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Structural Dynamics of Amorphous Solid-State Macromolecular Materials at Terahertz Frequencies


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Type

Thesis

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Authors

Shmool, Talia Amira  ORCID logo  https://orcid.org/0000-0002-0415-3050

Abstract

Structural Dynamics of Amorphous Solid-State Macromolecular Materials at Terahertz Frequencies Talia Amira Shmool The aim of this thesis is to investigate the ability of terahertz time-domain spectroscopy (THz-TDS) to study complex amorphous solid-state systems. THz-TDS is a vibrational optical spectroscopy technique which can probe the intermolecular librations and vibrations of materials. Previous work has explored the use of THz-TDS in probing crystalline systems and amorphous small organic molecules, and uniquely this thesis focuses on studying amorphous macromolecular systems. In addition to contributing to the literature and increasing the understanding of the fundamental properties of amorphous macromolecular solid-state systems, this thesis provides a framework and methodology for assessing the stability of amorphous biological systems using THz-TDS. This thesis is organised as follows: Chapter 1 includes an introduction to terahertz spectroscopy and the theoretical framework relevant for understanding the behaviour of the biological systems investigated in the following chapters. Chapter 2 first provides a detailed explanation to THz-TDS data acquisition and analysis. Then, sample preparation methods for THz-TDS experiments are described and formulation fabrication is outlined. Finally, the methodologies used for each experiment conducted in this thesis are detailed. Chapter 3 introduces a qualitative physical interpretation of the dynamic motions of polymers that contribute to the β- and α-relaxation processes identified by THz-TDS and dynamic mechanical analysis data. These processes are then related to the combined contributions of temperature and free volume effects. Chapter 4 investigates the interactions between peptides and polymers at terahertz frequencies, with an emphasis on the molecular mobility behaviour leading to the glass transition temperature of lyophilised polymeric microspheres. Chapter 5 utilises THz-TDS to study the vibrational dynamic properties of lyophilised protein formulations complemented with Fourier-transform infrared (FTIR), circular dichroism (CD), and solid-state nuclear magnetic resonance (ssNMR) spectroscopy experiments to further investigate the structural changes observed for the formulations. Chapter 6 explores the extent to which THz-TDS can be used to track thermally induced conformational changes of spray-dried formulations. Extending this work, Chapter 7 examines a series of spray-dried formulations and connects the THz-TDS results to the trends observed in the storage stability study conducted for these formulations. Finally, Chapter 8 summarises the findings and contributions of this thesis and considers future experiments which would be interesting to perform as an extension of this work.

Description

Date

2019-11-14

Advisors

Zeitler, Jochen Axel

Keywords

terahertz spectroscopy, solid state, amorphous, macromolecules, polymers, peptides, microspheres, α‐ and β‐relaxation processes, glass transition temperature, local- and large-scale mobility, vibrational dynamics, pharmaceutical formulations, antibodies, stabilising matrix excipients, lyophilisation, spray drying, storage stability, degradation, aggregation, energy landscape

Qualification

Doctor of Philosophy (PhD)

Awarding Institution

University of Cambridge
Sponsorship
AstraZeneca UK Limited (MedImmune Limited) AJA-Ian Karten Charitable Trust AIA-Kenneth Lindsay Scholarship Trust