Computational studies on the rearrangement reactions of some biologically relevant radicals

Semialjac, Marija.

Unknown Date

Techn. University, Diss., 2004--Berlin.

Solid-state NMR Spectroscopic, X-Ray Diffraction and Quantum Chemical Investigations of the Crystalline Cancer Drug Paclitaxel and Paclitaxel incorporated into Polymer Micelles / Festkörper-NMR-, Röntgendiffraktometrie- und quantenchemische Untersuchungen des kristallinen Krebs-Wirkstoffs Paclitaxel und Paclitaxel eingebettet in Polymermizellen

Grüne, Marvin

January 2022

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. / Paclitaxel (PTX) ist eines der führenden Medikamente gegen Brust-und Eierstockkrebs. Aufgrund seiner geringen Löslichkeit erfordert die Behandlung der Patienten mit diesem Medikament eine sehr gut geeignete Kombination mit einem löslichen pharmazeutischenHilfsstoff, um die Bioverfügbarkeit zu erhöhen und die starken Nebenwirkungen zu reduzieren. Ein effizienter Weg, dies in Zukunft zu erreichen, könnte der Einbau von PTX in polymere Mizellen sein, die aus Poly(2-oxazolin)-basierten Triblock-Copolymeren (POL) bestehen und PTX-Beladungen von bis zu 50 Gew.-% ermöglichen. Strukturelle Informationen auf atomarer Ebene und damit die Kenntnis von Wechselwirkungeninnerhalb dieser vielversprechenden, aber komplexen PTX-POL-Formulierungen waren jedoch bisher nichtverfügbar. Solche Ergebnisse könnten die zukünftige Entwicklung von verbesserten Hilfsstoffen für PTX und von geeigneten Hilfsstoffen für andere pharmazeutische Wirkstoffe unterstützen. Aus diesem Grund wurdenin der vorliegenden DissertationFestkörper-NMR-Untersuchungen andiesenamorphen Formulierungen mit unterschiedlichen POL-PTX Zusammensetzungen durchgeführt, weil damit Einblickein die lokale Struktur auf atomarer Ebene im festen Zustand erhalten werden können. Aufgrund der verringerten Mobilität des eingebrachten Wirkstoffs in diesem System ergeben NMR-Messungen in Lösung sehr breite 13C-PTX-Signale, was diese Technikals Analysemethode ausschließt. ...

Wirkstoff-Träger-System

NMR-Spektroskopie

Röntgendiffraktometrie

Taxol

Quantenchemie

ddc:547

Theoretical investigations on the spectroscopy of molecular aggregates / Theoretische Untersuchungen zur Spektroskopie von Molekülaggregaten

Seibt, Joachim

January 2009

Die spektroskopischen Eigenschaften von Molekülaggregaten wurden mittels quantendynamischer Berechnungen untersucht. Hierbei wurden sowohl lineare als auch nichtlineare Spektroskopietechniken einbezogen. Zur Simulation von Absorptions- und CD-Spektroskopie wurden Kopplungseffekte sowie die relative Orientierung der Monomer-Einheiten in den Modellen berücksichtigt, um gemessene Spektren reproduzieren und so die entsprechenden Parameter zu bestimmen. Zur genaueren Beschreibung wurden auch Ergebnisse quantenchemischer Rechnungen verwendet. Darüber hinaus wurden Untersuchungen zur nichtlinearen optischen Spektroskopie an Dimeren durchgeführt. / The spectroscopic properties of molecular aggregates have been investigated by means of quantum dynamical calculations. Thereby both linear and nonlinear spectroscopic techniques have been taken into account. For the simulation of absorption and CD-spectra, coupling effects were regarded as well as the relative orientation of the monomer units in order to determine the parameters by reproducing measured spectra. For a more detailled description, results from quantum chemical calculations have also been included. Furthermore, investigations on nonlinear spectroscopy of molecular dimers have been performed.

Theoretische Chemie

Aggregat <Chemie>

Nichtlineare Spektroskopie

CD-Spektroskopie

Quantenchemie

ddc:540

Untersuchungen zur Darstellung von (Organo)xenon(II)-Verbindungen mit nichtaromatischen Liganden unter besonderer Berücksichtigung von (Alkinyl)xenon(II)-Verbindungen /

Schmidt, Harald.

January 2007

Thesis (doctoral)--Universität Köln, 2007.

Theoretische Untersuchung von Spin-Bahn-Effekten in der Spektroskopie und Dynamik angeregter Zustände von Kohlenstoffdisulfid CS 2 und Iodcyan ICN

Schweizer, Marcus.

January 2002

Stuttgart, Univ., Diss., 2002.

Relativistische Pseudopotentiale Multikonfigurations-Dirac-Hartree-Fock-Justierung für 4d- und 5d-Elemente und Anwendung in Molekülrechnungen mit Spin-Bahn-Kopplung /

Figgen, Detlev,

January 2007

Stuttgart, Univ., Diss., 2007.

Quantenchemische Untersuchungen zu katalysierten Reaktionen organischer Substrate

Sändig, Nadja.

Unknown Date

Techn. Universiẗat, Diss., 2000--Berlin.

Quantenchemische Berechnung von Übergangsmetallkomplexen in der Gasphase

Diefenbach, Martin Ansgar.

Unknown Date

Techn. Universiẗat, Diss., 2003--Berlin.

Katalyse und mechanistische Untersuchungen mit ionischen Palladiumspezies sowie Katalyse in ionischen Flüssigkeiten

Schröter, Felix

08 May 2019

In der vorliegenden Arbeit werden mehrere Aspekte der Übergangsmetallkatalyse beleuchtet. Ein Teil der Arbeit beschäftigt sich mit geladenen Palladiumspezies. Während kationische Palladium-NHC-Komplexe in der Suzuki-Miyaura-Kreuzkupplung effiziente Katalysatoren darstellen, sind anionische 'ligandfreie' Palladium-Komplexe in der Mizoroki-Heck-Reaktion aktiver. Diese Unterschiede werden mit mechanistischen Untersuchungen und quantenchemischen Rechnungen nachvollzogen. Beide Systeme wurden anschließend weiterentwickelt. Die resultierenden dikationischen Palladium-NHC-Komplexe weisen ein vielfältiges Koordinationsverhalten in Lösung und im Festkörper auf und eignen sich zur Anwendung in der Hydroaminierung und Hydroarylierung von Alkinen. Das ligandfreie Anion wurde in neuartigen metallhaltigen 'tunable aryl alkyl ionic liquids' (TAAILs) eingesetzt, die in der oxidativen Heck-Reaktion und in der reduktiven Arylhalogenid-Dimerisierung katalytisch aktiv sind. Ein weiterer Teil der Arbeit beschäftigt sich mit Reaktionen in ionischen Flüssigkeiten und Wasser. Ein Polyethylenglykol-modifizierter Palladium-NHC-Komplex eignet sich zur Suzuki-Miyaura-Kreuzkupplung sterisch anspruchsvoller Boronsäuren und Chloraromaten in einem Wasser-Ethanol-Gemisch. Gelöste Metallsalze enthaltende TAAILs wurden als Reaktionsmedium in der Katalyse eingesetzt. Dazu zählen die Cobalt-katalysierte Hydroarylierung/ Hydroaminierung, die den Zugang zu potentiell pharmakologisch bedeutsamen aromatischen Aminen ermöglicht, aber auch die Platin-katalysierte Hydroamidierung und die Palladium- und Kupfer-katalysierte Dimerisierung von Styrol.

info:eu-repo/classification/ddc/540

ddc:540

Quantum Chemical Investigation of the Interaction of Hydrogen with Solid Surfaces

Thomas, Mullan

05 August 2022

In dieser Arbeit werden die Wechselwirkungen von Wasserstoff mit festen Materialien und Oberflächen untersucht. Zunächst wird der Kontext unserer Untersuchung durch eine kurze Einordnung in die Geschichte der Naturwissenschaften im Allgemeinen, und der Oberflächenforschung im Speziellen, hergestellt. Anschließend wird der quanten- mechanische Apparat, welcher nötig ist um die betrachteten Systeme zu beschreiben, eingeführt um dann detailliert die Potentialhyperfläche der Entstehung von Wasser durch Adsoprtion von Wasserstoff auf einer teilweise oxidierten Ruthenium(0001) Metalloberfläche zu studieren. Zudem wird das gleiche System betrachtet, wenn die Metalloberfläche zusätzlich von einer biatomaren, kristallinen Lage Siliziumdioxid (SiO2 ) bedeckt ist, wodurch eine räumliche Beengung eintritt. Wir verwenden unsere Ergebnisse zusammen mit experimentellen Beobachtungen und mathematischen Metho- den um ein vollständig theoretisches Modell zu entwerfen und das System grundlegend verstehen zu können. In einem weiteren Schritt werden die chemischen Änderungen der Siliziumdioxid Doppellage untersucht, wenn das System Wasserstoffplasma ausgesetzt wird. Es werden diverse mögliche Defektstrukturen diskutiert und mithilfe experi- menteller Befunde die wahrscheinlichste Struktur isoliert. Im letzten Kapitel werden die typischen Näherungen untersucht, welche notwendig sind um quantenmechanische Methoden mit Hilfe von Computern durchführbar zu machen. Wir verwenden den sogenannten embedded-fragment Ansatz um die Diffusionsbarriere von Wasserstoff auf Aluminiumoxid mit chemischer Genauigkeit zu berechnen. Unsere Ergebnisse auf dem coupled-cluster with singles, doubles and perturbative triples (CCSD(T))- Niveau können sowohl als Referenz für experimentelle Untersuchungen, als auch für andere quantenmechanische Methoden wie z.B. die Dichtefunktionaltheorie, angesehen werden. / The present thesis aims at investigating the interactions of hydrogen with solid surfaces and materials. We first offer a brief historical context for surface science, as well as quantum mechanics and science is general, before deriving the mathematical appa- ratus necessary to investigate our systems of interest. We then move on to explore the potential energy surface of the water-formation-reaction on a partially oxidized ruthenium(0001) surface when confined under a two-atom thick sheet of silica (SiO2 ). We further employ our findings in conjunction with experimental observations and mathematical modeling to set up a fully theoretical model of the system in order to explain its behavior. In the second chapter we investigate the chemical alteration of the ultra-thin silica bilayer by means of exposing it to hydrogen plasma. We elucidate possible defects formed during the process and pin-point the most likely structure found. In the last chapter, we investigate the possible error sources that are inherent in quantum mechanical modeling and employ the so called embedded fragment approach to lift the approximations up to the coupled cluster singles and doubles with perturba- tive triples (CCSD(T)) level of theory. We then apply this methodology to the diffusion of hydrogen on aluminum oxide to obtain a diffusion barrier of chemical accuracy that may both be used to benchmark other approaches such as density functional theory, as well as experimental findings.

Oberflächenwissenschaften

Quantenchemie

Heterogene Katalyse

Kinetik

Surface Science

Quantum Chemistry

Heterogeneous Catalysis

Kinetics

530 Physik

ddc:530