@phdthesis{Maier2019,
  author    = {Maier, Jonathan},
  title     = {Biotinylierung und Drug-Target-Untersuchungen von Dioncochinon B sowie Entwicklung einer Syntheseroute zu 7,8'-gekuppelten Naphthylisochinolin-Alkaloiden},
  doi       = {10.25972/OPUS-18779},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-187792},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {In Deutschland starben im Jahr 2016 knapp 6 000 Menschen an den Folgen des Multiplen Myeloms. Die Zahl der Todesopfer dieser Krebsart ist in den letzten 16 Jahren um ca. 20\% gestiegen. Da das Multiple Myelom mit einem Durchschnittsalter von 73 Jahren bei Erstdiagnose zu den Erkrankungen des h{\"o}heren Lebensalters z{\"a}hlt, ist der Anstieg der Inzidenz und Todesf{\"a}lle am ehesten auf eine h{\"o}here Lebenserwartung der Menschen durch umfassende medizinische Versorgung zur{\"u}ckzuf{\"u}hren. Auch die Behandlungsm{\"o}glichkeiten des Multiplen Myeloms wurden in den letzten zwei Jahrzehnten kontinuierlich verbessert und bieten in Form von medikament{\"o}sen Therapien f{\"u}r alle Erkrankten und Knochenmarktransplantationen speziell f{\"u}r Patienten unter 70 Jahren die Chance auf eine Verl{\"a}ngerung der beschwerdefreien Krankheitsphase. Nach wie vor verl{\"a}uft das Multiple Myelom jedoch t{\"o}dlich, sodass die Erforschung und Entwicklung neuer potenter Wirkstoffe zur Verbesserung der Prognose oder zur vollst{\"a}ndigen Heilung essentiell ist. Ziel der vorliegenden Arbeit war daher die Biotinylierung von Dioncochinon B, einem nat{\"u}rlich vorkommenden Naphthochinon, erstmals isoliert aus Kallus-Kulturen von T. peltatum, das eine gute Aktivit{\"a}t (IC50 = 11 µM) gegen Zellen des Multiplen Myeloms aufweist. Der Affinit{\"a}tsmarker Biotin sollte dabei {\"u}ber einen kurzen Linker an die 7- oder 8-Position des Naturstoffs angebracht werden. Nach der Etablierung einer geeigneten Syntheseroute sollten nanoLC-MS/MS-Analysen Aufschluss {\"u}ber m{\"o}gliche Wirkstoff-Target-Interaktionen liefern. Des Weiteren wurde in dieser Arbeit die Synthese von 7,8'-gekuppelten Naphthylisochinolin-Alkaloiden im Allgemeinen und von Yaoundamin A und dessen M-Atropisomer im Speziellen untersucht. Die Naturstoffklasse der Naphthylisochinolin-Alkaloide ist neben ihrer strukturellen Vielfalt vor allem wegen ihrer Aktivit{\"a}ten gegen eine Vielzahl an Erregern von Infektionskrankheiten, wie z. B. der Malaria, der Afrikanischen Schlafkrankheit oder der Leishmaniose interessant. Strukturell sind Naphthylisochinolin-Alkaloide unter anderem durch eine meist rotationsgehinderte Biaryl-Achse gekennzeichnet. Der synthetische Aufbau dieser Verbindungsachse zwischen Naphthalin- und Isochinolin-Baustein war in der Literatur bereits ausf{\"u}hrlich behandelt worden. Da die Darstellung eines 7,8'-verkn{\"u}pften Naphthyldihydroisochinolin-Alkaloids allerdings noch nie beschrieben worden war, war das Ziel dieser Arbeit die erste Totalsynthese eines Naturstoffs dieses Typs.},
  subject      = {Naphthochinone},
  language  = {de}
}
@phdthesis{KimbadiLombe2021,
  author    = {Kimbadi Lombe, Blaise},
  title     = {Novel-Type Dimeric Naphthylisoquinoline Alkaloids from Congolese Ancistrocladus Lianas: Isolation, Structural Elucidation, and Antiprotozoal and Anti-Tumoral Activities},
  doi       = {10.25972/OPUS-19178},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-191789},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Herein described is the discovery of three novel types of dimeric naphthylisoquinoline alkaloids, named mbandakamines, cyclombandakamines, and spirombandakamines. They were found in the leaves of a botanically as yet unidentified, potentially new Ancistrocladus species, collected in the rainforest of the Democratic Republic of the Congo (DRC). Mbandakamines showed an exceptional 6′,1′′-coupling, in the peri-position neighboring one of the outer axes, leading to an extremely high steric hindrance at the central axis, and to U-turn-like molecular shape, which - different from all other dimeric NIQs, whose basic structures are all quite linear - brings three of the four bicyclic ring systems in close proximity to each other. This created an unprecedented follow-up chemistry, involving ring closure reactions, leading to two further, structurally even more intriguing subclasses, the cyclo- and the spirombandakamines, displaying eight stereogenic elements (the highest total number ever found in naphthylisoquinoline alkaloids). The metabolites exhibited pronounced antiplasmodial and antitrypanosomal activities. Likewise reported in this doctoral thesis are the isolation and structural elucidation of naphthylisoquinoline alkaloids from two further potentially new Ancistrocladus species from DRC. Some of these metabolites have shown pronounced antiausterity activities against human pancreatic cancer PANC-1 cells.},
  subject      = {Naphthylisochinolinalkaloide},
  language  = {en}
}
@phdthesis{Liu2020,
  author    = {Liu, Siyuan},
  title     = {New Avenues in the Reactivity of Borylene Complexes},
  doi       = {10.25972/OPUS-18430},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-184302},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {The thesis is mainly about the reactivities of borylene complexes. Including the investigation of the reaction of base stabilized terminal borylene with elemental chalcogens. On the other hand the are also the reactivity of borylene with bipyridine species is also studies. A C-H activation of the Cp2WH2 using borylene is also discovered. Finally the reaction of a borylene with Lewis acids such as GaCl3 and InBr3 is also studied.},
  subject      = {Borylene},
  language  = {en}
}
@phdthesis{Hecht2021,
  author    = {Hecht, Markus},
  title     = {Liquid-Crystalline Perylene Bisimide and Diketopyrrolopyrrole Assemblies},
  doi       = {10.25972/OPUS-21698},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216987},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {The research presented in this thesis illustrates that self-assembly of organic molecules guided by intermolecular forces is a versatile bottom-up approach towards functional materials. Through the specific design of the monomers, supramolecular architectures with distinct spatial arrangement of the individual building blocks can be realized. Particularly intriguing materials can be achieved when applying the supramolecular approach to molecules forming liquid-crystalline phases as these arrange in ordered, yet mobile structures. Therefore, they exhibit anisotropic properties on a macroscopic level. It is pivotal to precisely control the interchromophoric arrangement as functions originate in the complex structures that are formed upon self-assembly. Consequently, the aim of this thesis was the synthesis and characterization of liquid-crystalline phases with defined supramolecular arrangements as well as the investigation of the structure-property relationship. For this purpose, perylene bisimide and diketopyrrolopyrrole chromophores were used as they constitute ideal building blocks towards functional supramolecular materials due to their thermal stability, lightfastness, as well as excellent optical and electronic features desirable for the application in, e.g., organic electronics.},
  subject      = {Selbstorganisation},
  language  = {en}
}
@phdthesis{Urlaub2021,
  author    = {Urlaub, Jonas},
  title     = {Development of analytical methods for the quality assessment of mineral oil based excipients and mechanochemically stressed active pharmaceutical ingredients},
  doi       = {10.25972/OPUS-24346},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-243465},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {For the quality assurance of substances for pharmaceutical use, a variety of analytical techniques are available to address specific analytical problems. In this field of application, liquid chromatography (LC) stands out as the gold standard in the pharmaceutical industry. Various detectors can be employed, which are e.g. based on UV/Vis spectroscopy for the examination of molecules with a chromophore, or mass spectrometry (MS) for structural elucidation of analytes. For the separation of enantiomers, the use of capillary electrophoresis (CE) may be more favorable due to the high separation efficiency and easy-to-use and comparatively inexpensive chiral selectors, in contrast to chiral columns for LC, which are usually very expensive and limited to a restricted number of analytes. For structure elucidation in impurity profiling, one- and multidimensional 1H NMR spectroscopy is a valuable tool as long as the analyte molecule has got nuclei that can be detected, which applies for the magnitude of organic pharmaceutical substances. For the evaluation of the amount of mineral oil aromatic hydrocarbons (MOAH) in various paraffin samples from different suppliers, a straightforward method based on 1H NMR spectroscopy was elaborated. The MOAH/MOSH ratio was used to indicate the amount of MOAH of paraffins and to evaluate the extent of refining. In addition, a representative paraffin sample was measured without sample solvent at high temperatures (about 340 K) to avoid the interfering residual solvent signals in the spectral regions of interest. The results of both methods were in good accordance. Moreover, the 1H NMR results were complemented with the UV measurements from the purity testing of paraffins according to the DAB 8. Correlations of the NMR and UV spectroscopic data indicated a linear relationship of both methods for the determination of MOAH in paraffins. Finally, the 1H NMR data was evaluated by principal component analysis (PCA) to explore differences within the paraffin samples and the spectral regions in the 1H NMR spectrum which are responsible for the formation of groups. It could be found that most variation is due to the MOSH of the paraffins. The PCA model was capable of differentiating between soft, liquid and solid paraffins on the one hand and between natural and synthetic liquid paraffins on the other hand. The impurity profiling of L-ascorbic acid 2-phosphate magnesium (A2PMg) was performed by means of one- and two-dimensional NMR spectroscopy. Several ethylated impurities could be detected, which were likely to be formed during synthesis of A2PMg. The structures of two of the ethylated impurities were identified as ascorbic acid 2-phosphate ethyl ester and ethanol, (residual solvent from synthesis). NMR spectroscopic studies of the fractions obtained from preparative HPLC of A2PMg revealed two additional impurities, which were identified as phosphorylated derivatives of ascorbic acid, ascorbic acid 3,5-phosphate and ascorbic acid 5-phosphate. Solid state mechanochemistry as an alternative approach for stress testing was applied on the drug substances S-Ibuprofen (Ibu) and Clopidogrel (CLP) using a ball mill, in order to study their degradation profile: First, the isomerization of S-Ibu was investigated, which was stressed in the solid state applying several milling frequencies and durations under basic, acidic and neutral conditions. For the separation of Ibu enantiomers, a chiral CE method was developed and validated according to ICH Q2(R1). It was found that S-Ibu is overall very stable to isomerization; it shows minor conversion into the R-enantiomer under basic environment applying long milling times and high frequencies. Last, the degradation profile of clopidogrel hydrogen sulfate (CLP) was investigated, which was stressed in the solid state under various oxidative conditions. An already existing HPLC-UV method was adjusted to sufficiently separate the degradation products, which were characterized by means of UV and MS/(MS) detection. Most of the degradation products identified were already reported to result from conventional CLP stress tests. The degradation profile of CLP was mainly influenced by the material of the milling jar and the type of catalyst used.},
  subject      = {HPLC},
  language  = {en}
}
@phdthesis{Turkin2022,
  author    = {Turkin, Arthur},
  title     = {Vom Monomer zum Polymer: Iterative Synthese und optische Spektroskopie von Squarain-Oligomeren},
  doi       = {10.25972/OPUS-25795},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-257950},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Mittels einer Schutzgruppenstrategie wurden Squarain-basierte monodisperse Oligomere synthetisiert. Die l{\"o}sungsmittelabh{\"a}ngigen Konformationen (Random Coil vs. Helix) wie auch der Faltungsprozess der Homooligomere wurden mittels optischer Spektroskopie, verschiedener NMR-Experimenten, Kleinwinkelneutronenstreuungsexperimenten sowie quantenchemischen Berechnungen n{\"a}her beleuchtet. Die optisch-spektroskopischen Beobachtungen wurden mithilfe der Exzitonenkopplungstheorie und einer Orientierungs- und Winkelabh{\"a}ngigkeit der {\"U}bergangsdipolmomente der Oligomere erkl{\"a}rt. Der hohe Windungsabstand der helikalen Konformation f{\"u}hrt zu einer Interkalation von L{\"o}sungsmittel, wodurch eine Art Klathrat gebildet wird. Zus{\"a}tzlich wurden mittels eines Frenkel-Exzitonenmodells die Absorptions- und Fluoreszenzspektren modelliert. Es konnten die Exzitonendelokalisationsl{\"a}ngen abgesch{\"a}tzt und die Auswirkung der energetischen und strukturellen Unordnungen auf die Absorptions- und Fluoreszenzspektren bestimmt werden. Die Absorptionsspektren werden vorwiegend durch strukturelle Unordnungen verbreitert, die Fluoreszenzspektren dagegen von energetischen {\"U}bergangsenergieabweichungen. Weiterhin wurden auch alternierende Squarain-Cooligomere synthetisiert und mittels optischer Spektroskopie untersucht. Es wurde, abh{\"a}ngig von dem gew{\"a}hlten L{\"o}sungsmittel, eine Verschiebung der Hauptbande beobachtet, was durch einen Random Coil vs. helikale-/schlaufenartige Konformation erkl{\"a}rt wird. Gest{\"u}tzt wurde dies mittels quantenchemischen Berechnungen der jeweiligen Konformationen. Abschließend wurden alternierende Squarain-Copolymere synthetisiert, in verschiedenen Gr{\"o}ßen aufgetrennt und mittels optischer Spektroskopie untersucht. Mittels EEI2D-Experimenten wurde die Exzitonendynamik in Abh{\"a}ngigkeit von der Kettenl{\"a}nge eingehender untersucht. Hierbei wird eine steigende, aber relativ abnehmende Koh{\"a}renzl{\"a}nge bestimmt, die Auswirkungen auf die Exzitonendynamik hat. Der Exzitonentransport weist erst wellenf{\"o}rmiges und dann subdiffuses Verhalten auf.},
  subject      = {Squarain},
  language  = {de}
}
@phdthesis{Schlauersbach2023,
  author    = {Schlauersbach, Jonas},
  title     = {The bile-drug-excipient interplay},
  doi       = {10.25972/OPUS-29653},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296537},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {The bile system in vertebrates is an evolutionary conserved endogenous solubilization system for hydrophobic fats and poorly water-soluble vitamins. Bile pours out from the gallbladder through the common bile duct into the duodenum triggered by cholecystokinin. Cholecystokinin is released from enteroendocrine cells after food intake. The small intestine is also the absorption site of many orally administered drugs. Most emerging drug candidates belong to the class of poorly water-soluble drugs (PWSDs). Like hydrophobic vitamins, these PWSDs might as well be solubilized by bile. Therefore, this natural system is of high interest for drug formulation strategies. Simulated intestinal fluids containing bile salts (e.g., taurocholate TC) and phospholipids (e.g., lecithin L) have been widely applied over the last decade to approximate the behavior of PWSDs in the intestine. Solubilization by bile can enhance the oral absorption of PWSDs being at least in part responsible for the positive "food effect". The dissolution rate of PWSDs can be also enhanced by the presence of bile. Furthermore, some PWSDs profit from supersaturation stabilization by bile salts. Some excipients solubilizing PWSDs seemed to be promising candidates for drug formulation when investigated in vitro without bile. When tested in vivo, these excipients reduced the bioavailability of drugs. However, these observations have been hardly examined on a molecular level and general links between bile interaction in vitro and bioavailability are still missing. This thesis investigated the interplay of bile, PWSDs, and excipients on a molecular level, providing formulation scientists a blueprint for rational formulation design taking bile/PWSD/excipient/ interaction into account. The first chapter focus on an in silico 1H nuclear magnetic resonance (NMR) spectroscopy-based algorithm for bile/drug interaction prediction. Chapter II to IV report the impact of excipients on bioavailability of PWSDs interacting with bile. At last, we summarized helpful in vitro methods for drug formulation excipient choice harnessing biopharmaceutic solubilization in chapter V. Chapter I applies 1H NMR studies with bile and drugs on a large scale for quantitative structure-property relationship analysis. 141 drugs were tested in simulated intestinal media by 1H NMR. Drug aryl-proton signal shifts were correlated to in silico calculated molecular 2D descriptors. The probability of a drug interacting with bile was dependent on its polarizability and lipophilicity, whereas interaction with lipids in simulated intestinal media components was dependent on molecular symmetry, lipophilicity, hydrogen bond acceptor capability, and aromaticity. The probability of a drug to interact with bile was predictive for a positive food effect. This algorithm might help in the future to identify a bile and lipid interacting drug a priori. Chapter II investigates the impact of excipients on bile and free drug fraction. Three different interaction patterns for excipients were observed. The first pattern defined excipients that interacted with bile and irreversibly bound bile. Therefore, the free drug fraction of bile interacting drugs increased. The second pattern categorized excipients that formed new colloidal entities with bile which had a high affinity to bile interacting drugs. These colloids trapped the drug and decreased the free drug fraction. The last excipient pattern described excipients that formed supramolecular structures in coexistence with bile and had no impact on the free drug fraction. These effects were only observed for drugs interacting with bile (Perphenazine and Imatinib). Metoprolol's free drug fraction, a compound not interacting with bile, was unaffected by bile or bile/excipient interaction. We hypothesized that bile/excipient interactions may reduce the bioavailability of bile interacting drugs. Chapter III addresses the hypothesis from chapter II. A pharmacokinetic study in rats revealed that the absorption of Perphenazine was reduced by bile interacting excipients due to bile/excipient interaction. The simultaneous administration of excipient patterns I and II did not further reduce or enhance Perphenazine absorption. Conversely, the absorption of Metoprolol was not impacted by excipients. This reinforced the hypothesis, that drugs interacting with bile should not be formulated with excipients also interacting with bile. Chapter IV further elaborates which in vitro methods using simulated intestinal fluids are predictive for a drug's pharmacokinetic profile. The PWSD Naporafenib was analyzed in vitro with simulated intestinal fluids and in presence of excipients regarding solubility, supersaturation, and free drug fraction. Naporafenib showed a strong interaction with TC/L from simulated bile. Assays with TC/L, but not without identified one excipient as possibly bioavailability reducing, one as supersaturation destabilizing, and the last as bile not interacting and supersaturation stabilizing excipient. A pharmacokinetic study in beagle dogs outlined and confirmed the in vitro predictions. The Appendix summarizes in vivo predictive methods as presented in chapter I to IV and rationalizes experimental design paving the way towards a biopharmaceutic excipient screening. The first presented preliminary decision tree is transformed into a step-by-step instruction. The presented decision matrix might serve as a blueprint for processes in early phase drug formulation development. In summary, this thesis describes how a drug can be defined as bile interacting or non-interacting and gives a guide as well how to rate the impact of excipients on bile. We showed in two in vivo studies that bile/excipient interaction reduced the bioavailability of bile interacting drugs, while bile non-interacting drugs were not affected. We pointed out that the bile solubilization system must be incorporated during drug formulation design. Simulated gastrointestinal fluids offer a well-established platform studying the fate of drugs and excipients in vivo. Therefore, rational implementation of biopharmaceutic drug and excipient screening steers towards efficacy of oral PWSD formulation design.},
  subject      = {Solubilisation},
  language  = {en}
}
@phdthesis{Hanio2024,
  author    = {Hanio, Simon},
  title     = {The impact of bile on intestinal permeability of drug substances},
  doi       = {10.25972/OPUS-34890},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-348906},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {Most medicines are taken orally. To enter the systemic circulation, they dissolve in the intestinal fluid, cross the epithelial barrier, and pass through the liver. Intestinal absorption is driven by the unique features of the gastrointestinal tract, including the bile colloids formed in the lumen and the mucus layer covering the intestinal epithelium. Neglecting this multifaceted environment can lead to poor drug development decisions, especially for poorly water-soluble drugs that interact with bile and mucus. However, there is a lack of a rationale nexus of molecular interactions between oral medicines and gastrointestinal components with drug bioavailability. Against this background, this thesis aims to develop biopharmaceutical strategies to optimize the presentation of oral therapeutics to the intestinal epithelial barrier. In Chapter 1, the dynamics of bile colloids upon solubilization of the poorly-water soluble drug Perphenazine was studied. Perphenazine impacted molecular arrangement, structure, binding thermodynamics, and induced a morphological transition from vesicles to worm-like micelles. Despite these dynamics, the bile colloids ensured stable relative amounts of free drug substance. The chapter was published in Langmuir. Chapter 2 examined the impact of pharmaceutical polymeric excipients on bile-mediated drug solubilization. Perphenazine and Imatinib were introduced as model compounds interacting with bile, whereas Metoprolol did not. Some polymers altered the arrangement and geometry of bile colloids, thereby affecting the molecularly soluble amount of those drugs interacting with bile. These insights into the bile-drug-excipient interplay provide a blueprint to optimizing formulations leveraging bile solubilization. The chapter was published in Journal of Controlled Release. Chapter 3 deals with the impact of bile on porcine intestinal mucus. Mucus exposed to bile solution changed transiently, it stiffened, and the overall diffusion rate increased. The bile-induced changes eased the transport of the bile-interacting drug substance Fluphenazine, whereas Metoprolol was unaffected. This dichotomous pattern was linked to bioavailability in rats and generalized based on two previously published data sets. The outcomes point to a bile-mucus interaction relevant to drug delivery. The chapter is submitted. The Appendix provides a guide for biopharmaceutical characterization of drug substances by nuclear magnetic resonance spectroscopy aiming at establishing a predictive algorithm. In summary, this thesis deciphers bile-driven mechanisms shaping intestinal drug absorption. Based on these molecular insights, pharmaceuticals can be developed along a biopharmaceutical optimization, ultimately leading to better oral drugs of tomorrow.},
  subject      = {Solubilisation},
  language  = {en}
}
@phdthesis{Gruene2022,
  author    = {Gr{\"u}ne, Marvin},
  title     = {Solid-state NMR Spectroscopic, X-Ray Diffraction and Quantum Chemical Investigations of the Crystalline Cancer Drug Paclitaxel and Paclitaxel incorporated into Polymer Micelles},
  doi       = {10.25972/OPUS-23719},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-237199},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Paclitaxel (PTX) is one of the leading drugs against breast and ovarian cancer. Due to its low solubility, treatment of the patients with this drug requires a very well-suited combination with a soluble pharmaceutical excipient to increase the bioavailability and reduce the strong side ef-fects. One efficient way to achieve this in the future could be the incorporation of PTX into pol-ymeric micelles composed of poly(2-oxazoline) based triblock copolymers (POL) which ena-bles PTX loadings of up to 50 wt.\%. However, structural information at an atomic level and thus the knowledge of interaction sites within these promising but complex PTX-POL formula-tions were not yet available. Such results could support the future development of improved excipients for PTX and suitable excipients for other pharmaceutical drugs. Therefore, a solid-state MAS NMR investigation of these amorphous formulations with different POL-PTX com-positions was performed in this thesis as this gives insights of the local structure at an atomic level in its solid state. NMR in solution showed very broad 13C signals of PTX for this system due to the reduced mobility of the incorporated drug which exclude this as an analytical meth-od. In a first study, crystalline PTX was structurally characterized by solid-state NMR as no com-plete 13C spectrum assignment and no 1H NMR data existed for the solid state. In addition, the asymmetric unit of the PTX crystal structure consists of two molecules (Z'=2) that can only be investigated in its solid state. As crystalline PTX in total has about 100 different 13C and 1H chemical shifts with very small differences due to Z'=2, and furthermore, its unit cell consisting of more than 900 atoms, accompanying GIPAW (CASTEP) calculations were required for NMR signal assignments. These calculations were performed using the first three available purely hydrous and anhydrous PTX structures, which were determined by XRD and published by Vel-la-Zarb et al. in 2013. Within this thesis, is was discovered that two investigated batches of commercially available PTX from the same supplier both contained an identical and so far un-known PTX phase that was elucidated by PXRD as well as solid-state NMR data. One of the two batches consists of an additional phase that was shown to be very similar to a known hy-drated phase published in 2013.[1] By heating the batch with the mixture of the two phases un-der vacuum, it is transformed completely to the new dry phase occurring in both PTX batches. Since the drying conditions to obtain anhydrous PTX in-situ on the PXRD setup described by Vella-Zarb et. al.[1] were much softer than ours, we identify our dry phase as a relaxed version of their published anhydrate structure. The PXRD data of the new anhydrate phase was trans-ferred into a new structural model, which currently undergoes geometry optimization. Based on solid-state NMR data at MAS spinning frequencies up to 100 kHz, a 13C and a partial 1H signal assignment for the new anhydrous structure were achieved. These results provided sufficient structural information for further investigations of the micellar POL-PTX system. In a second study, the applicability and benefit of two-dimensional solid-state 14N-1H HMQC MAS NMR spectra for the characterization of amorphous POL-PTX formulations was investi-gated. The mentioned technique has never been applied to a system of similar complexity be-fore and was chosen because around 84\% of the small-molecule drugs contain at least one nitrogen atom. In addition, the number of nitrogen atoms in both POL and PTX is much smaller than the number of carbons or hydrogens, which significantly reduces the spectral complexity. 14N has a natural abundance of 99.6\% but leads to quadrupolar broadening due to its nuclear spin quantum number I = 1. While this is usually undesirable due to broadening in the resulting 1D 14N NMR spectra, this effect is explicitly used in the 2D 14N-1H HMQC MAS experiment. The indirect 14N measurement can avoid the broadening while maintaining the advantage of the high natural abundance and making use of the much more dispersed signals due to the additional quadrupolar shifts as compared to 15N. This measurement method could be successfully applied to the complex amorphous POL-PTX mixtures. With increasing PTX loading of the formulations, additional peaks arise as spatial proximities of the amide nitrogens of POL to NH or OH groups of PTX. In addition, the 14N quadrupolar shift of these amide nitrogens decreases with increasing PTX content indicating a more symmetric nitrogen environment. The latter can be explained by a transformation of the trigonal planar coordination of the tertiary amide nitrogen atoms in pure POL towards a more tetrahedral environment upon PTX loading induced by the formation of hydrogen bonds with NH/OH groups of PTX. In the third and last project, the results of the two abovementioned studies were used and ex-tended by solid state 13C and two-dimensional 1H-13C as well as 1H-1H MAS NMR data with the aim to derive a structural model of the POL-PTX formulations at an atomic level. The knowledge of the NMR signal assignments for crystalline PTX was transferred to amorphous PTX (present in the micelles of the formulations). The 13C solid-state NMR signals were evalu-ated concerning changes in chemical shifts and full widths of half maximum (FWHM) for the different PTX loadings. In this way, the required information about possible interaction sites at an atomic level becomes available. Due to the complexity of these systems, such proximities often cannot be assigned to special atoms, but more to groups of atoms, as the individual de-velopments of line widths and line shifts are mutually dependent. An advantageous aspect for this analysis was that pure POL already forms unloaded micelles. The evaluation of the data showed that the terminal phenyl groups of PTX seem to be most involved in the interaction by the establishment of the micelle for lowest drug loading and that they are likely to react to the change in the amount of PTX molecules as well. For the incorporation of PTX in the micelles, the following model could be obtained: For lowest drug loading, PTX is mainly located in the inner part of the micelles. Upon further increasing of the loading, it progressively extends to-ward the micellar shell. This could be well shown by the increasing interactions of the hydro-phobic butyl chain of POL and PTX, proceeding in the direction of the polymer backbone with rising drug load. Furthermore, due to the size of PTX and the hydrodynamic radius of the mi-celles, even at the lowest loading, the PTX molecules partially reach the core-shell interface of the micelle. Upon increasing the drug loading, the surface coverage with PTX clusters increas-es based on the obtained model approach. The latter result is supported by DLS and SANS data of this system. The abovementioned results of the 14N-1H HMQC MAS investigation of the POL-PTX formulations support the outlined model. As an outlook, the currently running geometry optimization and subsequently scheduled calcu-lation of the chemical shieldings of the newly obtained anhydrous PTX crystal structure can further improve the solid-state NMR characterization through determination of further spatial proximities among protons using the existing 2D 1H(DQ)-1H(SQ) solid-state MAS NMR spec-trum at 100 kHz rotor spinning frequency. The 2D 14N-1H HMQC MAS NMR experiments were shown to have great potential as a technique for the analysis of other disordered and amor-phous drug delivery systems as well. The results of this thesis should be subsequently applied to other micellar systems with varying pharmaceutical excipients or active ingredients with the goal of systematically achieving higher drug loadings (e.g., for the investigated PTX, the similar drug docetaxel or even different natural products). Additionally, it is planned to transfer the knowledge to another complex polymer system containing poly(amino acids) which offers hy-drogen bonding donor sites for additional intermolecular interactions. Currently, the POL-PTX system is investigated by further SANS studies that may provide another puzzle piece to the model as complementary measurement method in the future. In addition, the use of MD simu-lations might be considered in the future. This would allow a computerized linking of the differ-ent pieces of information with the aim to determine the most likely model.},
  subject      = {Wirkstoff-Tr{\"a}ger-System},
  language  = {en}
}
@phdthesis{Halmen2021,
  author    = {Halmen, Norbert},
  title     = {Vernetzungsgrad unter der Lupe : Zerst{\"o}rungsfreie Pr{\"u}fung mit unilateraler NMR},
  publisher = {W{\"u}rzburg University Press},
  address   = {W{\"u}rzburg},
  isbn      = {978-3-95826-160-0},
  doi       = {10.25972/WUP-978-3-95826-161-7},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-233506},
  school      = {W{\"u}rzburg University Press},
  pages     = {xv, 182},
  year      = {2021},
  abstract  = {Der Vernetzungsgrad von Klebstoffen und strahlenvernetzter Kunststoffformteile beeinflusst zahlreiche Materialeigenschaften und ist von essenzieller Bedeutung f{\"u}r die Funktionalit{\"a}t von Klebeverbindungen und die Best{\"a}ndigkeit medizinischer Implantate. Die zerst{\"o}rungsfreie Pr{\"u}fung dieser Qualit{\"a}tsgr{\"o}ße ist von großem industriellem Interesse, aber noch nicht Stand der Technik. Die unilaterale Kernspinresonanz (uNMR) ist ein vielversprechendes Verfahren zur L{\"o}sung dieser Problematik. In diesem Buch wird die nicht-invasive Vernetzungsgradpr{\"u}fung von strahlenvernetztem UHMWPE und verschiedenen Klebstoffen mittels uNMR demonstriert. Auf Basis der guten Korrelation mit praxisrelevanten Referenzmethoden (thermisch, rheologisch, dielektrisch) wurden Vergleichsmodelle entwickelt, welche Anwendern von Klebstoffen und vernetzten Kunststoffformteilen den Einsatz der uNMR zur zerst{\"o}rungsfreien Qualit{\"a}tssicherung erm{\"o}glichen.},
  subject      = {Magnetische Kernresonanz},
  language  = {de}
}
@phdthesis{Kiendl2020,
  author    = {Kiendl, Benjamin},
  title     = {Application of diamond nanomaterials in catalysis},
  doi       = {10.25972/OPUS-17941},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-179415},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {In this work the catalytic activity of nanodiamond particles with different dopants and surface terminations and of diamond nanomaterials funtionalized with ruthenium-based photocatalysts was investigated, illustrating materials application in photoredox chemistry and the photo(electro)catalytic reduction of CO2. Regarding the application of diamond nanomaterials in photocatalysis, methods to fabricate and characterize several (un)doped nanoparticles with different surface termination were successfully developed. Various photocatalysts, attached to nanodiamond particles via linker systems, were tested in photoredox catalysis and the photo(electro)catalytic reduction of CO2.},
  subject      = {Fotokatalyse},
  language  = {en}
}
@phdthesis{Boshuis2022,
  author    = {Boshuis, Tim},
  title     = {Konzeption eines praxisorientierten Seminarkonzepts im Biologie/Chemiestudium zur Erfassung und F{\"o}rderung der Reflexionsf{\"a}higkeit von Lehramtsstudierenden},
  doi       = {10.25972/OPUS-25897},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-258973},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Um Kompetenzen von angehenden Lehrkr{\"a}ften zu f{\"o}rdern, werden Praxisphasen in das Lehramtsstudium integriert. Damit diese Phasen m{\"o}glichst effektiv sein k{\"o}nnen, m{\"u}ssen sie Studierenden die M{\"o}glichkeit bieten, Unterrichtsinhalte zu reflektieren. Dabei k{\"o}nnten Lehr-Lern-Labor-Seminare eine M{\"o}glichkeit sein, durch Praxisn{\"a}he und der komplexit{\"a}tsreduzierten Lehr-Lern-Umgebung, die systematische Reflexion konkreter unterrichtlicher Inhalte zu f{\"o}rdern. In der vorliegenden Arbeit wird deshalb dargestellt, inwiefern solche Seminare zur Vermittlung eines Reflexionsschemas eingesetzt werden k{\"o}nnen. Mit Hilfe einer strukturierenden Inhaltsanalyse wird untersucht, welche Komponenten der didaktischen Rekonstruktion von den Studierenden wahrgenommen werden und inwiefern sie in der Lage sind, ein Reflexionsschema in diesen Bereichen einzusetzen. Da das Handeln im Unterricht stark durch Pers{\"o}nlichkeitsmerkmale beeinflusst wird, wird ebenfalls {\"u}berpr{\"u}ft, ob {\"U}berzeugungen, Kognitionsbed{\"u}rfnis und Praxiserfahrung die Anwendung eines Reflexionsschemas beeinflussen. Durch die Ergebnisse dieser Arbeit war es m{\"o}glich, ein Reflexionsschema zu validieren, dass es Studierenden erm{\"o}glicht, selbstst{\"a}ndig und fachunabh{\"a}ngig Unterrichtsinhalte zu reflektieren.},
  subject      = {Lehr-Lern-Labor},
  language  = {de}
}
@phdthesis{Siewert2021,
  author    = {Siewert, Aaron},
  title     = {Nucleotide analogs as rigid spin labels for DNA and RNA},
  doi       = {10.25972/OPUS-24765},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-247657},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Nucleic acids are one of the important classes of biomolecules together with carbohydrates, proteins and lipids. Both deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) are most well known for their respective roles in the storage and expression of genetic information. Over the course of the last decades, nucleic acids with a variety of other functions have been discovered in biological organisms or created artificially. Examples of these functional nucleic acids are riboswitches, aptamers and ribozymes. In order to gain information regarding their function, several analytical methods can be used. Electron paramagnetic resonance (EPR) spectroscopy is one of several techniques which can be used to study nucleic acid structure and dynamics. However, EPR spectroscopy requires unpaired electrons and because nucleic acids themselves are not paramagnetic, the incorporation of spin labels which carry a radical is necessary. Here, three new spin labels for the analysis of nucleic acids by EPR spectroscopy are presented. All of them share two important design features. First, the paramagnetic center is located at a nitroxide, flanked by ethyl groups to prevent nitroxide degradation, for example during solid phase synthesis. Furthermore, they were designed with rigidity as an important quality, in order to be useful for applications like pulsed electron double resonance (PELDOR) spectroscopy, where independent motion of the spin labels relative to the macromolecule has a noticeable negative effect on the precision of the measurements. Benzi-spin is a spin label which differs from most previous examples of rigid spin labels in that rather than being based on a canonical nucleoside, with a specific base pairing partner, it is supposed to be a universal nucleoside which is sufficiently rigid for EPR measurements when placed opposite to a number of different nucleosides. Benzi-spin was successfully incorporated into a 20 nt oligonucleotide and its base pairing behavior with seven different nucleosides was examined by UV/VIS thermal denaturation and continuous wave (CW) EPR experiments. The results show only minor differences between the different nucleosides, thus confirming the ability of benzi-spin to act as a universally applicable spin label. Lumi-spin is derived from lumichrome. It features a rigid scaffold, as well as a free 2'-hydroxy group, which should make it well suited for PELDOR experiments once it is incorporated into RNA oligonucleotides. E{\c{C}}r is based on the {\c{C}} family of spin labels, which contains the most well known rigid spin labels for nucleic acids to this day. It is essentially a version of E{\c{C}}m with a free 2'-hydroxy group. It was converted to triphosphate E{\c{C}}rTP and used for primer extension experiments to test the viability of enzymatic incorporation of rigid spin labels into oligonucleotides as an alternative to solid-phase synthesis. Incorporation into DNA by Therminator III DNA polymerase in both single-nucleotide and full-length primer extensions was achieved. All three of these spin labels represent further additions to the expanding toolbox of EPR spectroscopy on nucleic acids and might prove valuable for future research.},
  subject      = {Nucleins{\"a}uren},
  language  = {en}
}
@phdthesis{Haider2022,
  author    = {Haider, Malik Salman},
  title     = {Structure Property Relationship and Therapeutic Potential of Poly(2-oxazoline)s and Poly(2-oxazines)s based Amphiphiles},
  doi       = {10.25972/OPUS-28903},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-289036},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {In the past decade, poly(2-oxazoline)s (POx) and very recently poly(2-oxazine)s (POzi) based amphiphiles have shown great potential for medical applications. Therefore, the major aim of this thesis was to further explore the pharmaceutical and biomedical applications of POx/POzi based ABA triblock and AB diblock copolymers, respectively with the special emphasis on structure property relationship (SPR). ABA triblock copolymers (with shorter side chain length in the hydrophobic block) have shown high solubilizing capacity for hydrophobic drugs. The issue of poor aqueous solubility was initially addressed by developing a (micellar) formulation library of 21 highly diverse, hydrophobic drugs with POx/POzi based ABA triblock copolymers. Theoretically, the extent of compatibility between polymers and drug was determined by calculating solubility parameters (SPs). The SPs were thoroughly investigated to check their applicability in present systems. The selected formulations were further characterized by various physico-chemical techniques. For the biomedical applications, a novel thermoresposive diblock copolymer was synthesized which has shown promising properties to be used as hydrogel bioink or can potentially be used as fugitive support material. The most important aspect i.e. SPR, was studied with respect to hydrophilic block in either tri- or di-block copolymers. In triblock copolymer, the hydrophilic block played an important role for ultra high drug loading, while in case of diblock, it has improved the printability of the hydrogels. Apart from the basic research, the therapeutic applications of two formulations i.e. mitotane (commercially available as tablet dosage form for adrenocortical carcinoma) and BT-44 (lead compound for nerve regeneration) were studied in more detail.},
  language  = {en}
}
@phdthesis{Wolf2021,
  author    = {Wolf, Natalia},
  title     = {Synthese multifunktionaler Farbstoffe und Linker zur Visualisierung biologischer Strukturen},
  doi       = {10.25972/OPUS-20531},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-205312},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Durch stetige Entwicklung der Mikroskopiemethoden in den letzten Jahrzehnten ist es nun m{\"o}glich Strukturen und Abl{\"a}ufe in biologischen Systemen detaillierter darzustellen als mit der von Abbe entdeckten maximalen Aufl{\"o}sungsgrenze. Oft werden dabei Fluoreszenzmarker benutzt, welche die unsichtbare Welt der Mikrobiologie und deren biochemische Prozesse illuminieren. Diese werden entweder durch Expression, wie z.B. das gr{\"u}n fluoreszierende Protein (GFP), in das zu untersuchende Objekt eingebracht oder durch klassische Markierungsmethoden mithilfe von fluoreszierenden Immunkonjugaten installiert. Jedoch gewinnt eine alternative Strategie, die von der interdisziplin{\"a}ren Zusammenarbeit zwischen Chemikern, Physikern und Biologen profitiert, immer mehr an Bedeutung - die bioorthogonale Click-Chemie. Sie erm{\"o}glicht eine effiziente Fluoreszenzmarkierung der biologischen Strukturen unter minimalem Eingriff in die Abl{\"a}ufe der Zelle. Dazu m{\"u}ssen allerdings sowohl Farbstoffe als auch die biologisch aktiven Substanzen chemisch modifiziert werden, da nur dadurch die Bioorthogonalit{\"a}t gew{\"a}hrleistet werden kann. Mittlerweile existiert eine breite Palette an fluoreszierenden Farbstoffen, die das komplette sichtbare Spektrum abdecken und sich f{\"u}r diverse Mikroskopiemethoden eignen. Allerdings gibt es zwei Farbstoffklassen, die sich aus der gesamten F{\"u}lle abheben und sich f{\"u}r hochaufl{\"o}sende bildgebende Experimente auf Einzelmolek{\"u}lebene eignen. Zum einen ist es die Farbstofffamilie der Cyanine und insbesondere der wasserl{\"o}slichen Pentamethincyanine, die reversibel und kontrolliert zum Photoschalten animiert werden k{\"o}nnen und in der stochastisch optischen Rekonstruktionsmikroskopie Anwendung finden. Zum anderen ist es die Gruppe, der Rhodamine und Fluoresceine, die zu Xanthenfarbstoffen geh{\"o}ren und sich durch gute photophysikalische Eigenschaften auszeichnen. Trotz der Beliebtheit stellt ihre Darstellung immer noch eine Herausforderung dar und limitiert deren Einsatz. Deshalb war es notwendig im Rahmen der vorliegenden Arbeit M{\"o}glichkeiten zur Syntheseoptimierung beider Farbstoffklassen zu finden, damit diese im Folgenden weiterentwickelt und an die biologische Fragestellung angepasst werden k{\"o}nnen. Die Arbeit unterteilt sich deshalb in Relation an die oben genannten Farbstoffklassen in zwei Bereiche. Im ersten Teil wurden Projekte basierend auf den wasserl{\"o}slichen Pentamethincyaninen behandelt. Im zweiten Teil besch{\"a}ftigte sich die Arbeit mit Projekten, die auf Xanthen-Farbstoffen aufbauen.},
  subject      = {Farbstoff},
  language  = {de}
}
@phdthesis{Merz2022,
  author    = {Merz, Viktor},
  title     = {Funktionalisierung und Untersuchung von Nanodiamanten f{\"u}r biomedizinische und sensorische Anwendungen},
  doi       = {10.25972/OPUS-24588},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-245888},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Nanodiamant (ND) ist ein vielseitiges und vielversprechendes Material f{\"u}r Bio-Anwendungen. Trotz vieler Bem{\"u}hungen bleibt die Agglomeration von Nanodiamant und die unspezifische Adsorption von Proteinen an der ND-Oberfl{\"a}che bei Kontakt mit Biofl{\"u}ssigkeiten ein großes Hindernis f{\"u}r biomedizinische Anwendungen. Eine Auswahl verzweigter und linearer Molek{\"u}le mit {\"u}berlegener F{\"a}higkeit zur kolloidalen Stabilisierung von Nanopartikeln in Salz- und Zellmedienumgebung, f{\"u}r bis zu 30 Tage, wurde an die ND-Oberfl{\"a}che angebracht. Das Baukastensystem mit Azid als Außengruppen bietet eine große Vielfalt an Bindungen mit vielen Molek{\"u}len, wie z. B. Medikamenten, Farbstoffen oder Targeting-Molek{\"u}len. Das Anh{\"a}ngen von z. B. Zwitterionen an die Kette sch{\"u}tzt die ND-Oberfl{\"a}che vor der Bildung einer Proteinkorona, wenn die Partikel mit proteinhaltigen Biofl{\"u}ssigkeiten in Kontakt kommen. Die Ergebnisse der thermogravimetrischen Analyse der Beladung der ND-Oberfl{\"a}che zeigen eine signifikante Verhinderung der Proteinadsorption von bis zu 98 \% im Vergleich zu NDs ohne zwitterionische Kopfgruppen und eine lange kolloidale Stabilit{\"a}t, wenn Tetraethylenglykol (TEG) an die Oberfl{\"a}che gebunden wird. Die Vielseitigkeit des modularen Systems, um nicht nur zwitterionische Ketten, sondern auch klickbare funktionelle Molek{\"u}le an fluoreszierende Nanodiamanten (fNDs) zu binden, zeigt das Potenzial des Systems am Nanodiamanten. Unter Verwendung von Defektstrukturen, wie Stickstoff-Vakanz-Zentren (NV), k{\"o}nnen Diamantpartikel aufgrund ihres weitgehend ungiftigen Verhaltens als fluoreszierende Nanodiamanten (fNDs) f{\"u}r photostabile Markierung, Bioimaging und nanoskalige Sensorik in lebenden Zellen und Organismen verwendet werden. Um die fND-Oberfl{\"a}che zu funktionalisieren, wurde eine neuartige Mahltechnik mit Diazoniumsalzen etabliert, um ein Pfropfen auf wenig reaktive HPHT-fNDs durchzuf{\"u}hren, was zu einer hohen Oberfl{\"a}chenbeladung und einem hohen negativen Zetapotenzial f{\"u}hrt. Die Kombination der Vorteile von TEG und zwitterionhaltigen Gruppen mit der F{\"a}higkeit zum Targeting von Antik{\"o}rpern auf fND best{\"a}tigt zum ersten Mal die verbesserte kolloidale Stabilit{\"a}t in Experimenten mit lebenden Zellen. Dar{\"u}ber hinaus deuten die Ergebnisse auf eine verbesserte Corona-Abstoßung im Vergleich zu fND ohne zwitterionhaltige Kopfgruppen hin. Infolgedessen wurden die Zirkulationszeiten von 4 (fND ohne Zwitterionenkette, aber mit Antik{\"o}rper) auf 17 (mit Antik{\"o}rper und Zwitterionenketten) Stunden vergr{\"o}ßert. In nicht-biomedizinischen Anwendungen kann das modulare System als Sonde f{\"u}r Schwermetalle durch die Anbindung von Farbstoffen verwendet werden. Die Detektion von Metallen in verschiedenen Umgebungen mit hoher Selektivit{\"a}t und Spezifit{\"a}t ist eine der Voraussetzungen f{\"u}r den Kampf gegen die Umweltverschmutzung mit diesen Elementen. Pyrene sind gut geeignet und weit bekannt f{\"u}r die Fluoreszenzsensorik in verschiedenen Medien. Das angewandte Sensorprinzip beruht typischerweise auf der Bildung von intra- und intermolekularen Excimeren, was jedoch den Empfindlichkeitsbereich aufgrund der Maskierung von z.B. Quenching-Effekten durch die Excimer-Emission einschr{\"a}nkt. Diese Studie zeigt einen hochselektiven, strukturstabilen chemischen Sensor, der auf der monomeren Fluoreszenz von Pyrenanteilen mit Triazolgruppen basiert. Dieser Sensor kann Cu2+, Pb2+ und Hg2+ in organischen L{\"o}sungsmitteln {\"u}ber einen weiten Konzentrationsbereich quantitativ nachweisen, auch in Gegenwart von ubiquit{\"a}ren Ionen wie Na+, K+, Ca2+ und Mg2+. Die stark emittierende Fluoreszenz des Sensors mit einer langen Lebensdauer von 165 ns wird durch eine 1:1-Komplexbildung bei Zugabe von Metallionen in Acetonitril gel{\"o}scht. Bei Zugabe eines zehnfachen {\"U}berschusses des Metallions zum Sensor bilden sich Agglomerate mit einem Durchmesser von etwa 3 nm. Aufgrund der komplexen Wechselwirkungen im System werden konventionelle lineare Korrelationen nicht f{\"u}r alle Konzentrationen beobachtet. Daher wird ein kritischer Vergleich zwischen der konventionellen Job-Plot-Interpretation, der Methode von Benesi-Hildebrand und einem nicht-linearen Fit vorgestellt. Das vorgestellte System erm{\"o}glicht die spezifische und robuste Erfassung von medizinisch und {\"o}kologisch relevanten Ionen im gesundheitsrelevanten nM-Bereich und k{\"o}nnte z. B. zur {\"U}berwachung der entsprechenden Ionen in Abfallstr{\"o}men eingesetzt werden. Doch h{\"a}ufig landen diese Abfallstr{\"o}me in empfindlichen Aquakulturen, wo eine solche Sensortechnik nur funktioniert, wenn die Sonde wasserl{\"o}slich ist, um die Ausbreitung und Bildung von Umweltsch{\"a}den durch Schwermetalle zu {\"u}berwachen. Viele Chemosensoren arbeiten nur in bestimmten L{\"o}sungsmitteln und unter hochreinen Bedingungen quantitativ. In dieser Arbeit wird eine Methode zur Stabilisierung von wasserunl{\"o}slichen Chemosensoren auf Nanodiamanten in salzhaltigem Wasser unter Beibehaltung der Sensoreffektivit{\"a}t und -spezifit{\"a}t sowie der kolloidalen Stabilit{\"a}t vorgestellt. Zus{\"a}tzlich wird die Sensorf{\"a}higkeit in organischen L{\"o}sungsmitteln beibehalten. Diese Studie gibt Einblick in die Absorptionsf{\"a}higkeit von Pyren-Derivaten an der Nanodiamant-Oberfl{\"a}che und einen Weg, diese reversibel zu desorbieren. Außerdem beweist das System, dass in Anwesenheit von 95 \% Sauerstoffatmosph{\"a}re bei der Fluoreszenzmessung die Ergebnisse nicht von denen in Argonatmosph{\"a}re abweichen. Dar{\"u}ber hinaus st{\"o}rt das Vorhandensein g{\"a}ngiger Ionen im Wasser die kolloidale Stabilit{\"a}t der NDs nicht und hat auch keinen Einfluss auf die Sensorfunktionalit{\"a}t und ist somit ein vielversprechender Kandidat f{\"u}r Messungen ohne aufw{\"a}ndige Pr{\"a}parationsschritte.},
  language  = {en}
}