@article{WenNowakKrolNagleretal.2019,
  author    = {Wen, Xinbo and Nowak-Kr{\´o}l, Agnieszka and Nagler, Oliver and Kraus, Felix and Zhu, Na and Zheng, Nan and M{\"u}ller, Matthias and Schmidt, David and Xie, Zengqi and W{\"u}rthner, Frank},
  title     = {Tetrahydroxy-perylene bisimide embedded in zinc oxide thin film as electron transporting layer for high performance non-fullerene organic solar cells},
  series = {Angewandte Chemie International Edition},
  volume    = {58},
  journal   = {Angewandte Chemie International Edition},
  number    = {37},
  doi       = {10.1002/anie.201907467},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-204723},
  pages     = {13051-13055},
  year      = {2019},
  abstract  = {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.},
  language  = {en}
}
@phdthesis{Shao2012,
  author    = {Shao, Changzhun},
  title     = {Programming Self-assembly: Formation of Discrete Perylene Bisimide Aggregates},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-69298},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2012},
  abstract  = {The objective of this thesis focuses on the development of strategies for precise control of perylene bisimide (PBI) self-assembly and the in-depth elucidation of structural and optical features of discrete PBI aggregates by means of NMR and UV/Vis spectroscopy. The strategy for discrete dimer formation of PBIs is based on delicate steric control that distinguishes the two facets of the central perylene surface. The strategy applied in this thesis for accessing discrete PBI quadruple and further oligomeric stacks relies on backbone-directed PBI self-assembly. For this purpose, two tweezer-like PBI dyads bearing the respective rigid backbones, diphenylacetylene (DPA) and diphenylbutydiyne (DPB), were synthesized. The distinct aggregation behavior of these structurally similar PBI dyads can be ascribed to the intramolecular distance between the two PBI chromophores imparted by the DPA and DPB spacers.},
  subject      = {Farbstoff},
  language  = {en}
}
@phdthesis{Schmidt2008,
  author    = {Schmidt, R{\"u}diger},
  title     = {Perylene Bisimide and Acene Derivatives as Organic Semiconductors in OTFTs},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-29314},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2008},
  abstract  = {This thesis deals with the synthesis of improved organic semiconductors, the detailed investigation of the molecular properties and the solid state arrangements revealed by single crystal X-ray diffraction and finally the development of structureperformance dependencies by measuring of the charge carrier mobilities of the derivatives in thin film transistors. The two main-goals of this thesis were achieved. Well soluble acene derivatives for spin-coated TFTs were obtained, showing charge carrier mobilities in the range of polymer p-type materials. Novel core-fluorinated perylene bisimide dyes were synthesized particularly and the use of electron deficient substituents lead to PBIs with outstanding air-stable mobilities in thin film transistors prepared by vacuum deposition techniques. The relationship between performance, air stability and solid state packing was elucidated in detail by single crystal X-ray diffraction analysis.},
  subject      = {D{\"u}nnschichttransistor},
  language  = {en}
}
@phdthesis{Rehm2015,
  author    = {Rehm, Stefanie},
  title     = {Spermine-functionalized Perylene Bisimide Dyes: Synthesis and Self-assembly in Water},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-123201},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2015},
  abstract  = {The main objective of this thesis was the design and synthesis of perylene bisimide dyes with sufficient water-solubility for the construction of self-assembled architectures in aqueous solutions. Beside these tasks another goal of this project was the control over the self-assembly process in terms of aggregate size and helicity, respectively. Within this thesis an appropriate synthesis for spermine-functionalized perylene bisimide dyes was developed and conducted successfully. The characterization of these building blocks and their course of self-assembly were investigated by NMR, UV/Vis and fluorescence spectroscopy as well as by atomic force and transmission electron microscopy. For the better understanding of the experimental results theoretical calculations were performed.},
  subject      = {Perylenderivate},
  language  = {en}
}
@article{OuyangRueheZhangetal.2022,
  author    = {Ouyang, Guanghui and R{\"u}he, Jessica and Zhang, Yang and Lin, Mei-Jin and Liu, Minghua and W{\"u}rthner, Frank},
  title     = {Intramolecular Energy and Solvent-Dependent Chirality Transfer within a BINOL-Perylene Hetero-Cyclophane},
  series = {Angewandte Chemie International Edition},
  volume    = {61},
  journal   = {Angewandte Chemie International Edition},
  number    = {31},
  doi       = {10.1002/anie.202206706},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-318818},
  year      = {2022},
  abstract  = {Multichromophoric macrocycles and cyclophanes are important supramolecular architectures for the elucidation of interchromophoric interactions originating from precise spatial organization. Herein, by combining an axially chiral binaphthol bisimide (BBI) and a bay-substituted conformationally labile twisted perylene bisimide (PBI) within a cyclophane of well-defined geometry, we report a chiral PBI hetero-cyclophane (BBI-PBI) that shows intramolecular energy and solvent-regulated chirality transfer from the BBI to the PBI subunit. Excellent spectral overlap and spatial arrangement of BBI and PBI lead to efficient excitation energy transfer and subsequent PBI emission with high quantum yield (80-98 \%) in various solvents. In contrast, chirality transfer is strongly dependent on the respective solvent as revealed by circular dichroism (CD) spectroscopy. The combination of energy and chirality transfer affords a bright red circularly polarized luminescence (CPL) from the PBI chromophore by excitation of BBI.},
  language  = {en}
}
@phdthesis{Osswald2007,
  author    = {Osswald, Peter Uwe},
  title     = {Perylene Bisimide Atropisomers : Synthesis and Optical and Chiroptical Properties},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-23248},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2007},
  abstract  = {Zur Herstellung von atropo-enantiomeren Perylenbisimiden wurde die kovalente Verkn{\"u}pfung von Aryloxysubstituenten durch Makrocyclisierung eingesetzt. Die Darstellung makrocyclischer Perylenbisimide erfolgte ausgehend von einem vierfach (3-Hydroxyphenoxy)-funktionalisierten Perylenbisimid mit achiralen 2,6-Diisopropylphenylsubstituenten an den Imidpositionen durch Williamsonsche Ethersynthese. Die Synthese konnte f{\"u}r vier unterschiedliche Oligoethylenglykol-Kettenl{\"a}ngen realisiert werden, wobei f{\"u}r jede Br{\"u}ckenl{\"a}nge jeweils zwei regioisomere Makrocyclen, n{\"a}mlich das diagonal verbr{\"u}ckte (1,7- und 6,12-Verk{\"u}pfung) und das seitlich verbr{\"u}ckte Isomer (1,12- und 6,7- Verkn{\"u}pfung), isoliert werden konnten. Die strukturelle Zuordnung der isolierten Makrocyclen zu einem der beiden Regioisomeren gelang zweifelsfrei anhand von R{\"o}ntgenstrukturanalysen f{\"u}r zwei Makrocyclen und 1H NMR-Spektroskopie f{\"u}r alle Isomere. Der konformative Einfluß der Aryloxy-Substituenten auf die funktionenellen Eigenschaften dieser Farbstoffklasse konnte durch Vergleich der optischen und elektrochemischen Eigenschaften aller isolierter Makrocyclen mit einer offenkettigen Referenzverbindung abgeleitet werden. Hierbei zeigte sich, dass die Aryloxy-Substituenten dieser Farbstoffe in L{\"o}sung bevorzugt in einer horizontalen Konformation vorliegen. Durch l{\"o}sungsmittelabh{\"a}ngige Fluoreszenzmessungen konnte gezeigt werden, dass ein photoinduzierter Elektronentransferprozess f{\"u}r die Fluoreszenzl{\"o}sung elektronenreicher Aryloxy-Substituenten von Bedeutung ist. Die Trennung der Atropo-Diastereomere konnte f{\"u}r eine diagonal {\"u}berbr{\"u}ckte makrocyclische Verbindung mit chiralen 2-(R)-Octylamin Imidsubstituenten und Diethyleneglykol als Br{\"u}ckenkette mittels semi-preparativer HPLC an einer chiralen station{\"a}ren Phase realisiert werden. Die chiroptischen Eigenschaften der isolierten epimerenreinen Makrocyclen wurden mittels CD-Spektroskopie untersucht. Die Zuordnung der absoluten Stereochemie konnte anhand der erhaltenen CD-Spektren durch Anwendung der „Theorie der excitonischen Kopplung" abgeleitet und durch quantenchemische Berechnung der CD-Spektren best{\"a}tigt werden. Dieses Synthesekonzept wurde auf 1,7-diaryloxy-substituierten Perylenbisimide erweitert. Die Struktur der erhaltenen diagonal verbr{\"u}ckten monocyclischen Verbindung konnte erneut durch NMR-Spektroskopie und R{\"o}ntgenstrukturanalyse eindeutig bestimmt werden. Die Trennung der Atropo-Enantiomere gelang mittels semi-preparativer HPLC an einer chiralen station{\"a}ren Phase. Die Zuordnung der Stereochemie konnte anhand des Vergleichs der CD-Spektren mit den zuvor f{\"u}r epimerenreine Bismakrocyclen erhaltenen CD-Spektren realisiert werden. Anhand der R{\"o}ntgenstrukturanalysen sowohl der racemischen Mischung als auch eines Atropo-Enantiomers ließen sich bedeutende Informationen {\"u}ber die p-Dimerisierung von Perylenbisimiden ableiten. Die Abh{\"a}ngigkeit der Razemisierungsbarriere von der Gr{\"o}ße der Bay-Substituenten wurde f{\"u}r vier halogensubstituierte Derivate untersucht. Die dynamischen Eigenschaften wurden mittels temperaturabh{\"a}ngiger NMR-Spektroskopie und kinetischer Messungen mittels CD-Spektroskopie bestimmt. Unter Anwendung des „Apparent Overlap"-Konzeptes konnte eine {\"u}berzeugende lineare Beziehung zwischen der Gr{\"o}ße der Substituenten und der Inversionsbarriere hergestellt werden. Dar{\"u}ber hinaus war es m{\"o}glich die Atropo-Diastereomere bzw. Enantiomere der tetrachlor- und tetrabrom-substituierten Derivate zu trennen, wobei vor allem das 1,6,7,12-tetrabrom-substituierte Perylenbisimid stabile Enantiomere bei Raumtemperatur lieferte. Die abgeleitete Struktur-Eigenschaftsbeziehung sollte zuk{\"u}nftig die Herstellung von stabilen Enantiomeren durch geeignete Wahl der Substituenten in den Bay-Positionen erm{\"o}glichen. Um die Reversibilit{\"a}t der Selbstorganisation zur quantitativen Synthese makrocyclischer Perylenbisimide ausn{\"u}tzen zu k{\"o}nnen, wurde ein tetra(zinkporphyrin)-funktionalisiertes Perylenbisimid synthetisiert. Die Ausbildung des angestrebten 1:2-Sandwichkomplexes aus Tetra-Zinkporphyrin-Perylenbisimid und Diazabicyclo-[2.2.2]-undecan wurde mittels UV/Vis und 1H NMR Spektroskopie untersucht und die makrocyclische Struktur des Komplexes konnte mittels diffusionsabh{\"a}ngiger NMR Spektroskopie (DOSY NMR) eindeutig bewiesen werden. Weiterhin konnte mittels rasterkraftmikroskopischer (AFM) Untersuchungen gezeigt werden, dass diese funktionellen makrocyclischen Verbindungen sehr geordnet auf einer Graphitoberfl{\"a}che (HOPG) abgeschieden werden k{\"o}nnen. Die Ausrichtung eines amino-funktionalsierten p-konjugierten Polymers durch Zugabe des bichromphoren Tetra-Zinkporphyrin-Perlyenbisimids wurde mittels UV/Vis-Spektroskopie und AFM-Messungen untersucht. Die Oberfl{\"a}chenanalyse mittels AFM zeigte, dass die bichromophore Verbindung die linearen p-konjugierten Polymere {\"u}ber weite Teile der Oberfl{\"a}che auszurichten vermag, so dass eine definierte Anordnung von drei p-Systemen auf der Graphitoberfl{\"a}che erm{\"o}glicht wurde.},
  language  = {en}
}
@phdthesis{Mahlmeister2023,
  author    = {Mahlmeister, Bernhard},
  title     = {Twisted Rylene Bisimides for Organic Solar Cells and Strong Chiroptical Response in the Near Infrared},
  doi       = {10.25972/OPUS-34610},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-346106},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {The chirality of the interlocked bay-arylated perylene motif is investigated upon its material prospect and the enhancement of its chiroptical response to the NIR spectral region. A considerable molecular library of inherently chiral perylene bisimides (PBIs) was utilized as acceptors in organic solar cells to provide decent device performances and insights into the structure-property relationship of PBI materials within a polymer blend. For the first time in the family of core-twisted PBIs, the effects of enantiopurity on the device performance was thoroughly investigated. The extraordinary structural sensitivity of CD spectroscopy served as crucial analytical tool to bridge the highly challenging gap between molecular properties and device analytics by proving the excitonic chirality of a helical PBI dimer. The chirality of this perylene motif could be further enhanced on a molecular level by both the expansion and the enhanced twisting of the π-scaffold to achieve a desirable strong chiroptical NIR response introducing a new family of twisted QBI-based nanoribbons. These achievements could be substantially further developed by expanding this molecular concept to a supramolecular level. The geometrically demanding supramolecular arrangement necessary for the efficient excitonic coupling was carefully encoded into the molecular design. Accordingly, the QBIs could form the first J-type aggregate constituting a fourfold-stranded superhelix of a rylene bisimide with strong excitonic chirality. Therefore, this thesis has highlighted the mutual corroboration of experimental and theoretical data from the molecular to the supramolecular level. It has demonstrated that for rylene bisimide dyes, the excitonic contribution to the overall chiroptical response can be designed and rationalized. This can help to pave the way for new organic functional materials to be used for chiral sensing or chiral organic light-emitting devices.},
  subject      = {Molek{\"u}l},
  language  = {en}
}
@phdthesis{Li2009,
  author    = {Li, Xueqing},
  title     = {Hydrogen Bond-directed Self-assembly of Perylene Bisimide Organogelators},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-43727},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2009},
  abstract  = {Perylene bisimide (PBI) dyes are a widely used class of industrial pigments, and currently have gained significant importance for organic-based electronic and optical devices. Structural modification at the PBI core results in changes of the optical and electronic properties, which enable tailored functions. Moreover, the aggregation behavior of PBIs is alterable and controllable to achieve new materials, among which organogels are of particular interest because of their potential for applications as supramolecular soft materials. In this work, new PBI-based organic gelators were designed, synthesized, and characterized, and the aggregation behaviors under different conditions were intensively studied by various spectroscopic and microscopic methods. In chapter 2, a brief overview is given on the structural and functional features of organogel systems. The definition, formation and reversibility of organogels are introduced. Some examples on dye based organogel are selected, among which PBI-based organogelators reported so far are especially emphasized. Some basic knowledges of supramolecular chirality are also overviewed such as characterization, amplification, and symmetry breaking of the chiral aggregates. According to our former experiences, PBIs tend to form aggregates because the planer aromatic cores interact with one another by pi-pi interaction. In chapter 3, a new PBI molecule is introduced which possesses amide groups between the conjugated core and periphery alkyl chains. It is found that well oriented aggregates are formed by hydrogen bonding and the pi-pi interaction of the cores. These interactions enable the aggregates to grow in one-dimension forming very long fibers, and these fibers further intercross to 3D network structures, e.g., organogels. In comparison to the very few PBI-based gelators reported before, one advantage of this gelator is that, it is more versatile and can gelate a wide range of organic solvents. Moreover, the well-organized fibers that are composed of extended \&\#960;-stacks provide efficient pathways for n-type charge carriers. Interestingly, AFM studies reveal that the PBI molecules form well-defined helical fibers in toluene. Both left-handed (M) and right-handed (P) helicities can be observed without any preference for one handedness because the building block is intrinsically achiral. In chapter 4, we tried to influence the M/P enantiomeric ratio by applying external forces. For example, we utilized chiral solvents to generate chiral aggregates with a preferential handedness. AFM analysis of the helices showed that a enantiomeric ratio of about 60: 40 can be achieved by aggregation in chiral solvents R- or S-limonene. Moreover, the long aggregated fibres can align at macroscopic level in vortex flows upon rotary stirring In chapter 5, bulky tetra-phenoxy groups are introduced in the bay area of the PBI gelator. The conjugated core of the new molecule is now distorted because of the steric hindrance. UV/Vis studies reveal a J-type aggregation in apolar solvents like MCH due to intermolecular pi-pi-stacking and hydrogen-bonding interactions. Microscopic studies reveal formation of columnar aggregates in apolar solvent MCH, thus this molecule lacks the ability to form gels in this solvent, but form highly fluorescent lyotropic mesophases at higher concentration. On the other hand, in polar solvents like acetone and dioxane, participation of the solvent molecules in hydrogen bonding significantly reduced the aggregation propensity but enforced the gel formation. The outstanding fluorescence properties of the dye in both J-aggregated viscous lyotropic mesophases and bulk gel phases suggest very promising applications in photonics, photovoltaics, security printing, or as fluorescent sensors. In chapter 6, we did some studies on combining PBI molecules with inorganic gold nanorods. Gold nanorods were synthesized photochemically. By virtue of the thioacetate functionalized PBIs, the rods were connected end to end to form gold nanochains, which were characterized by absorption spectra and TEM measurement. Such chromophore-nanorod hybrids might be applied to guide electromagnetic radiation based on optical antenna technology.},
  subject      = {Perylenderivate},
  language  = {en}
}
@phdthesis{Kaiser2009,
  author    = {Kaiser, Theo E.},
  title     = {J-Aggregates of Tetraphenoxy-Substituted Perylene Bisimide Dyes},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-43544},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2009},
  abstract  = {In dieser Doktorarbeit wurde gezeigt, dass die sehr begehrte J-Aggregation funktionaler Perylenbisimid-Chromophore durch geeignetes Design der monomeren Bausteine erreicht werden kann. Hierzu war einerseits die Selbstanordnung durch ein Zusammenwirken von Wasserstoffbr{\"u}cken und Pi-Pi-Wechselwirkungen zu beg{\"u}nstigen, und andererseits eine Anordnung in kolumnaren Stapeln zu verhindern, was durch Kern-Verdrillung mittels sterisch anspruchsvollen Substituenten gelang. Desweiteren gaben Selbstanordnungsstudien neue Einblicke in den dynamischen Aggregationsprozess niedrigdimensionaler langgestreckter Aggregate mit stark exzitonisch gekoppelten Chromophoren. Die Beziehung zwischen bekannten Cyaninfarbstoffen, wie der von THIATS mit dem vorliegenden PBI 1a wurde durch Absorptions- und Fluoreszenzspektroskopie bei Tieftemperaturen von 5 K bis Raumtemperatur untersucht. Die vormals beispiellosen funktionalen Eigenschaften der PBI-Aggregate, welche aus der J-artigen exzitonischen Kopplung herr{\"u}hren, sind vielversprechend f{\"u}r die Anwendung in optoelektronischen Bauteilen und f{\"u}r die Photovoltaik.},
  subject      = {Perylenbisdicarboximide <Perylen-3},
  language  = {en}
}
@article{HongKimKimetal.2022,
  author    = {Hong, Yongseok and Kim, Woojae and Kim, Taeyeon and Kaufmann, Christina and Kim, Hyungjun and W{\"u}rthner, Frank and Kim, Dongho},
  title     = {Real-time Observation of Structural Dynamics Triggering Excimer Formation in a Perylene Bisimide Folda-dimer by Ultrafast Time-Domain Raman Spectroscopy},
  series = {Angewandte Chemie International Edition},
  volume    = {61},
  journal   = {Angewandte Chemie International Edition},
  number    = {13},
  doi       = {10.1002/anie.202114474},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-318788},
  year      = {2022},
  abstract  = {In π-conjugated organic photovoltaic materials, an excimer state has been generally regarded as a trap state which hinders efficient excitation energy transport. But despite wide investigations of the excimer for overcoming the undesirable energy loss, the understanding of the relationship between the structure of the excimer in stacked organic compounds and its properties remains elusive. Here, we present the landscape of structural dynamics from the excimer formation to its relaxation in a co-facially stacked archetypical perylene bisimide folda-dimer using ultrafast time-domain Raman spectroscopy. We directly captured vibrational snapshots illustrating the ultrafast structural evolution triggering the excimer formation along the interchromophore coordinate on the complex excited-state potential surfaces and following evolution into a relaxed excimer state. Not only does this work showcase the ultrafast structural dynamics necessary for the excimer formation and control of excimer characteristics but also provides important criteria for designing the π-conjugated organic molecules.},
  language  = {en}
}
@phdthesis{Chen2006,
  author    = {Chen, Zhijian},
  title     = {pi-Stacks Based on Self-Assembled Perylene Bisimides : Structural, Optical, and Electronic Properties},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-19940},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2006},
  abstract  = {As a traditional industrial pigment, perylene bisimide (PBI) dyes have found wide-spread applications. In addition, PBI dyes have been considered as versatile and promising functional materials for organic-based electronic and optic devices, such as transistors and solar cells. For these novel demands, the control of self-organization of this type of dye and the investigation of the relationship between the supramolecular structure and the relevant optical and electronic properties is of great importance. The objective of this thesis focuses on gaining a better understanding of structural and functional properties of pi-stacks based on self-assembling PBIs. Studies include the synthesis and characterization of new functional PBI dyes, their aggregation in solution, in liquid crystalline state and on surfaces, and their fluorescence and charge transport properties. An overview of the formation, thermodynamics and structures of pi-stacks of functional pi- conjugated molecules in solution and in liquid crystalline phases is given in Chapter 2. Chapters 3 and 4 deal with the pi-pi aggregates of new, highly fluorescent PBIs without core-substituents. In Chapter 3, the self-assembly of a PBI with tridodecylphenyl substituents at imide N atoms both in solution and condensed phase has been studied in great detail. In condensed state, the dye exhibits a hexagonal columnar liquid crystalline (LC) phase as confirmed by DSC, OPM and X-ray diffraction analysis. The columnar stacking of this dye has been further confirmed by atomic force microscopy (AFM) where single columns could be well resolved The charge transport properties this dye have been investigated by pulse radiolysis-time resolved microwave conductivity (PR-TRMC) measurements. To shed more light on the nature of the pi-pi interaction of the unsubstituted PBIs, solvent depend aggregation properties have been investigated in Chapter 4. The studies are further extended from core-unsubstituted PBIs to core-substituted ones (Chapter 5 and 6). In Chapter 5, a series of highly soluble and fluorescent core-twisted PBIs that bear the same trialkylphenyl groups at the imide positions but different bay-substituents and were synthesized. These compounds are characterized by distortions of the perylene planes with dihedral angles in the range of 15-37° according to crystallographic data and molecular modeling studies. In contrast to the extended oligomeric aggregates formed for planar unsubstituted PBIs, this family of dyes formed discrete pi-pi-stacked dimers in apolar methylcyclohexane as concentration-dependent UV/Vis measurements and VPO analysis revealed. The Gibbs free energy of dimerization can be correlated with the twist angles of the dyes linearly. In condensed state, several of these PBIs form luminescent rectangular or hexagonal columnar liquid crystalline phases with low isotropization temperatures. The core-twisting effect on semiconducting properties has been examined in Chapter 6. In this chapter, a comparative study of the electrochemical and the charge transport properties of a series of non-substituted and chlorine-functionalized PBIs was performed. While Chapters 3-6 focus on one-component dye systems, Chapter 7 explored the possibility of a supramolecular engineering of co-aggregates formed by hydrogen-bonded 2:1 and 1:1 complex of oligo(p-phenylene vinylene)s (OPVs) and PBIs. Covalently linked donor-acceptor dye arrays have been prepared for comparison. Concentration and temperature-dependent UV/Vis spectroscopy revealed all hydrogen-bonded and covalent systems form well-ordered J-type aggregates in methylcyclohexane. With these hydrogen-bonded OPV-PBI complexes, fibers containing p-type and n-type molecules can be prepared on the nano-scale (1-20 nm). For the 2:1 OPV-PBI hydrogenbonded arrays hierarchically assembled chiral superstructures consisting of left-handed helical pi-pi co-aggregates (CD spectroscopy) of the two dyes that further assemble into right-handed nanometer-scale supercoils in the solid state (AFM study) have been observed. All of these well-defined OPV-PBI assemblies presented here exhibit photoinduced electron transfer on sub-ps timescale, while the electron recombination differs for different systems.Thus, it was suggested that such assemblies of p- and n-type semiconductors might serve as valuable nanoscopic functional units for organic electronics.},
  subject      = {Perylenderivate},
  language  = {en}
}
@article{BoldStolteShoyamaetal.2022,
  author    = {Bold, Kevin and Stolte, Matthias and Shoyama, Kazutaka and Krause, Ana-Maria and Schmiedel, Alexander and Holzapfel, Marco and Lambert, Christoph and W{\"u}rthner, Frank},
  title     = {Macrocyclic Donor-Acceptor Dyads Composed of Oligothiophene Half-Cycles and Perylene Bisimides},
  series = {Chemistry - A European Journal},
  volume    = {28},
  journal   = {Chemistry - A European Journal},
  number    = {30},
  doi       = {10.1002/chem.202200355},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-276435},
  year      = {2022},
  abstract  = {A series of donor-acceptor (D-A) macrocyclic dyads consisting of an electron-poor perylene bisimide (PBI) π-scaffold bridged with electron-rich α-oligothiophenes bearing four, five, six and seven thiophene units between the two phenyl-imide substituents has been synthesized and characterized by steady-state UV/Vis absorption and fluorescence spectroscopy, cyclic and differential pulse voltammetry as well as transient absorption spectroscopy. Tying the oligothiophene strands in a conformationally fixed macrocyclic arrangement leads to a more rigid π-scaffold with vibronic fine structure in the respective absorption spectra. Electrochemical analysis disclosed charged state properties in solution which are strongly dependent on the degree of rigidification within the individual macrocycle. Investigation of the excited state dynamics revealed an oligothiophene bridge size-dependent fast charge transfer process for the macrocyclic dyads upon PBI subunit excitation.},
  language  = {en}
}
@phdthesis{Bold2022,
  author    = {Bold, Kevin},
  title     = {Macrocyclic Oligothiophene Bridged Perylene Bisimide Donor-Acceptor Dyads},
  doi       = {10.25972/OPUS-27192},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-271926},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {A series of donor-acceptor macrocyclic architectures comprising oligothiophene strands that connect the imide positions of a perylene bisimide have been synthesized via a platinum-mediated cross-coupling strategy. The target structures were characterized by steady-state UV/Vis absorption, fluorescence and transient absorption spectroscopy, as well as cyclic and differential pulse voltammetry. Crystal structure analysis of the macrocycles revealed insights into the bridge arrangements. The properties of the macrocyclic bridges were compared to linear oligothiophene reference compounds which itself exhibited an unusual electrochemical effect.},
  subject      = {Perylenbisdicarboximide},
  language  = {en}
}