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Tagungsbericht: Hollitzer, Siegfried : internationaler Demokratie-Kolloquium „Wieviel Wahrheit verträgt der Mensch? Aktenumgang und Elitenwechsel im internationalen Vergleich" <2000, Leipzig> / Tagungsbericht zum Kolloquium „Wieviel Wahrheit verträgt der Mensch? Aktenumgang und Elitenwechsel im internationalen Vergleich" vom 8. - 10. September 2000
Bacteriophages use specific tail proteins to recognize host cells. It is still not understood to molecular detail how the signal is transmitted over the tail to initiate infection. We have analysed in vitro DNA ejection in long-tailed siphovirus 9NA and short-tailed podovirus P22 upon incubation with Salmonella typhimurium lipopolysaccharide (LPS). We showed for the first time that LPS alone was sufficient to elicit DNA release from a siphovirus in vitro. Crystal structure analysis revealed that both phages use similar tailspike proteins for LPS recognition. Tailspike proteins hydrolyse LPS O antigen to position the phage on the cell surface. Thus we were able to compare in vitro DNA ejection processes from two phages with different morphologies with the same receptor under identical experimental conditions. Siphovirus 9NA ejected its DNA about 30 times faster than podovirus P22. DNA ejection is under control of the conformational opening of the particle and has a similar activation barrier in 9NA and P22. Our data suggest that tail morphology influences the efficiencies of particle opening given an identical initial receptor interaction event.
Drug loaded dendritic core-multishell (CMS) nanocarriers are of especial interest for the treatment of skin diseases, owing to their striking dermal delivery efficiencies following topical applications. CMS nanocarriers are composed of a polyglycerol core, connected by amide-bonds to an inner alkyl shell and an outer methoxy poly(ethylene glycol) shell. Since topically applied nanocarriers are subjected to biodegradation, the application of conventional amide-based CMS nanocarriers (10-A-18-350) has been limited by the potential production of toxic polyglycerol amines. To circumvent this issue, three tailored ester-based CMS nanocarriers (10-E-12-350, 10-E-15-350, 10-E-18-350) of varying inner alkyl chain length were synthesized and comprehensively characterized in terms of particle size, drug loading, biodegradation and dermal drug delivery efficiency. Dexamethasone (DXM), a potent drug widely used for the treatment of inflammatory skin diseases, was chosen as a therapeutically relevant test compound for the present study. Ester-and amide-based CMS nanocarriers delivered DXM more efficiently into human skin than a commercially available DXM cream. Subsequent in vitro and in vivo toxicity studies identified CMS (10-E-15-350) as the most biocompatible carrier system. The anti-inflammatory potency of DXM-loaded CMS (10-E-15-350) nanocarriers was assessed in TNF alpha supplemented skin models, where a significant reduction of the pro-inflammatory cytokine IL-8 was seen, with markedly greater efficacy than commercial DXM cream. In summary, we report the rational design and characterization of tailored, biodegradable, ester-based CMS nanocarriers, and their subsequent stepwise screening for biocompatibility, dermal delivery efficiency and therapeutic efficacy in a top-down approach yielding the best carrier system for topical applications. (C) 2016 Elsevier B.V. All rights reserved.
Poly(vinylidene fluoride) (PVDF)-based homo-, co- and ter-polymers are well-known for their ferroelectric and relaxor-ferroelectric properties. Their semi-crystalline morphology consists of crystalline and amorphous phases, plus interface regions in between, and governs the relevant electro-active properties. In this work, the influence of chemical, thermal and mechanical treatments on the structure and morphology of PVDF-based polymers and on the related ferroelectric/relaxor-ferroelectric properties is investigated. Polymer films were prepared in different ways and subjected to various treatments such as annealing, quenching and stretching. The resulting changes in the transitions and relaxations of the polymer samples were studied by means of dielectric, thermal, mechanical and optical techniques. In particular, the origin(s) behind the mysterious mid-temperature transition (T_{mid}) that is observed in all PVDF-based polymers was assessed. A new hypothesis is proposed to describe the T_{mid} transition as a result of multiple processes taking place within the temperature range of the transition. The contribution of the individual processes to the observed overall transition depends on both the chemical structure of the monomer units and the processing conditions which also affect the melting transition. Quenching results in a decrease of the overall crystallinity and in smaller crystallites. On samples quenched after annealing, notable differences in the fractions of different crystalline phases have been observed when compared to samples that had been slowly cooled. Stretching of poly(vinylidene fluoride-tetrafluoroethylene) (P(VDF-TFE)) films causes an increase in the fraction of the ferroelectric β-phase with simultaneous increments in the melting point (T_m) and the crystallinity (\chi_c) of the copolymer. While an increase in the stretching temperature does not have a profound effect on the amount of the ferroelectric phase, its stability appears to improve.
Measurements of the non-linear dielectric permittivity \varepsilon_2^\prime in a poly(vinylidenefluoride-trifluoroethylene-chlorofluoroethylene) (P(VDF-TrFE- CFE)) relaxor-ferroelectric (R-F) terpolymer reveal peaks at 30 and 80 °C that cannot be identified in conventional dielectric spectroscopy. The former peak is associated with T_{mid}\ and may help to understand the non-zero \varepsilon_2^\prime values that are found for the paraelectric terpolymer phase. The latter peak can also be observed during cooling of P(VDF-TrFE) copolymer samples at 100 °C and is due to conduction processes and space-charge polarization as a result of the accumulation of real charges at the electrode-sample interface. Annealing lowers the Curie-transition temperature of the terpolymer as a consequence of its smaller ferroelectric-phase fraction, which by default exists even in terpolymers with relatively high CFE content. Changes in the transition temperatures are in turn related to the behavior of the hysteresis curves observed on differently heat-treated samples. Upon heating, the hysteresis curves evolve from those known for a ferroelectric to those of a typical relaxor-ferroelectric material. Comparing dielectric-hysteresis loops obtained at various temperatures, we find that annealed terpolymer films show higher electric-displacement values and lower coercive fields than the non-annealed samples − irrespective of the measurement temperature − and also exhibit ideal relaxor-ferroelectric behavior at ambient temperatures, which makes them excellent candidates for related applications at or near room temperature. However, non-annealed films − by virtue of their higher ferroelectric activity − show a larger and more stable remanent polarization at room temperature, while annealed samples need to be poled below 0 °C to induce a well-defined polarization. Overall, by modifying the three phases in PVDF-based polymers, it has been demonstrated how the preparation steps and processing conditions can be tailored to achieve the desired properties that are optimal for specific applications.
Indolactam alkaloids are activators of protein kinase C (PKC) and are of pharmacological interest for the treatment of pathologies involving PKC dysregulation. The marine cyanobacterial nonribosomal peptide synthetase (NRPS) pathway for lyngbyatoxin biosynthesis, which we previously expressed in E. coli, was studied for its amenability towards the biosynthesis of indolactam variants. Modification of culture conditions for our E. coli heterologous expression host and analysis of pathway products suggested the native lyngbyatoxin pathway NRPS does possess a degree of relaxed specificity. Site-directed mutagenesis of two positions within the adenylation domain (A-domain) substrate-binding pocket was performed, resulting in an alteration of substrate preference between valine, isoleucine, and leucine. We observed relative congruence of in vitro substrate activation by the LtxA NRPS to in vivo product formation. While there was a preference for isoleucine over leucine, the substitution of alternative tailoring domains may unveil the true in vivo effects of the mutations introduced herein.
We present ultrafast x-ray diffraction (UXRD) experiments on different photoexcited oxide superlattices. All data are successfully simulated by dynamical x-ray diffraction calculations based on a microscopic model, that accounts for the linear response of phonons to the excitation laser pulse. Some Bragg reflections display a highly nonlinear strain dependence. The origin of linear and two distinct nonlinear response phenomena is discussed in a conceptually simpler model using the interference of envelope functions that describe the diffraction efficiency of the average constituent nanolayers. The combination of both models facilitates rapid and accurate simulations of UXRD experiments.
Herein, we report a modified microcontact printing (mu CP) routine suitable to introduce particle patches of a low molecular weight ink (LMWI) on porous SiO2 microparticles. Thereby, patch precision could be significantly improved by utilising stamps which have been surface-functionalised with grafted polymers. This improvement was evaluated by a profound software-assisted statistical analysis.
A huge number of applications require coherent radiation in the visible spectral range. Since diode lasers are very compact and efficient light sources, there exists a great interest to cover these applications with diode laser emission. Despite modern band gap engineering not all wavelengths can be accessed with diode laser radiation. Especially in the visible spectral range between 480 nm and 630 nm no emission from diode lasers is available, yet. Nonlinear frequency conversion of near-infrared radiation is a common way to generate coherent emission in the visible spectral range. However, radiation with extraordinary spatial temporal and spectral quality is required to pump frequency conversion. Broad area (BA) diode lasers are reliable high power light sources in the near-infrared spectral range. They belong to the most efficient coherent light sources with electro-optical efficiencies of more than 70%. Standard BA lasers are not suitable as pump lasers for frequency conversion because of their poor beam quality and spectral properties. For this purpose, tapered lasers and diode lasers with Bragg gratings are utilized. However, these new diode laser structures demand for additional manufacturing and assembling steps that makes their processing challenging and expensive. An alternative to BA diode lasers is the stripe-array architecture. The emitting area of a stripe-array diode laser is comparable to a BA device and the manufacturing of these arrays requires only one additional process step. Such a stripe-array consists of several narrow striped emitters realized with close proximity. Due to the overlap of the fields of neighboring emitters or the presence of leaky waves, a strong coupling between the emitters exists. As a consequence, the emission of such an array is characterized by a so called supermode. However, for the free running stripe-array mode competition between several supermodes occurs because of the lack of wavelength stabilization. This leads to power fluctuations, spectral instabilities and poor beam quality. Thus, it was necessary to study the emission properties of those stripe-arrays to find new concepts to realize an external synchronization of the emitters. The aim was to achieve stable longitudinal and transversal single mode operation with high output powers giving a brightness sufficient for efficient nonlinear frequency conversion. For this purpose a comprehensive analysis of the stripe-array devices was done here. The physical effects that are the origin of the emission characteristics were investigated theoretically and experimentally. In this context numerical models could be verified and extended. A good agreement between simulation and experiment was observed. One way to stabilize a specific supermode of an array is to operate it in an external cavity. Based on mathematical simulations and experimental work, it was possible to design novel external cavities to select a specific supermode and stabilize all emitters of the array at the same wavelength. This resulted in stable emission with 1 W output power, a narrow bandwidth in the range of 2 MHz and a very good beam quality with M²<1.5. This is a new level of brightness and brilliance compared to other BA and stripe-array diode laser systems. The emission from this external cavity diode laser (ECDL) satisfied the requirements for nonlinear frequency conversion. Furthermore, a huge improvement to existing concepts was made. In the next step newly available periodically poled crystals were used for second harmonic generation (SHG) in single pass setups. With the stripe-array ECDL as pump source, more than 140 mW of coherent radiation at 488 nm could be generated with a very high opto-optical conversion efficiency. The generated blue light had very good transversal and longitudinal properties and could be used to generate biphotons by parametric down-conversion. This was feasible because of the improvement made with the infrared stripe-array diode lasers due to the development of new physical concepts.
The heterogeneous nature of non-cellulosic polysaccharides, such as arabinoxylan, makes it difficult to correlate molecular structure with macroscopic properties. To study the impact of specific structural features of the polysaccharides on crystallinity or affinity to other cell wall components, collections of polysaccharides with defined repeating units are required. Herein, a chemoenzymatic approach to artificial arabinoxylan polysaccharides with systematically altered branching patterns is described. The polysaccharides were obtained by glycosynthase-catalyzed polymerization of glycosyl fluorides derived from arabinoxylan oligosaccharides. X-ray diffraction and adsorption experiments on cellulosic surfaces revealed that the physicochemical properties of the synthetic polysaccharides strongly depend on the specific nature of their substitution patterns. The artificial polysaccharides allow structure-property relationship studies that are not accessible by other means.
Tailspike interactions with lipopolysaccharide effect DNA ejection from phage P22 particles in vitro
(2010)
Initial attachment of bacteriophage P22 to the Salmonella host cell is known to be mediated by interactions between lipopolysaccharide (LPS) and the phage tailspike proteins (TSP), but the events that subsequently lead to DNA injection into the bacterium are unknown. We used the binding of a fluorescent dye and DNA accessibility to DNase and restriction enzymes to analyze DNA ejection from phage particles in vitro. Ejection was specifically triggered by aggregates of purified Salmonella LPS but not by LPS with different O-antigen structure, by lipid A, phospholipids, or soluble O-antigen polysaccharide. This suggests that P22 does not use a secondary receptor at the bacterial outer membrane surface. Using phage particles reconstituted with purified mutant TSP in vitro, we found that the endorhamnosidase activity of TSP degrading the O-antigen polysaccharide was required prior to DNA ejection in vitro and DNA replication in vivo. If, however, LPS was pre-digested with soluble TSP, it was no longer able to trigger DNA ejection, even though it still contained five O-antigen oligosaccharide repeats. Together with known data on the structure of LPS and phage P22, our results suggest a molecular model. In this model, tail-spikes position the phage particles on the outer membrane surface for DNA ejection. They force gp26, the central needle and plug protein of the phage tail machine, through the core oligosaccharide layer and into the hydrophobic portion of the outer membrane, leading to refolding of the gp26 lazo-domain, release of the plug, and ejection of DNA and pilot proteins.
Intelligence, as well as working memory and attention, affect the acquisition of mathematical competencies. This paper aimed to examine the influence of working memory and attention when taking different mathematical skills into account as a function of children’s intellectual ability. Overall, intelligence, working memory, attention and numerical skills were assessed twice in 1868 German pre-school children (t1, t2) and again at 2nd grade (t3). We defined three intellectual ability groups based on the results of intellectual assessment at t1 and t2. Group comparisons revealed significant differences between the three intellectual ability groups. Over time, children with low intellectual ability showed the lowest achievement in domain-general and numerical and mathematical skills compared to children of average intellectual ability. The highest achievement on the aforementioned variables was found for children of high intellectual ability. Additionally, path modelling revealed that, depending on the intellectual ability, different models of varying complexity could be generated. These models differed with regard to the relevance of the predictors (t2) and the future mathematical skills (t3). Causes and conclusions of these findings are discussed.
Intelligence, as well as working memory and attention, affect the acquisition of mathematical competencies. This paper aimed to examine the influence of working memory and attention when taking different mathematical skills into account as a function of children’s intellectual ability. Overall, intelligence, working memory, attention and numerical skills were assessed twice in 1868 German pre-school children (t1, t2) and again at 2nd grade (t3). We defined three intellectual ability groups based on the results of intellectual assessment at t1 and t2. Group comparisons revealed significant differences between the three intellectual ability groups. Over time, children with low intellectual ability showed the lowest achievement in domain-general and numerical and mathematical skills compared to children of average intellectual ability. The highest achievement on the aforementioned variables was found for children of high intellectual ability. Additionally, path modelling revealed that, depending on the intellectual ability, different models of varying complexity could be generated. These models differed with regard to the relevance of the predictors (t2) and the future mathematical skills (t3). Causes and conclusions of these findings are discussed.
Taking a new perspective
(2016)
Network analysis has attracted significant attention when researching the phenomenon of transnational terrorism, particularly Al Qaeda. While many scholars have made valuable contributions to mapping Al Qaeda, several problems remain due to a lack of data and the omission of data provided by international organizations such as the UN. Thus, this article applies a social network analysis and subsequent mappings of the data gleaned from the Security Council's consolidated sanctions list, and asks what they can demonstrate about the structure and organizational characteristics of Al Qaeda. The study maps the Al Qaeda network on a large scale using a newly compiled data set. The analysis reveals that the Al Qaeda network consists of several hundred individual and group nodes connecting almost all over the globe. Several major nodes are crucial for the network structure, while simultaneously many other nodes only weakly and foremost regionally connect to the network. The article concludes that the findings tie in well to the latest research pointing to local and simultaneously global elements of Al Qaeda, and that the new data is a valuable source for further analyses, potentially in combination with other data.
In this article, I give an overview on nativist street protests in Germany from the early nineteenth century to the present from an historical perspective. In a preliminary re-mark, I will reflect on some recent developments in Germany, where nativist protest campaigns against immigration took place in the streets when voters were turning towards the populist radical right party Alternative für Deutschland (AfD). In the first section, I will outline an older tradition of anti-immigration protest in nineteenth and early twentieth century Germany, which is closely connected to modern antisemitism. In sections two and three, I will retrace how, from the late 1960s onward, the far right in the Federal Republic of Germany (FRG) discovered concerns about immigra-tion in the German population, addressed them in protest campaigns and developed narratives to integrate such sentiments into a broader right-wing extremist ideology, itself deeply rooted in antisemitism. Studying nativism and the radical right from an actor-oriented perspective, I will focus on traditionalist movements, including the Nationaldemokratische Partei Deutschlands (NPD) and neo-Nazi groups.
The current study tests the hypothesis that shy children’s reduced word learning is partly due to an effect of shyness on attention during object labeling. A sample of 20- and 26-month-old children (N = 32) took part in a looking-while-listening task in which they saw sets of familiar and novel objects while hearing familiar or novel labels. Overall, children increased attention to familiar objects when hearing their labels, and they divided their attention equally between the target and competitors when hearing novel labels. Critically, shyness reduced attention to the target object regardless of whether the heard label was novel or familiar. When children’s retention of the novel word–object mappings was tested after a delay, it was found that children who showed increased attention to novel objects during labeling showed better retention. Taken together, these findings suggest that shyer children perform less well than their less shy peers on measures of word learning because their attention to the target object is dampened. Thus, this work presents evidence that shyness modulates the low-level processes of visual attention that unfold during word learning.
This paper is concerned with constructions that express probability and their interaction with the indicative and subjunctive mood, as well as with other contextual elements. In detail, the paper deals with the constructions [sin duda + indicative/subjunctive], [tal vez + indicative/subjunctive], [probablemente + indicative/subjunctive] and [posiblemente + indicative/subjunctive]. In their interaction with mood, the constructions are understood as different microconstructions. For example, [sin duda + indicative] and [sin duda + subjunctive] are seen as different microconstructions of the superordinate
mesoconstruction [modal construction (of probability) + verb]. In a qualitative analysis examples from the CREA, CORPES XXI, and CdE corpora are examined regarding the interaction of [expression of probability] + [mood]. Following the Principle of No Synonymy of Grammatical Forms, the analysis confirms that the use of mood additionally influences the expressed degree of probability of the constructions. For instance, while probablemente generally expresses a slightly higher probability than posiblemente, a fine-tuned analysis
shows that the expressed degrees of probability of [probablemente + subjunctive] and [posiblemente + indicative] are highly similar. This is also often confirmed by further contextual information. In summary, the paper shows that Cognitive Construction Grammar is
a very suitable background against which to investigate modal phenomena, as cognitive approaches generally deal with the ways in which language users conceptualize the world from their own point of view, and as expressions of modality, more precisely, probability,
are also closely related to speakers’ attitudes or perspectives.
Coastal regions of the North East Atlantic and Mediterranean Seas have four known species of driftwood talitrids. Records are extremely scanty, often limited to the type locality and dating to 1950. We were able to study three of them, all belonging to the genus Macarorchestia, using fresh and archived samples including type material. Allometric and molecular analyses support: (1) a close relationship among all the three classically defined Macarorchestia species, (2) Macarorchestia was well separated from non-driftwood taxa, and (3) a putative new driftwood talitrid discovered during this study was not closely related to Macarorchestia. Genetic divergence between the new species and Macarorchestia remyi is as high as the average distance among a number of talitrid species included in the study for comparison. A key is provided to identify all three of the presently known species of Macarorchestia, using morphological characters employed in the allometric study.
Two studies addressed effects of the labels 'victim', 'battered woman' and 'survivor' on the perception of women who have experienced intimate partner violence (IPV). Spanish undergraduates provided free associations (Study 1; N = 54) and completed semantic differentials (Study 2; N = 142) regarding the labels. Results showed that the term 'survivor' evoked more positive associations and ratings than both 'victim' and 'battered woman', which did not differ from each other. At the same time, however, when asked directly, participants rated 'survivor' as the least appropriate term. These seemingly opposing findings replicate research on the terms' use in sexual aggression. Results were independent of individuals' acceptance of myths about IPV or knowing a woman who has experienced IPV. Implications for the use of specific language when communicating about IPV are discussed.
This work journal recounts the experiences of a project undertaken with students of the University of Trier over the course of two semesters. The project attempted to design and produce an innovative audio guide pertaining to the cultural heritage of the Roman city, with students gauging market opportunities, writing a business plan, researching information and producing content for the audio guide. The work created, „Talking Stones“ (https://www.talking-stones.de/), takes the listener on a tour of Roman Trier embedded in a literary narrative and is available via download on Google Play and the Apple App Store.
Tame congruence theory
(1998)
Taming Nuclear Power
(2017)
In 2011 a broad majority in the German Federal Parliament voted to abandon nuclear energy. This article explores the origins of the change in attitude towards nuclear energy and argues that seven years before the Chernobyl disaster, the accident at the U.S. power plant Three Mile Island near Harrisburg, Pennsylvania, in 1979, had a profound impact which nowadays seems to be largely forgotten in Europe. The article identifies the structural causes underlying the transnational reception of the Three Mile Island accident and explores international reactions, particularly in the Federal Republic of Germany. The accident near Harrisburg led to a loss of public confidence and created unease about nuclear expansion in many industrialized nations. Reactions to the accident can be understood as an attempt to tame nuclear energy both technically, by increasing safety measures and abandoning plans for new nuclear power stations, and politically, with a more critical appraisal of nuclear energy and with semantics that encouraged a long-term withdrawal from nuclear power. Critics were now also accepted as experts. Nuclear policy in all countries became closely dependent on public opinion, indicating a high level of political responsiveness. Various factors, however, including the contemporaneous oil crisis put the brakes on this critical approach to nuclear power, while safety improvements and the limited expansion of nuclear power created new confidence in the early 1980s.
The Ram Bible (Tanakh Ram) is a recently-published Bible edition printed in two columns: the right-hand column features the original biblical Hebrew text and the lefthand column features the translation of the Bible into a high-register literary Israeli (Reclaimed Hebrew). The Ram Bible edition has gained impressive academic and popular attention. This paper looks at differences between academics, teachers, students, media personalities and senior officials in the education system, regarding their attitude to the Ram Bible. Our study reveals that Bible teachers and students who make frequent use of this edition understand its contribution to comprehending the biblical language, stories, and ideas. Opponents of Ram Bible are typically administrators and theoretician scholars who advocate the importance of teaching the Bible but do not actually teach it themselves. We argue that the fundamental difference between biblical Hebrew and Israeli makes the Hebrew Bible incomprehensible to native Israeli speakers. We explain the advantages of employing tools such as the Ram Bible.
Tanakh, Mishnah and Talmud
(2022)
Tandem Claisen Rearrangement/6-endo Cyclization Approach to Allylated and Prenylated Chromones
(2015)
Allyl, dimethylallyl and prenyl ethers derived from o-acyl-phenols reacted upon microwave irradiation to form C-allylated or -prenylated chromone derivatives, depending on the substitution pattern of the arene and the allyl substituent. The reaction proceeds through a tandem Claisen rearrangement and 6-endo-trig or 6-endo-dig cyclization sequence. For prenyl ethers, the tandem sequence can be extended by a Cope rearrangement to furnish 6-prenylchromones. The method is potentially useful for the synthesis of natural products and drugs.
Tangible business process modeling : design and evaluation of a process model elicitation Technique
(2011)
Rezensiertes Werk:
Tania Fabricius, Die Aufarbeitung von in Kolonialkriegen begangenem Unrecht: Anwendbarkeit
und Anwendung internationaler Regeln des bewaffneten Konflikts und nationalen
Militärrechts auf Geschehnisse in europäischen Kolonialgebieten in Afrika. Schriften zum
Völkerrecht 223, Berlin: Duncker & Humblot, 2017, 405 Seiten, ISBN 978-3-428-15011-3
In Zeiten eines sich schnell ändernden und vielseitigen Energiemarktes müssen Kohlenstoffmaterialien für verschiedene Anforderungen einsetzbar sein. Dies erfordert flexibel synthetisierbare Kohlenstoffmaterialien bevorzugt aus günstigen und nachhaltigen Kohlenstoffquellen. Es ist allerdings nicht leicht Vorläuferverbindungen auszumachen, welche sich einerseits für verschiedene Herstellungsverfahren eignen und deren Kohlenstoffprodukte andererseits in spezifischen Eigenschaften, wie der Struktur, des Stickstoffanteils, der Oberfläche und der Porengrößen, eingestellt werden können. In diesem Zusammenhang können natürliche Polyphenole, etwa überschüssige Tannine aus der Weinproduktion, eine neue Welt zu hoch funktionalen und vielseitig einstellbaren Kohlenstoffmaterialien mit hohen Ausbeuten öffnen.
Das Hauptziel dieser vorliegenden Thesis war es neue funktionale, einstellbare und skalierbare nanostrukturierte Kohlenstoffmaterialien aus Tanninen (insbesondere Tanninsäure) für unterschiedliche elektrochemische Zwecke zu synthetisieren und zu charakterisieren. Ermöglicht wurde dies durch unterschiedliche synthetische Herangehensweisen, wie etwa der polymeren Strukturdirektion, dem ionothermalen Templatieren und der weichen Templatierung. An Stelle des weitläufig gebräuchlichen, aber kanzerogenen Vernetzungsagens Formaldehyd wurden bei den vorgestellten Synthesen Harnstoff und Thioharnstoff gewählt, um zugleich die synthetisierten Kohlenmaterialien variabel dotieren zu können.
Daher wurden im ersten Teil der Arbeit die Wechselwirkungen, Reaktionen und thermischen Verhaltensweisen von Tanninsäure und Mixturen von Tanninsäure und Harnstoff bzw. Thioharnstoff untersucht, um daraus wichtige Erkenntnisse für die verschiedenen Kohlenstoffsynthesen zu gewinnen.
Durch die Verwendung eines polymeren Strukturierungsagenz Pluronic P123 konnten in einer ersten Kohlenstoffsynthese nachhaltige und dotierbare Kohlenstoffpartikel mit Durchmessern im Nanometerbereich aus Tanninsäure und Harnstoff hergestellt werden. Es konnte dabei gezeigt werden, dass durch die Modifikation der verschiedenen Syntheseparameter die Kohlenstoffnanopartikel gemäß ihres gemittelten Partikeldurchmessers, ihrer BET-Oberfläche, ihrer Komposition, ihrer Leitfähigkeit und ihrer chemischen Stabilität einstellbar sind. Dies eröffnete die Möglichkeit diese Kohlenstoffpartikel als alternatives und nachhaltiges Rußmaterial einzusetzen.
Weiterhin war es durch die ionothermale Templatierung möglich poröse, dotierte und kontrollierbare Kohlenstoffpartikel mit hohen spezifischen Oberflächen aus den gewählten Präkursorverbindungen zu synthetisieren, die sich für den Einsatz in Superkondensatoren eignen.
Auf diesen Erkenntnissen aufbauend konnten mittels der Rotationsbeschichtung poröse binderfreie und strukturierte Kohlenstofffilme synthetisiert werden, die eine spinodale Struktur aufwiesen. Anhand der Modifikation der Stammlösungskonzentration, der Rotationsgeschwindigkeit und der verwendeten Substrate konnten die Filmdicke (100-1000 nm), die Morphologie und Gesamtoberfläche gezielt beeinflusst werden. Die erweiterte elektrochemische Analyse zeigte außerdem ein sehr gut zugängliches Porensystem der porösen Kohlenstofffilme.
Allumfassend konnten demnach verschiedene Synthesewege für Kohlenstoffmaterialien aus Tanninen aufgezeigt werden, die verschiedenartig strukturiert und kontrolliert werden können und sich für diverse Anwendungsgebiete eignen.