan A1 - Michail, Evripidis A1 - Saal, Fridolin A1 - Krause, Ana-Maria A1 - Ravat, Prince T1 - Stereospecific Synthesis and Photophysical Properties of Propeller-Shaped C\(_{90}\)H\(_{48}\) PAH JF - Chemistry - A European Journal N2 - Herein, we have synthesized an enantiomerically pure propeller‐shaped PAH, C\(_{90}\)H\(_{48}\), possessing three [7]helicene and three [5]helicene subunits. This compound can be obtained in gram quantities in a straightforward manner. The photophysical and chiroptical properties were investigated using UV/Vis absorption and emission, optical rotation and circular dichroism spectroscopy, supported by DFT calculations. The nonlinear optical properties were investigated by two‐photon absorption measurements using linearly and circularly polarized light. The extremely twisted structure and packing of the homochiral compound were investigated by single‐crystal X‐ray diffraction analysis. KW - chirality KW - enantiomers KW - helicenes KW - polycyclic aromatic hydrocarbons KW - stereospecific sythesis Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-208682 VL - 25 IS - 71 ER - TY - JOUR A1 - Hattori, Yohei A1 - Michail, Evripidis A1 - Schmiedel, Alexander A1 - Moos, Michael A1 - Holzapfel, Marco A1 - Krummenacher, Ivo A1 - Braunschweig, Holger A1 - Müller, Ulrich A1 - Pflaum, Jens A1 - Lambert, Christoph T1 - Luminescent Mono-, Di-, and Tri-radicals: Bridging Polychlorinated Triarylmethyl Radicals by Triarylamines and Triarylboranes JF - Chemistry - A European Journal N2 - Up to three polychlorinated pyridyldiphenylmethyl radicals bridged by a triphenylamine carrying electron withdrawing (CN), neutral (Me), or donating (OMe) groups were synthesized and analogous radicals bridged by tris(2,6‐dimethylphenyl)borane were prepared for comparison. All compounds were as stable as common closed‐shell organic compounds and showed significant fluorescence upon excitation. Electronic, magnetic, absorption, and emission properties were examined in detail, and experimental results were interpreted using DFT calculations. Oxidation potentials, absorption and emission energies could be tuned depending on the electron density of the bridges. The triphenylamine bridges mediated intramolecular weak antiferromagnetic interactions between the radical spins, and the energy difference between the high spin and low spin states was determined by temperature dependent ESR spectroscopy and DFT calculations. The fluorescent properties of all radicals were examined in detail and revealed no difference for high and low spin states which facilitates application of these dyes in two‐photon absorption spectroscopy and OLED devices. KW - density functional calculations KW - fluorescence KW - NIR OLED KW - radical KW - two-photon absorption Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-208162 VL - 25 IS - 68 ER - TY - JOUR A1 - Griesbeck, Stefanie A1 - Michail, Evripidis A1 - Rauch, Florian A1 - Ogasawara, Hiroaki A1 - Wang, Chenguang A1 - Sato, Yoshikatsu A1 - Edkins, Robert M. A1 - Zhang, Zuolun A1 - Taki, Masayasu A1 - Lambert, Christoph A1 - Yamaguchi, Shigehiro A1 - Marder, Todd B. T1 - The Effect of Branching on One- and Two-Photon Absorption, Cell Viability and Localization of Cationic Triarylborane Chromophores with Dipolar versus Octupolar Charge Distributions for Cellular Imaging JF - Chemistry - A European Journal N2 - Two different chromophores, namely a dipolar and an octupolar system, were prepared and their linear and nonlinear optical properties as well as their bioimaging capabilities were compared. Both contain triphenylamine as the donor and a triarylborane as the acceptor, the latter modified with cationic trimethylammonio groups to provide solubility in aqueous media. The octupolar system exhibits a much higher two‐photon brightness, and also better cell viability and enhanced selectivity for lysosomes compared with the dipolar chromophore. Furthermore, both dyes were applied in two‐photon excited fluorescence (TPEF) live‐cell imaging. KW - boranes KW - cell imaging KW - fluerescence KW - lysosome KW - two-photon excited fluorescence Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-204829 VL - 25 IS - 57 ER - TY - JOUR A1 - Pöppler, Ann-Christin A1 - Lübtow, Michael M. A1 - Schlauersbach, Jonas A1 - Wiest, Johannes A1 - Meinel, Lorenz A1 - Luxenhofer, Robert T1 - Loading dependent Structural Model of Polymeric Micelles Encapsulating Curcumin by Solid-State NMR Spectroscopy JF - Angewandte Chemie International Edition N2 - Detailed insight into the internal structure of drug‐loaded polymeric micelles is scarce, but important for developing optimized delivery systems. We observed that an increase in the curcumin loading of triblock copolymers based on poly(2‐oxazolines) and poly(2‐oxazines) results in poorer dissolution properties. Using solid‐state NMR spectroscopy and complementary tools we propose a loading‐dependent structural model on the molecular level that provides an explanation for these pronounced differences. Changes in the chemical shifts and cross‐peaks in 2D NMR experiments give evidence for the involvement of the hydrophobic polymer block in the curcumin coordination at low loadings, while at higher loadings an increase in the interaction with the hydrophilic polymer blocks is observed. The involvement of the hydrophilic compartment may be critical for ultrahigh‐loaded polymer micelles and can help to rationalize specific polymer modifications to improve the performance of similar drug delivery systems. KW - dissolution rates KW - micelles KW - polymers KW - short-range order KW - solid-state NMR spectroscopy Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206705 VL - 58 IS - 51 ER - TY - JOUR A1 - Farrell, Jeffrey M. A1 - Grande, Vincenzo A1 - Schmidt, David A1 - Würthner, Frank T1 - A Highly Warped Heptagon-Containing sp\(^2\) Carbon Scaffold via Vinylnaphthyl π-Extension JF - Angewandte Chemie International Edition N2 - A new strategy is demonstrated for the synthesis of warped, negatively curved, all‐sp\(^2\)‐carbon π‐scaffolds. Multifold C−C coupling reactions are used to transform a polyaromatic borinic acid into a saddle‐shaped polyaromatic hydrocarbon (2 ) bearing two heptagonal rings. Notably, this Schwarzite substructure is synthesized in only two steps from an unfunctionalized alkene. A highly warped structure of 2 was revealed by X‐ray crystallographic studies and pronounced flexibility of this π‐scaffold was ascertained by experimental and computational studies. Compound 2 exhibits excellent solubility, visible range absorption and fluorescence, and readily undergoes two reversible one‐electron oxidations at mild potentials. KW - arenes KW - carbon KW - C-C coupling KW - curvature KW - polycyclic aromatic hydrocarbons Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206682 VL - 58 IS - 46 ER - TY - JOUR A1 - Wen, Xinbo A1 - Nowak-Król, Agnieszka A1 - Nagler, Oliver A1 - Kraus, Felix A1 - Zhu, Na A1 - Zheng, Nan A1 - Müller, Matthias A1 - Schmidt, David A1 - Xie, Zengqi A1 - Würthner, Frank T1 - Tetrahydroxy-perylene bisimide embedded in zinc oxide thin film as electron transporting layer for high performance non-fullerene organic solar cells JF - Angewandte Chemie International Edition N2 - By introduction of four hydroxy (HO) groups into the two perylene bisimide (PBI) bay areas, new HO‐PBI ligands were obtained which upon deprotonation can complex ZnII ions and photosensitize semiconductive zinc oxide thin films. Such coordination is beneficial for dispersing PBI photosensitizer molecules evenly into metal oxide films to fabricate organic–inorganic hybrid interlayers for organic solar cells. Supported by the photoconductive effect of the ZnO:HO‐PBI hybrid interlayers, improved electron collection and transportation is achieved in fullerene and non‐fullerene polymer solar cell devices, leading to remarkable power conversion efficiencies of up to 15.95 % for a non‐fullerene based organic solar cell. KW - hydroxylation KW - metal complexenes KW - perylene bisimide KW - photoconductive interlayer KW - solar cells Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-204723 VL - 58 IS - 37 ER - TY - JOUR A1 - Schmidt, David A1 - Stolte, Matthias A1 - Süß, Jasmin A1 - Liess, Dr. Andreas A1 - Stepanenko, Vladimir A1 - Würthner, Frank T1 - Protein-like enwrapped perylene bisimide chromophore as bright microcrystalline emitter material JF - Angewandte Chemie International Edition N2 - Strongly emissive solid‐state materials are mandatory components for many emerging optoelectronic technologies, but fluorescence is often quenched in the solid state owing to strong intermolecular interactions. The design of new organic pigments, which retain their optical properties despite their high tendency to crystallize, could overcome such limitations. Herein, we show a new material with monomer‐like absorption and emission profiles as well as fluorescence quantum yields over 90 % in its crystalline solid state. The material was synthesized by attaching two bulky tris(4‐tert‐butylphenyl)phenoxy substituents at the perylene bisimide bay positions. These substituents direct a packing arrangement with full enwrapping of the chromophore and unidirectional chromophore alignment within the crystal lattice to afford optical properties that resemble those of their natural pigment counterparts, in which chromophores are rigidly embedded in protein environments. KW - cristal engeneering KW - dyes KW - flourescence quantum yield KW - perylene bisimides KW - solid-state emitters Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-204809 VL - 58 IS - 38 ER - TY - JOUR A1 - Lübtow, Michael M. A1 - Marciniak, Henning A1 - Schmiedel, Alexander A1 - Roos, Markus A1 - Lambert, Christoph A1 - Luxenhofer, Robert T1 - Ultra-high to ultra-low drug loaded micelles: Probing host-guest interactions by fluorescence spectroscopy JF - Chemistry - A European Journal N2 - Polymer micelles are an attractive means to solubilize water insoluble compounds such as drugs. Drug loading, formulations stability and control over drug release are crucial factors for drug‐loaded polymer micelles. The interactions between the polymeric host and the guest molecules are considered critical to control these factors but typically barely understood. Here, we compare two isomeric polymer micelles, one of which enables ultra‐high curcumin loading exceeding 50 wt.%, while the other allows a drug loading of only 25 wt.%. In the low capacity micelles, steady‐state fluorescence revealed a very unusual feature of curcumin fluorescence, a high energy emission at 510 nm. Time‐resolved fluorescence upconversion showed that the fluorescence life time of the corresponding species is too short in the high‐capacity micelles, preventing an observable emission in steady‐state. Therefore, contrary to common perception, stronger interactions between host and guest can be detrimental to the drug loading in polymer micelles. KW - curcumin KW - drug delivery KW - fluorenscence KW - poly(2-oxazine) KW - pol(2-oxazoline) KW - Polymer-drug interaction KW - upconversion Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-206128 VL - 25 IS - 54 ER - TY - JOUR A1 - Mueller, Stefan A1 - Lüttig, Julian A1 - Malý, Pavel A1 - Ji, Lei A1 - Han, Jie A1 - Moos, Michael A1 - Marder, Todd B. A1 - Bunz, Uwe H. F. A1 - Dreuw, Andreas A1 - Lambert, Christoph A1 - Brixner, Tobias T1 - Rapid multiple-quantum three-dimensional fluorescence spectroscopy disentangles quantum pathways JF - Nature Communications N2 - Coherent two-dimensional spectroscopy is a powerful tool for probing ultrafast quantum dynamics in complex systems. Several variants offer different types of information but typically require distinct beam geometries. Here we introduce population-based three-dimensional (3D) electronic spectroscopy and demonstrate the extraction of all fourth- and multiple sixth-order nonlinear signal contributions by employing 125-fold (1⨯5⨯5⨯5) phase cycling of a four-pulse sequence. Utilizing fluorescence detection and shot-to-shot pulse shaping in single-beam geometry, we obtain various 3D spectra of the dianion of TIPS-tetraazapentacene, a fluorophore with limited stability at ambient conditions. From this, we recover previously unknown characteristics of its electronic two-photon state. Rephasing and nonrephasing sixth-order contributions are measured without additional phasing that hampered previous attempts using noncollinear geometries. We systematically resolve all nonlinear signals from the same dataset that can be acquired in 8 min. The approach is generalizable to other incoherent observables such as external photoelectrons, photocurrents, or photoions. KW - Atomic and molecular interactions with photons KW - Optical spectroscopy Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-202529 VL - 10 ER - TY - JOUR A1 - Fayez, Shaimaa A1 - Feineis, Doris A1 - Aké Assi, Laurent A1 - Seo, Ean-Jeong A1 - Efferth, Thomas A1 - Bringmann, Gerhard T1 - Ancistrobreveines A–D and related dehydrogenated naphthylisoquinoline alkaloids with antiproliferative activities against leukemia cells, from the West African liana Ancistrocladus abbreviatus JF - RSC Advances N2 - A unique series of six biaryl natural products displaying four different coupling types (5,10 , 7,10 , 7,80 , and 5,80) were isolated from the roots of the West African liana Ancistrocladus abbreviatus (Ancistrocladaceae). Although at first sight structurally diverse, these secondary metabolites all have in common that they belong to the rare group of naphthylisoquinoline alkaloids with a fully dehydrogenated isoquinoline portion. Among the African Ancistrocladus species, A. abbreviatus is so far only the second one that was found to produce compounds with such a molecular entity. Here, we report on four new representatives, named ancistrobreveines A–D (12–14, and 6). They were identified along with the two known alkaloids 6-O-methylhamateine (4) and entdioncophylleine A (10). The two latter naphthylisoquinolines had so far only been detected in Ancistrocladus species from Southeast Asia. All of these fully dehydrogenated alkaloids have in common being optically active despite the absence of stereogenic centers, due to the presence of the rotationally hindered biaryl axis as the only element of chirality. Except for ent-dioncophylleine A (10), which lacks an oxygen function at C-6, the ancistrobreveines A–D (12–14, and 6) and 6-O-methylhamateine (4) are 6-oxygenated alkaloids, and are, thus, typical ‘Ancistrocladaceae-type’ compounds. Ancistrobreveine C (14), is the first – and so far only – example of a 7,80-linked fully dehydrogenated naphthylisoquinoline discovered in nature that is configurationally stable at the biaryl axis. The stereostructures of the new alkaloids were established by spectroscopic (in particular HRESIMS, 1D and 2D NMR) and chiroptical (electronic circular dichroism) methods. Ancistrobreveine C (14) and 6-O-methylhamateine (4) exhibited strong antiproliferative activities against drug-sensitive acute lymphoblastic CCRF-CEM leukemia cells and their multidrugresistant subline, CEM/ADR5000. KW - chemistry Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-201686 VL - 9 IS - 28 ER - TY - JOUR A1 - Mufusama, Jean-Pierre A1 - Feineis, Doris A1 - Mudogo, Virima A1 - Kaiser, Marcel A1 - Brun, Reto A1 - Bringmann, Gerhard T1 - Antiprotozoal dimeric naphthylisoquinolines, mbandakamines B\(_3\) and B\(_4\), and related 5,8′-coupled monomeric alkaloids, ikelacongolines A–D, from a Congolese Ancistrocladus liana JF - RSC Advances N2 - From the leaves of a botanically and phytochemically as yet unexplored Ancistrocladus liana discovered in the rainforests of the Central region of the Democratic Republic of the Congo in the vicinity of the town of Ikela, six new naphthylisoquinoline alkaloids were isolated, viz., two constitutionally unsymmetric dimers, the mbandakamines B\(_3\) (3) and B\(_4\) (4), and four related 5,8′-linked monomeric alkaloids, named ikelacongolines A–D (5a, 5b, 6, and 7). The dimers 3 and 4 are structurally unusual quateraryls comprising two 5,8′-coupled monomers linked via a sterically strongly constrained 6′,1′′-connection between their naphthalene units. These compounds contain seven elements of chirality, four stereogenic centers and three consecutive chiral axes. They were identified along with two known related compounds, the mbandakamines A (1) and B\(_2\) (2), which had so far only been detected in two Ancistrocladus species indigenous to the Northwestern Congo Basin. In addition, five known monomeric alkaloids, previously found in related Central African Ancistrocladus species, were isolated from the here investigated Congolese liana, three of them belonging to the subclass of 5,8′-coupled naphthylisoquinoline alkaloids, whereas two compounds exhibited a less frequently occurring 7,8′-biaryl linkage. The stereostructures of the new alkaloids were established by spectroscopic (in particular HRESIMS, 1D and 2D NMR), chemical (oxidative degradation), and chiroptical (electronic circular dichroism) methods. The mbandakamines B\(_3\) (3) and B\(_4\) (4) displayed pronounced activities in vitro against the malaria parasite Plasmodium falciparum and the pathogen of African sleeping sickness, Trypanosoma brucei rhodesiense. KW - chemistry Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-201141 VL - 9 IS - 21 ER - TY - JOUR A1 - Tshitenge Tshitenge, Dieudonné A1 - Bruhn, Torsten A1 - Feineis, Doris A1 - Mudogo, Virima A1 - Kaiser, Marcel A1 - Brun, Reto A1 - Bringmann, Gerhard T1 - An unusually broad series of seven cyclombandakamines, bridged dimeric naphthylisoquinoline alkaloids from the Congolese liana Ancistrocladus ealaensis JF - Scientific Reports N2 - A series of seven unusual dimeric naphthylisoquinoline alkaloids was isolated from the leaves of the tropical liana Ancistrocladus ealaensis J. Léonard, named cyclombandakamine A (1), 1-epi-cyclombandakamine A (2), and cyclombandakamines A3–7 (3–7). These alkaloids have a chemically thrilling structural array consisting of a twisted dihydrofuran-cyclohexenone-isochromene system. The 1′″-epimer of 4, cyclombandakamine A1 (8), had previously been discovered in an unidentified Ancistrocladus species related to A. ealaensis. Both lianas produce the potential parent precursor, mbandakamine A (9), but only A. ealaensis synthesizes the corresponding cyclized form, along with a broad series of slightly modified analogs. The challenging isolation required, besides multi-dimensional chromatography, the use of a pentafluorophenyl stationary phase. Featuring up to six stereocenters and two types of chiral axes, their structures were elucidated by means of 1D and 2D NMR, HRESIMS, in combination with oxidative chemical degradation experiments as well as chiroptical (electronic circular dichroism spectroscopy) and quantum chemical calculations. Compared to the ‘open-chain’ parent compound 9, these dimers displayed rather moderate antiplasmodial activities. KW - Screening KW - Solution-state NMR KW - Stereochemistry KW - Structure elucidation Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-200759 VL - 9 ER - TY - JOUR A1 - Hollmann, Claudia A1 - Wiese, Teresa A1 - Dennstädt, Fabio A1 - Fink, Julian A1 - Schneider-Schaulies, Jürgen A1 - Beyersdorf, Niklas T1 - Translational approaches targeting ceramide generation from sphingomyelin in T cells to modulate immunity in humans JF - Frontiers in Immunology N2 - In T cells, as in all other cells of the body, sphingolipids form important structural components of membranes. Due to metabolic modifications, sphingolipids additionally play an active part in the signaling of cell surface receptors of T cells like the T cell receptor or the co-stimulatory molecule CD28. Moreover, the sphingolipid composition of their membranes crucially affects the integrity and function of subcellular compartments such as the lysosome. Previously, studying sphingolipid metabolism has been severely hampered by the limited number of analytical methods/model systems available. Besides well-established high resolution mass spectrometry new tools are now available like novel minimally modified sphingolipid subspecies for click chemistry as well as recently generated mouse mutants with deficiencies/overexpression of sphingolipid-modifying enzymes. Making use of these tools we and others discovered that the sphingolipid sphingomyelin is metabolized to ceramide to different degrees in distinct T cell subpopulations of mice and humans. This knowledge has already been translated into novel immunomodulatory approaches in mice and will in the future hopefully also be applicable to humans. In this paper we are, thus, summarizing the most recent findings on the impact of sphingolipid metabolism on T cell activation, differentiation, and effector functions. Moreover, we are discussing the therapeutic concepts arising from these insights and drugs or drug candidates which are already in clinical use or could be developed for clinical use in patients with diseases as distant as major depression and chronic viral infection. KW - sphingolipids KW - CD4+ T cells KW - regulatory T cells (Treg) KW - CD8+ T cells KW - anti-depressant drug Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-198806 SN - 1664-3224 VL - 10 IS - 2363 ER - TY - THES A1 - Diedering, Manfred T1 - Mechanistische Untersuchungen zum Einfluss der Viskosität und Polarität des Lösungsmittels sowie des Substitutionsmusters auf das Produktverhältnis bei der Photolyse von Azoalkanen vom DBH-Typ T1 - Mechanistic elucidation of the solvent viscosity and bulk polarity and the substitution pattern on the product ratio in the photolysis of DBH-type azoalkanes N2 - Die photolytische Stickstoffabspaltung aus Azoalkanen vom DBH-Typ verläuft stereoselektiv unter bevorzugter Bildung des invertierten Hausans. Bei cyclopentenannelierten DBH-Derivaten kann die Selektivität in Abhängigkeit von den Brückenkopfsubstituenten auch umgekehrt sein. Bei der Photolyse von Azoalkan DBH-d2 zeigt sich, dass das Verhältnis von Inversions- zu von der Viskosität des Lösungsmittels abhängig ist. Die Viskosität wird sowohl durch Verwendung einer Serie von Alkoholen verschiedener Viskosität als auch durch Variation der Temperatur in n-Butanol geändert. Der Wert für die Photolyse in Acetonitril fügt sich in die Reihe der alkoholischen Solventien ein, womit eine Beteiligung von Wasserstoffbrücken ausgeschlossen ist. Der Viskositätseffekt ist mit einem schrittweisen Mechanismus der Stickstoffabspaltung vereinbar, der über ein unsymmetrisches Singulettdiazenyldiradikal verläuft. Die Abweichung der Viskositätprofile des kinv/kret-Verhältnisses für die Viskositätsänderung durch Lösungsmittel- und Temperaturvariation lässt einen kleinen aber messbaren Unterschied in der Aktivierungsenergie für den Inversions- und Retentionsprozess ableiten. Das kinv/kret-Verhältnis bei der Photolyse von DBH-d2 wird auch in Abhängigkeit vom Druck in superkritischem Ethan und Kohlendioxid untersucht, wofür zunächst eine spezielle Apparatur aufgebaut werden musste. Die Analyse der beobachteten Druckabhängigkeit im Hinblick auf Stoß- (Selbstdiffusionskoeffi-zient) und Reibungseffekte (Viskosität) lässt schließen, dass eine Behinderung des Inversionsprozesses durch Reibung mit Mediummolekülen die experimentellen Beobachtungen am besten erklärt. Dies entspricht den Beobachtungen in flüssiger Phase und bestätigt den Mechanismus. In einer vergleichenden Untersuchung der Photolyse (bei + 25 °C) von Azaolkan Ib und der thermischen (bei +25 °C) syn-zu-anti-Isomerisierung des entsprechenden Hausans IIb wird festgestellt, dass die kinv/kret-Verhältnisse bei der Photolyse des Azoalkans in einer Serie von Alkoholen und die Geschwindigkeitskonstanten kiso der Isomerisierung in der gleichen Reihe von Lösungsmitteln einer sehr ähnlichen Viskositätsabhängigkeit gehorchen. Daraus wird geschlossen, dass die Bewegung bei der Gerüstinversion in beiden Fällen durch Reibung mit Lösungsmittelmolekülen gehemmt und damit die Stereoselektivität bestimmt wird. Die Photolyse von DBH-d2 in Isooctan/Nujol-Gemischen zeigt die gleiche Viskositätsabhängigkeit des kinv/kret-Verhältnisses wie die in alkoholischen Medien. Aus dem Unterschied der absoluten kinv/kret-Werte der beiden Serien und durch die Verwendung weite-rer aprotischer Lösungsmittel wird eine Beeinflussung der Selektivität durch die "bulk" Polarität des Mediums festgestellt. Fazit: Durch die Untersuchung des Einflusses der Viskosität und Polarität des Lösungsmittels auf die Stereoselektivität bei der Photolyse von bicyclischen Azoalkanen und die thermi-sche Isomerisierung der entsprechenden Hausane wird das Auftreten eines Diazenyldiradi-kals als Schlüsselintermediat bestätigt und dynamische Effekte werden ausgeschlossen. Bei der Photolyse der cyclopentenannelierten Azoalkane Ic,d mit n-Propyl- und Acetoxy-methylsubstituenten an den Brückenkopfpositionen (Schema IV) entstehen unter Singulettbedingungen (direkte Photolyse bei höherer Temperatur) unter Retention hauptsächlich die anti-IIc,d Hausane. Unter Triplettbedingungen (direkte Photolyse bei tiefer Temperatur oder sensibilisierte Photolyse) wird das Inversionsprodukt syn-IIc,d bevorzugt. Die favorisierte Inversion beim Triplettweg wird mit der unsymmetrischen Natur der Brückenkopfsubstituenten n﷓Propyl und Acetoxymethyl bei der Rotation um die Brückenkopfposition des planaren Cyclopentan-1,3-diyltriplettdiradikal erklärt. Die rotationsunsymmetrischen Brückenkopfsubstituenten stehen in ihrer Konformation niedrigster Energie (AM1-Rechnungen) auf der gegenüberliegenden Seite des Diylrings als der annelierte Cyclopentenring. Nach ISC führt der Ringschluss aufgrund sterischer Wechselwirkungen zwischen den Brückenkopfsubstituenten und der gem-dimethylsubstituierten Methylenbrücke bevorzugt zum syn-Hausan. Beim Vergleich des Verhältnisses von Inversion zu Retention bei der Photolyse des ungesät-tigten und gesättigten Azoalkans Ie und If (Schema IV) zeigt sich, dass bei beiden Derivaten unter Singulettbedingungen das syn-Hausan in etwa gleichem Ausmaß entsteht. Unter Triplettbedingungen führt die Photolyse zum Retentionsprodukt anti-IIe,f als Hauptdiastereomer, aber mit einem beträchtlichen Unterschied im syn/anti-Hausan-Verhältnis für Ie (38 : 62) und If (6 : 94). Dieser signifikante Unterschied der anti-Stereoselektivität im Triplettweg wird mechanistisch durch weitreichende sterische Wechselwirkungen zwischen dem annelierten Ring und der gem-dimethylsubstituierten Methylenbrücke während des Ringschlusses nach ISC des planaren Cyclopentan-1,3-diyltriplettdiradikals gedeutet. Im Gegensatz dazu ist die Denitrogenierung des intermediären Diazenyldiradikals Ie,f-1DZ (analog zu Ia-1DZ) im SH2-Prozess (Inversion) des Singulettwegs relativ unempfindlich gegenüber solchen sterischen Effekten zwischen den entfernten Substituenten. Fazit: Bei der Photolyse von fünfringannelierten Azoalkanen wirken sich kleinere strukturelle Variationen (rotationsunsymmetrische Brückenkopfsubstituenten oder die Hydrierung der Doppelbindung im annelierten Ring) vor allem im Triplettweg über sterische Wechselwirkungen im planaren Cyclopentan-1,3-diyltriplettdiradikal auf das Verhältnis der entstehenden syn/anti-Hausane aus. Der SH2-Prozess im Singulettweg ist relativ unempfindlich gegenüber solchen sterischen Effekten. N2 - The photolytic deazetation of DBH-type azoalkanes leads with stereoselective preference to the inverted housane. On cyclopentane annellation, the selectivity may also be of the reverse sense, which depends on bridgehead substitution. In the photolysis of azoalkane Ia a dependence of the ratio of inversion to retention product is observed on solvent viscosity. The viscosity is varied both by changing the solvent at constant temperature and by changing the temperature in n-butanol. The data for the photolysis in acetonitrile fit in well with those of the alcohols, which shows that hydrogen-bonding effects are not responsible for the observed viscosity dependence. The viscosity effect is consistent with a stepwise denitrogenation mechanism through an unsymmetrical singlet diazenyl diradical Ia-1DZ. The observed influence of the viscosity on the kinv/kret ratio is rationalized in terms of the free-volume model, where frictional effects between substrate molecule and the medium influence the product distribution. The differences in the viscosity profiles of kinv/kret by changing the solvent at constant temperature and by changing the temperature accounts for a small but measurable difference of the activation energies for the inversion and retention channels. Also the dependence of the kinv/kret ratio in the photolysis of DBH-d2 on pressure in supercritical ethane and carbon dioxide has been investigated. For this purpose, a special apparatus had to be designed to measure the kinv/kret ratio in the pressure range from 40 to 200 bar. Analysis of the observed pressure dependence in terms of collisional (self-diffusion coefficient) and frictional effects discloses that the latter impositions by the supercritical medium account best for the experimental observations. This is consistent with the results in the liquid phase and confirms the mechanism. In a comparative study of the photolysis (at + 25 °C) of the azoalkane Ib and the thermal (at +25 °C) syn-to-anti isomeriza-tion of the corresponding housane IIb it has been found that the kinv/kret ratios for the azoalkane photolysis and the rate constants kiso of isomerization in the same set of alcohol solvents follow a similar viscosity dependence. From this it is concluded that in both cases the skeletal inversion is inhibited by friction with solvent molecules, which determines the stereoselectivity. Since the intervention of non-statistical species may be excluded in the thermal isomerization, the similar dependence discloses that dynamic effects do not play a significant role in the photolysis. The photolysis of DBH-d2 in isooc-tane/nujol-mixtures shows the same viscosity dependence of the kinv/kret ratios as in alcohols. The observed difference in the absolute kinv/kret values for both series and the use of additional aprotic solvents indi-cates the influence of bulk polarity. Conclusion: The influence of viscosity and bulk polarity of the solvent on the stereoselectivity in the photolysis of bicyclic azoalkanes and on the thermal isomerization of the corresponding housanes confirms the intervention of a diazenyl diradical as key intermedi-ate, whereas dynamic effects are unlikely. In the singlet photolysis (direct photolysis at elevated temperature) of the cyclopentene-annellated azoalkanes Ic,d with n-propyl and acetoxymethyl substituents at the bridgehead positions, mainly the anti-IIc,d housanes are formed with retention. Under triplet conditions (direct low-temperature photolysis or sensitized photolysis) the inversion product syn-IIc,d is preferred. The favored inversion in the triplet pathway is rationalized in terms of the unsymmetric nature of the n﷓propyl and acetoxymethyl substituents on their rotation about the bridgehead position in the planar cyclopentane-1,3-diyl triplet diradical. In their lowest-energy conformation (AM1 calculation), the rotationally unsymmetric bridgehead substituents orient themselves towards the opposite side to the annellated cyclopentene ring such that after ISC, the ring closure leads preferably to the syn housane. The steric repulsion between the bridgehead substituents and the gem-dimethyl-substituted methylene bridge are responsible for this directing effect. The comparison of the inversion/retention ratio in the photolysis of the unsaturated and satu-rated azoalkanes Ie and If shows that in both cases the syn housane is formed in about the same amount under singlet conditions. In contrast, under triplet conditions the photolysis leads to the retained product anti-IIe,f as major isomer, but with a substantial difference in the syn/anti-housane ratio for Ie (38 : 62) and If (6 : 94). This significant difference of anti stereoselectivity in the triplet pathway is interpreted mechanistically in terms of long-range steric interactions between the annellated cyclopentane ring and the gem-dimethylsubstituted methylene bridge during the ring closure of the planar cyclopentane-1,3 diyl diradical after ISC. In contrast, the denitrogenation of the intermediary singlet diazenyl diradical Ie,f-1DZ (analogous to Ia-1DZ) is quite insensitive to such remote steric effects in the SH2 process (Inversion). Conclusion: In the photolysis of azoalkanes with an annellated five-membered ring, small structural variations (rotationally unsymmetric bridgehead substituents or saturation of the double bond in the annellated ring) show pronounced effects on the syn/anti ratio of hou-sanes mainly in the triplet pathway due to steric interactions. Such steric effects are of minor consequence in the SH2 process for the singlet pathway. KW - Azoalkene KW - Photolyse KW - Lösungsmitte KW - DBH KW - Photolyse KW - Viskosität KW - Polarität KW - rotationsunsymmetrische Substituenten KW - superkritische Lösungsmittel KW - Photolysis KW - viscisity KW - bulk polarity KW - rotational unsymmetric substituents KW - supercritical solvents Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-193579 N1 - Dieses Dokument wurde aus Datenschutzgründen - ohne inhaltliche Änderungen - erneut veröffentlicht. die ursprüngliche Veröffentlichung war am: 15.10.2002 ER - TY - THES A1 - Buschmann, Rachel Abigail T1 - Synthesis of annulated pi-systems based on a tribenzotriquinacene core T1 - Synthese von annellierten pi-Systemen auf Basis eines Tribenzotriquinacenkerns N2 - The aim of this work was the selective functionalisation of tribenzotriquinacene (TBTQ) in order to extend the aromatic system and tune the electronic properties. The synthesised molecules could be starting materials for a model system of a defective graphene fragment. The “triple cyclisation pathway” by Hopf et al. was adapted and fluorinated tribenzotriquinacenes were synthesised for the first time. Phenanthrene groups were also introduced in other model systems and the crystal structures of phenanthrene functionalised TBTQs were compared with the parent molecules. In addition, the arrangement of TBTQ and centro methyl functionalised TBTQ was investigated on a Ag(111) surface for the first time using scanning transmission microscopy (STM). Different arrangements were observed, depending on the coverage of the surface. The insights gained about the interaction between TBTQs as well as their synthesis provide a foundation for further work and potential applications as components in organic electronic devices. N2 - Das Ziel diese Arbeit war die gezielte Funktionalisierung von Tribenzotriquinacen (TBTQ), um dessen aromatisches System zu erweitern und die elekronischen Eigenschaften zu verändern. Diese Zielmoleküle könnten sich als Ausgangsmoleküle für ein Modellsystem für ein gewölbtes Graphenfragment eignen. Die „dreifache Cyclisierungsroute“ von Hopf et al. wurde hierfür adaptiert und es wurden erstmals fluorierte Tribenzotriquinacene synthetisiert. In anderen Modellsystemen wurden Phenanthren-Einheiten eingeführt und die Kristallstrukturen mit dem TBTQ-Stammsystem verglichen. Zusätzlich wurde die Anordnung von TBTQ und centro-methyliertem TBTQ zum ersten Mal auf eine Ag(111)-Oberfläche mittels Rastertunnelmikroskopie (STM) untersucht. Es konnte gezeigt werden, dass neben der zentralen Methylgruppe auch der Grad der Oberflächenabdeckung unterschiedliche Anordnung der Moleküle auf der Oberfläche zur Folge hatte. Die aus dieser Arbeit gewonnenen Erkenntnisse über die Wechselwirkungen zwischen TBTQs sowie deren Synthese dienen als Grundlage für weitere Arbeiten und potenzielle organische Bausteine für elektronische Anwendungen. KW - Triquinacenderivate KW - Chemische Synthese KW - Aromatically annulated triquinacenes KW - Aromatisch anellierte Triquinacene KW - triquinacene derivatives KW - curved hydrocarbons KW - gekrümmte Kohlenwasserstoffe Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-193491 ER - TY - THES A1 - Wagner, Wolfgang T1 - Supramolecular Block Copolymers by Seeded Living Supramolecular Polymerization of Perylene Bisimides T1 - Supramolekulare Blockcopolymere von Perylenbisimiden mittels saat-induzierter lebender supramolekularer Polymerisation N2 - The research on supramolecular polymerization has undergone a rapid development in the last two decades, particularly since supramolecular polymers exhibit a broad variety of functionalities and applications in organic electronics, biological science or as functional materials (Chapter 2.1). Although former studies have focused on investigation of the thermodynamics of supramolecular polymerization (Chapter 2.2), the academic interest in the recent years shifted towards gaining insight into kinetically controlled self-assembly and pathway complexity to generate novel out-of-equilibrium architectures with interesting nanostructures and features (Chapter 2.3). Along this path, the concepts of seeded and living supramolecular polymerization were recently developed to enable the formation of supramolecular polymers with controlled length and low polydispersity under precise kinetic control (Chapter 2.4). Besides that, novel strategies were developed to achieve supramolecular copolymerization resulting in complex multicomponent nanostructures with different structural motives. The classification of these supramolecular copolymers on the basis of literature examples and an overview of previously reported principles to create such supramolecular architectures are provided in Chapter 2.5. The aim of the thesis was the non-covalent synthesis of highly desirable supramolecular block copolymers by the approach of living seeded supramolecular polymerization and to study the impact of the molecular shape of the monomeric building blocks on the supramolecular copolymerization. Based on the structure of the previously investigated PBI organogelator H-PBI a series of novel PBIs, bearing identical hydrogen-bonding amide side-groups in imide-position and various kind or number of substituents in bay-position, was synthesized and analyzed within this thesis. The new PBIs were successfully obtained in three steps starting from the respective bromo-substituted perylene-3,4:9,10-tetracarboxylic acid tetrabutylesters or from the N,N’-dicyclohexyl-1,7-dibromoperylene-3,4:9,10-tetracarboxylic acid bisimide. All target compounds were obtained in the final step by imidization reactions of the respective perylene tetracarboxylic acid bisanhydride precursors with N-(2-aminoethyl)-3,4,5-tris(dodecyloxy)-benzamide and were fully characterized by 1H and 13C NMR spectroscopy as well as high resolution mass spectrometry. The variation of bay-substituents strongly changes the optical properties of the monomeric PBIs which were investigated by UV/vis and fluorescence spectroscopy. The increase of the number of the methoxy-substituents provokes, for example, a red-shift of the absorption maxima concomitant with a decrease of extinction coefficients and leads to a drastic increase of the fluorescence quantum yields. Furthermore, the molecular geometry of the PBIs is also affected by variations of the bay-substituents. Thus, increasing the steric demand of the bay-substituents leads to an enlargement of the twist angles of the PBI cores as revealed by DFT calculations. Especially the 1,7-dimethoxy bay-substituted MeO-PBI proved to be very well-suited for the studies envisioned within this thesis. The self-assembly of this PBI derivative was analyzed in detail by UV/vis, fluorescence and FT-IR spectroscopy as well as atomic force microscopy (Chapter 3). These studies revealed that MeO-PBI forms in a solvent mixture of methylcyclohexane and toluene (2:1, v/v) kinetically trapped off-pathway H-aggregated nanoparticles upon fast cooling of a monomeric solution from 90 to 20 °C. However, upon slow cooling of the monomer solution fluorescent J-type nanofibers are formed by π π interactions and intermolecular hydrogen-bonding. The kinetically metastable off-pathway H-aggregates can be transformed into the thermodynamically more favored J-type aggregates by addition of seeds, which are produced by ultrasonication of the polymeric nanofibers. Interestingly, the living character of this seed-induced supramolecular polymerization process was proven by a newly designed multicycle polymerization experimental protocol. This living polymerization experiment clearly proves, that the polymerization can only occur at the “active” ends of the polymeric seed and that almost no recombination or chain termination processes are present. Hence, the approach of living supramolecular polymerization enables the formation of supramolecular polymers with controlled length and narrow polydispersity. In Chapter 4 the copolymerization of MeO-PBI with the structurally similar 1,7-dichloro (Cl-PBI) and 1,7-dimethylthio (MeS-PBI) bay-substituted PBIs is studied in detail. Both PBIs form analogous to MeO-PBI kinetically trapped off-pathway aggregates, which can be converted into the thermodynamically stable supramolecular polymers by seed-induced living supramolecular polymerization under precise kinetic control. However, the stability of the kinetically trapped aggregates of Cl-PBI and MeS-PBI is distinctly reduced compared to that of MeO-PBI, because the π-π-interactions of the kinetically metastable aggregates are hampered through the increased twisting of the PBI-cores of the former PBIs. UV/vis studies revealed that the two-component seeded copolymerization of the kinetically trapped state of MeO-PBI with seeds of Cl-PBI leads to the formation of unprecedented supramolecular block copolymers with A-B-A pattern by a living supramolecular polymerization process at the termini of the seeds. Remarkably, the resulting A-B-A block pattern of the obtained copolymers was clearly confirmed by atomic force microscopy studies as the respective blocks formed by the individual monomeric units could be distinguished by the pitches of the helical nanofibers. Moreover, detailed UV/vis and AFM studies have shown that by inverted two-component seed-induced polymerization, e.g., upon addition of seeds of MeO-PBI to the kinetically trapped aggregates of Cl-PBI, triblock supramolecular copolymers with B-A-B pattern can be generated. The switching of the block pattern could only be achieved because of the perfectly matching conditions for the copolymerization process and the tailored molecular geometry of the individual building blocks of both PBIs. These studies have demonstrated for the first time, that the block pattern of a supramolecular copolymer can be modulated by the experimental protocol through the approach of living supramolecular polymerization. Furthermore, by UV/vis analysis of the living copolymerization of MeO-PBI and MeS-PBI similar results were obtained showing also the formation of both A-B-A and B-A-B type supramolecular block copolymers. Although for these two PBIs the individual blocks could not be identified by AFM because the helical nanofibers of both PBIs exhibit identical helical pitches, these studies revealed for the first time that the approach of seeded living polymerization is not limited to a special pair of monomeric building blocks. In the last part of the thesis (Chapter 5) a systematic study on the two-component living copolymerization of PBIs with various sterical demanding bay-substituents is provided. Thus, a series of PBIs containing identical hydrogen-bonding amide groups in imide position but variable number (1-MeO-PBI, MeO-PBI, 1,6,7-MeO-PBI, 1,6,7,12-MeO-PBI) or size (EtO-PBI, iPrO-PBI) of alkoxy bay-substituents was investigated. The molecular geometry of the monomeric building blocks has a strong impact on the thermodynamically and even more pronounced on the kinetically controlled aggregation in solvent mixtures of MCH and Tol. While the mono- and dialkoxy-substituted PBIs form kinetically metastable species, the self-assembly of the tri- and tetramethoxy-substituted PBIs (1,6,7-MeO-PBI and 1,6,7,12-MeO-PBI) is completely thermodynamically controlled. The two 1,7-alkoxy substituted PBIs (EtO-PBI, iPrO-PBI) form very similar to MeO-PBI kinetically off-pathway H-aggregates and thermodynamically more favored J-type aggregates. However, the stability of the kinetically metastable state is drastically lower and the conversion into the thermodynamically favored state much faster than for MeO-PBI. In contrast, the monomethoxy-substituted PBI derivative (1-MeO-PBI) forms a kinetically trapped species by intramolecular hydrogen-bonding of the monomers, which can be transformed into the thermodynamically favored nanofibers by seeded polymerization. Importantly, the two-component seeded copolymerization of the kinetically trapped MeO PBI with seeds of other PBIs of the present series was studied by UV/vis and AFM revealing that the formation of supramolecular block copolymers is only possible for appropriate combinations of PBI building blocks. Thus, the seeded polymerization of the trapped state of the moderately core-twisted MeO-PBI with the, according to DFT-calculations, structurally similar PBIs (EtO-PBI and iPrO-PBI) leads to the formation of A-B-A block copolymers, like in the seeded copolymerization of MeO-PBItrapped with seeds of Cl-PBI and MeS-PBI already described in Chapter 4. However, by addition of seeds of the almost planar PBIs (H-PBI and 1-MeO-PBI) or seeds of the strongly core-twisted PBIs (1,6,7-MeO-PBI and 1,6,7,12-MeO-PBI) to the kinetically trapped state of MeO-PBI no block copolymers can be obtained. The mismatching geometry of these molecular building blocks strongly hampers both the intermolecular hydrogen-bonding and the π-π-interactions between the two different PBIs and consequently prevents the copolymerization process. Furthermore, the studies of the two-component seeded copolymerization of the kinetically trapped species of 1-MeO-PBI with seeds of the other PBIs also corroborated that a precise shape complementarity is crucial to generate supramolecular block copolymers. Thus, by addition of seeds of H-PBI to the kinetically trapped monomers of 1-MeO-PBI supramolecular block copolymers were generated. Both PBIs exhibit an almost planar PBI core according to DFT-calculations leading to strong non-covalent interactions between these PBIs. This perfectly matching geometry of both PBIs also enables the inverted seeded copolymerization of the kinetically trapped monomers of H-PBI with 1-MeO-PBIseed concomitant with a switching of the block pattern of the supramolecular copolymer from A-B-A to B-A-B type. In contrast, the seeding with the moderately twisted (MeO-PBI, EtO-PBI and iPrO-PBI) and the strongly twisted PBIs (1,6,7-MeO-PBI and 1,6,7,12 MeO-PBI) has no effect on the kinetically trapped state of 1-MeO-PBI, because the copolymerization of these PBIs is prevented by the mismatching geometry of the molecular building blocks. In conclusion, the supramolecular polymerization and two-component seeded copolymerization of a series of PBI monomers was investigated within this thesis. The studies revealed that the thermodynamically and kinetically controlled self-assembly can be strongly modified by subtle changes of the monomeric building blocks. Moreover, the results have shown that living supramolecular polymerization is an exceedingly powerful method to generate unprecedented supramolecular polymeric nanostructures with controlled block pattern and length distribution. The formation of supramolecular block copolymers can only be achieved under precise kinetic control of the polymerization process and is strongly governed by the shape complementarity already imparted in the individual components. Thus, these insightful studies might enable a more rational design of monomeric building blocks for the non-covalent synthesis of highly complex supramolecular architectures with interesting properties for possible future applications, e.g., as novel functional materials. N2 - Das Forschungsgebiet der supramolekularen Polymerisation hat sich in den letzten Jahrzehnten sehr rasch entwickelt, zumal da supramolekulare Polymere eine Fülle an Anwendungsmöglichkeiten in der organischen Elektronik, der Biologie oder als Funktionsmaterialen bieten (Kapitel 2.1). Während frühere Studien den Fokus auf die Untersuchung der Thermodynamik der supramolekularen Polymerisation gelegt haben (Kapitel 2.2), hat sich das akademische Interesse in jüngster Zeit dahingehend verschoben, Einblicke in kinetisch kontrollierte Selbstassemblierungsprozesse zu erhalten, um neuartige Strukturen mit faszinierenden Eigenschaften zu generieren (Kapitel 2.3). Im Zuge dieser Entwicklung wurde das Konzept der Saat-induzierten und der lebenden supramolekularen Polymerisation entwickelt, welche die Bildung von supramolekularen Polymeren mit geringer Polydispersität in kinetisch kontrollierten Prozessen ermöglichen (Kapitel 2.4). Des Weiteren wurden neue Strategien zu Erzeugung von Nanostrukturen entwickelt, die aus verschiedenen Komponenten aufgebaut sind und somit neue komplexe Strukturmotive zeigen. Eine Einteilung dieser supramolekularen Copolymere anhand einiger Literaturbeispiele und eine kurze Übersicht über die bisherigen Methoden, solche supramolekularen Strukturen zu erzeugen ist in Kapitel 2.5 dargestellt. Das Ziel der Doktorarbeit war die nicht-kovalente Synthese von erstrebenswerten supramolekularen Blockcopolymeren mittels lebender Saat-induzierter Polymerisation und zu erforschen, wie die molekulare Form der Monomerbausteine die supramolekulare Copolymerisation beeinflusst. Basierend auf der Molekülstruktur des zuvor untersuchten Perylenbisimidfarbstoffes H-PBI wurden in dieser Arbeit eine Reihe von neuen Perylenbisimiden mit identischen Amid-Seitengruppen in Imidposition und unterschiedlicher Art oder Anzahl von Buchtsubstituenten synthetisiert und charakterisiert. Die neuen Perylenbisimide wurden erfolgreich in drei Stufen durch neu entwickelte Syntheserouten erhalten, wobei von den jeweiligen Brom substituierten Perylen-3,4:9,10-tetracarbonsäuretetrabutylestern oder von N,N‘ Dicyclohexyl-1,7-dibromperylen-3,4:9,10-tetracarbonsäurebisimid ausgegangen wurde. Alle Zielverbindungen wurden im letzten Syntheseschritt mittels einer Imidisierungsreaktion der jeweiligen Perylenbisanhydridvorstufen mit N (2-Aminoethyl)-3,4,5-tris(dodecyloxy)benzamid erhalten und mittels 1H- und 13C NMR-Spektroskopie sowie mit hochauflösender Massenspektrometrie charakterisiert. Die Variation der Buchtsubstituenten hat einen starken Einfluss auf die optischen Eigenschaften der Perylenbisimidmonomere, was mittels UV/vis- und Fluoreszenzspektroskopie untersucht wurde. Die ansteigende Zahl der Methoxysubstituenten verursacht zum Beispiel eine Rotverschiebung der Absorptionsmaxima, welche mit einer Abnahme der Extinktionskoeffizienten einhergeht, und führt zu einem starken Anstieg der Fluoreszenzquantenausbeute. Außerdem wird auch die Molekülgeometrie der Perylenbisimide durch die Variation der Buchtsubstituenten beeinflusst. Mittels DFT-Rechnungen konnte gezeigt werden, dass eine Zunahme des sterischen Anspruchs der Buchtsubstituenten eine Vergrößerung des Torsionswinkels der Perylenbisimidkerne zur Folge hat. Als besonders geeignet für die im Rahmen dieser Arbeit anvisierten Studien erwies sich das mit zwei Methylgruppen in 1,7-Buchtposition substituierte MeO-PBI. Die Selbstassemblierung dieses 1,7-Dimethoxy-substituierten Perylenbisimid-Derivates wurde mit Hilfe von UV/vis-, Fluoreszenz- und FT-IR-Spektroskopie sowie mittels Rasterkraftmikroskopie detailliert analysiert (Kapitel 3). Diese Studien haben gezeigt, dass MeO-PBI in einem Lösungsmittelgemisch aus Methylcyclohexan und Toluol (2:1, v/v) in einem kinetisch kontrollierten Prozess durch schnelles Abkühlen der Monomerlösung von 90 auf 20 °C „off-pathway“ Nanopartikel ausbildet. Durch langsames Abkühlen der Monomerlösung entstehen hingegen fluoreszierende, J-aggregierte Nanofasern aufgrund von π-π-Wechselwirkungen und intermolekularen Wasserstoffbrückenbindungen. Die kinetisch metastabilen „off-pathway“ H-Aggregate können durch Zugabe einer polymeren J-Aggregat-Saat, welche durch eine Behandlung der polymeren Nanofasern mit Ultraschall gewonnen werden kann, in die thermodynamisch begünstigten J-Aggregate transformiert werden. Außerdem wurde der lebende Charakter dieser supramolekularen Saat-induzierten Polymerisation durch ein neu entworfenes multizyklisches Versuchsprotokoll nachgewiesen. Diese Experimente zur lebenden supramolekularen Polymerisation zeigen deutlich, dass der Polymerisationsprozess nur an den „aktiven“ Enden der polymeren Saat stattfinden kann und dass außerdem kaum Rekombinations- oder Kettenterminationsprozesse auftreten. Folglich ermöglicht die Methode der lebenden supramolekularen Polymerisation die Synthese von supramolekularen Polymeren mit kontrollierbarer Polymerlänge und geringer Polydispersität. In Kapitel 4 wird die Copolymerisation von MeO-PBI mit den strukturell ähnlichen 1,7 Dichlor- (Cl-PBI) und 1,7-Dimethylthiosubstituierten (MeS-PBI) Perylenbisimiden ausgeführt. Beide neuen Perylenbisimide bilden analog zu MeO-PBI „off-pathway“ Aggregate, die durch Saatzugabe in einem kinetisch kontrollierten Prozess in die thermodynamisch stabileren supramolekularen Polymere umgewandelt werden können. Die Stabilität der kinetisch gefangenen Aggregate von Cl-PBI und MeS-PBI ist jedoch verglichen mit den metastabilen Aggregaten von MeO-PBI deutlich geringer, da die π π Wechselwirkungen zwischen den molekularen Bausteinen aufgrund des vergrößerten Torsionswinkels der Peryleneinheiten stark reduziert sind. UV/vis-spektroskopische Studien zeigen, dass die Saat-induzierte Copolymerisation des kinetisch gefangenen Zustandes von MeO-PBI mit der Saat von Cl-PBI durch einen lebenden Kettenwachstumsprozess an den Polymerenden der Saat zur Ausbildung von neuartigen supramolekularen Blockcopolymeren mit A B A Blockstruktur führt. Die erzeugte A-B-A-Blockstruktur der erhaltenen Copolymere konnte eindeutig mittels Rasterkraftmikroskopie bestätigt werden, da die jeweiligen Polymerblöcke bestehend aus den einzelnen monomeren Einheiten anhand der Ganghöhe der helikalen Nanofasern unterschieden werden können. Ausführliche UV/vis- und Rasterkraftmikroskopiestudien haben außerdem demonstriert, dass, zum Beispiel durch Zugabe der Saat von MeO-PBI zu den kinetisch gefangenen Aggregaten von Cl PBI, Triblockcopolymere mit B-A-B-Blockstruktur in einer invertierten Saat-induzierten Zweikomponenten-Copolymerisation, erzeugt werden können. Dieser Wechsel der Blockstruktur kann nur durch perfekt abgestimmte Bedingungen für die Copolymerisation und bei übereinstimmender Molekülgeometrie der Monomereinheiten erreicht werden. Diese Studien zeigen erstmals, dass die Blockstruktur der supramolekularen Polymere durch das Versuchsprotokoll der lebenden supramolekularen Polymerisation variiert werden kann. Des Weiteren lieferten UV/vis-spektroskopische Untersuchungen der lebenden Copolymerisation von MeO-PBI und MeS-PBI ähnliche Ergebnisse, was darauf hindeutet, dass ebenfalls supramolekulare Blockcopolymere mit A-B-A- und B-A-B-Struktur gebildet werden können. Obwohl die einzelnen Polymerblöcke in diesem Fall wegen der identischen Helixganghöhe der Nanofasern nicht zugeordnet werden konnten, so zeigten diese Experimente doch, dass die Methode der Saat-induzierten lebenden Polymerisation nicht auf ein spezielles Paar von Monomerbausteinen limitiert ist. Im letzten Abschnitt der Doktorarbeit (Kapitel 5) wird eine systematische Studie der lebenden Zweikomponenten-Copolymerisation von Perylenbisimiden mit unterschiedlich sterisch anspruchsvollen Buchtsubstituenten dargestellt. Dementsprechend wurde eine Reihe von Perylenbisimiden mit identischen Amidseitenketten, aber unterschiedlicher Anzahl (1-MeO-PBI, MeO-PBI, 1,6,7-MeO-PBI, 1,6,7,12-MeO-PBI) oder Größe (EtO PBI, iPrO-PBI) der Alkoxybuchtsubstituenten untersucht. Die Molekülgeometrie der Monomereinheiten hat einen starken Einfluss auf das thermodynamisch und mehr noch auf das kinetisch kontrollierte Aggregationsverhalten in Lösungsmittelgemischen aus Methylcyclohexan und Toluol. Während die mono- und dialkoxysubstituierten Perylenbisimide kinetisch metastabile Zustände ausbilden, findet die Selbstassemblierung der tri- und tetramethoxysubstituierten Perylenbisimide (1,6,7-MeO-PBI, 1,6,7,12 MeO PBI) vollständig unter thermodynamischer Kontrolle statt. Die zwei 1,7 alkoxysubstituierten Perylenbisimide (EtO-PBI, iPrO-PBI) bilden analog zu MeO PBI sowohl kinetische „off-pathway“ H-Aggregate als auch thermodynamisch begünstigte J Aggregate. Verglichen mit MeO-PBI ist jedoch die Stabilität der kinetisch metastabilen Zustände von EtO-PBI und iPrO-PBI viel geringer und die Umwandlung in die thermodynamisch stabileren Aggregate geschieht daher viel schneller. Das monomethoxysubstituierte Perylenbisimid-Derivat (1 MeO PBI) bildet im Gegensatz dazu kinetisch gefangene Monomere durch intramolekulare Wasserstoffbrücken-bindungen, welche sich durch Saat-induzierte Polymerisation in die thermodynamisch begünstigteren Nanofasern transformieren lassen. Die Saat-induzierte Zweikomponenten-Copolymerisation des kinetisch gefangenen Zustands von MeO-PBI durch Saatzugabe der anderen Perylenbisimide der Reihe wurde mittels UV/vis-Spektroskopie und Rasterkraftmikroskopie analysiert. Diese Studien eröffneten, dass die Bildung von supramolekularen Blockcopolymeren nur für geometrisch passende Kombinationen der Perylenbisimide möglich ist. Dementsprechend führt die Saat-induzierte Polymerisation des kinetisch gefangenen Zustands von MeO-PBI mit den, laut DFT Rechnungen, strukturell ähnlichen Perylenbisimiden (EtO-PBI, iPrO-PBI) zur Bildung von A B A Blockcopolymeren, analog zu dem im Kapitel 4 beschriebenem Fall der Saat induzierten Copolymerisation mit Cl-PBI und MeS-PBI. Die Zugabe einer Saat der planaren Perylenbisimide (H-PBI, 1-MeO-PBI) oder der Perylenbisimide mit stark verdrehten Perylenkernen (1,6,7-MeO-PBI, 1,6,7,12 MeO PBI) zum kinetisch metastabilen Zustand von MeO-PBI führt dagegen nicht zur Bildung von Blockcopolymeren. Der Unterschied in der Molekülgeometrie dieser Monomerbausteine vermindert erheblich die Stärke der π π Wechselwirkungen zwischen den unterschiedlichen Perylenbisimiden und verhindert daher deren Copolymerisation. Die Studien zur Saat induzierten Zweikomponenten-Copolymerisation des kinetisch gefangenen Zustands von 1-MeO-PBI mit den anderen Perylenbisimiden der Serie bestätigte weiterhin, dass eine genaue Übereinstimmung der molekularen Geometrie entscheidend für die Erzeugung von supramolekularen Blockcopolymeren ist. Durch Zugabe der Saat von H-PBI zum kinetisch metastabilen Zustand von 1-MeO-PBI konnten folglich supramolekulare Blockcopolymere generiert werden. Mittels DFT-Rechnungen wurde gezeigt, dass beide Perylenbisimide einen relativ planaren Perylenkern aufweisen, was zu sehr starken, nicht-kovalenten Wechselwirkungen zwischen diesen beiden Monomerbausteinen führt. Die übereinstimmende Geometrie beider Perylenbisimide ermöglicht auch die invertierte Saat-induzierte Copolymerisation des kinetisch gefangenen Zustands von H-PBI mit 1-MeO-PBISaat, was mit einem Wechsel der Blockstruktur des supramolekularen Blockcopolymers von A B A zu B A B einhergeht. Die Zugabe der Saat der mäßig (EtO-PBI, iPrO PBI) und stark verdrehten Perylenbisimide (1,6,7-MeO-PBI, 1,6,7,12-MeO-PBI) hat im Gegensatz dazu keinen Effekt auf den kinetisch gefangenen Zustand von 1-MeO-PBI, da die Copolymerisation dieser Perylenbisimide durch die Nichtübereinstimmung der Molekülgeometrie der Monomerbausteine verhindert wird. Abschließend lässt sich zusammenfassen, dass in dieser Arbeit die supramolekulare Polymerisation und Saat-induzierte Zweikomponenten-Copolymerisation einer Reihe von Perylenbisimidmonomeren untersucht worden ist. Die Studien haben demonstriert, dass die thermodynamisch und kinetisch kontrollierten Selbstassemblierungsprozesse durch subtile Änderungen der Monomerbausteine stark variiert werden können. Außerdem zeigen die Ergebnisse, dass die lebende supramolekulare Polymerisation eine sehr leistungsfähige Methode zur Erzeugung von neuartigen supramolekularen, polymeren Nanostrukturen mit kontrollierter Blockstruktur und Längenverteilung darstellt. Die Bildung dieser supramolekularen Blockcopolymere kann nur unter präziser kinetischer Kontrolle erreicht werden und ist durch die Komplementarität der einzelnen molekularen Komponenten stark beeinflusst. Diese aufschlussreichen Studien bilden möglicherweise die Grundlage für ein rationaleres Design neuer Monomerbausteine zur nicht-kovalenten Synthese von hochkomplexen, supramolekularen Strukturen mit potentiell einzigartigen Eigenschaften für mögliche Anwendungen, beispielsweise als neuartige Funktionsmaterialien. KW - Supramolekulare Chemie KW - Perylenbisdicarboximide KW - Lebende Polymerisation KW - Aggregation KW - Supramolecular Block Copolymers KW - Perylenbisimides KW - Kinetic Self-assembly KW - Living Polymerisation KW - Organische Chemie Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-193004 ER -