9,455 research outputs found

    Emerging viral infections in vulnerable populations:Epidemiology and mathematical modeling

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    Blending of Alberta Oilsands Asphaltene (AOA) with Polymers for Manufacturing of Carbon Fibres

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    Carbon fibres (CFs), characterized by a carbon content of 90 wt.% or above, derived from polymeric precursors, have garnered considerable interest since their discovery by Shindo in 1961. Their unique properties have led to widespread applications in sectors such as energy, aerospace, medical, and sports, where lightweight structures with excellent mechanical attributes are essential. Anticipated growth in demand for CFs over the next five years underscores the need for a substantial reduction in manufacturing costs. Currently, the main precursors for carbon fibre (CF) production are poly(acrylonitrile) (PAN), pitch, and cellulose. However, the substantial costs associated with these raw materials and production methods present significant challenges. Alberta oilsands asphaltene (AOA), the heaviest fraction of Alberta Oilsands Bitumen, stands out as a promising alternative precursor. It is estimated to be one to two orders of magnitude less expensive than PAN, and it possesses favorable attributes such as high carbon content, high aromaticity, and abundant reserves. Despite these economic advantages, the brittleness of AOA limits its processing capabilities, impeding the widespread utilization of CFs derived from AOA. Polymer blending proves to be an effective method for enhancing the physical and chemical properties of polymer materials. This process enhances the melt spinnability of polymers, resulting in improved manufacturing efficiency and enhanced mechanical performance. The effects of polymer blending on the spinnability of AOA, subsequent post-treatment processes, and the ultimate properties of carbon fibres remain poorly. Investigating the behaviors of AOA with and without polymer additives is crucial, as it can provide meaningful insights for the manufacturing of carbon fibres derived from AOA. The manufacturing process for CFs involves melting precursors and processing them into spun fibres, followed by post-treatment processes like stabilization, carbonization, and graphitization. Stabilization process accounts for the most cost and determine the properties of the final carbon fibre products. Better and more efficient stabilization processes account for better performance of carbon fibres. The conditions to stabilize and carbonize AOA fibres, behaviors, and mechanism of the post-treatment remain unclear. This research focuses on the potential of AOA as a CF precursor, emphasizing (1) preprocessing AOA feedstocks, (2) modifying AOA using polymer additives, (3) designing a melt spinning process for AOA fibres, and (4) employing conventional thermal treatment for post-treatment including stabilization and carbonization processes. Solvent preprocessing and strategic additive use aim to enhance the viscosity and spinnability of AOA. Polystyrene and poly(styrene-butadiene-styrene) are employed and compared as polymer additives for blending with asphaltene, with the anticipation of enhancing the performance of AOA. Melt spinning is proposed for preparing fibres tailored for various applications. Melt spinning system, including extruder, melt pump, and godets, are designed for processing asphaltene sample. Thermal post-treatment, including stabilization and carbonization processes, were performed for stabilizing and carbonizing AOA fibres with or without polymer additives

    Precision Surface Processing and Software Modelling Using Shear-Thickening Polishing Slurries

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    Mid-spatial frequency surface error is a known manufacturing defect for aspherical and freeform precision surfaces. These surface ripples decrease imaging contrast and system signal-to-noise ratio. Existing sub-aperture polishing techniques are limited in their abilities to smooth mid-spatial frequency errors. Shear-thickening slurries have been hypothesised to reduce mid-spatial frequency errors on precision optical surfaces by increasing the viscosity at the tool-part interface. Currently, controlling the generation and mitigating existing mid-spatial frequency surface errors for aspherical and freeform surfaces requires extensive setup and the experience of seasoned workers. This thesis reports on the experimental trials of shear-thickening polishing slurries on glass surfaces. By incorporating shear-thickening slurries with the precessed bonnet technology, the aim is to enhance the ability of the precessions technology in mitigating mid-spatial frequency errors. The findings could facilitate a more streamlined manufacturing chain for precision optics for the versatile precessions technology from form correction and texture improvement, to MSF mitigation, without needing to rely on other polishing technologies. Such improvement on the existing bonnet polishing would provide a vital steppingstone towards building a fully autonomous manufacturing cell in a market of continual economic growth. The experiments in this thesis analysed the capabilities of two shear-thickening slurry systems: (1) polyethylene glycol with silica nanoparticle suspension, and (2) water and cornstarch suspension. Both slurry systems demonstrated the ability at mitigating existing surface ripples. Looking at power spectral density graphs, polyethylene glycol slurries reduced the power of the mid-spatial frequencies by ~50% and cornstarch suspension slurries by 60-90%. Experiments of a novel polishing approach are also reported in this thesis to rotate a precessed bonnet at a predetermined working distance above the workpiece surface. The rapidly rotating tool draws in the shear-thickening slurry through the gap to stiffen the fluid for polishing. This technique demonstrated material removal capabilities using cornstarch suspension slurries at a working distance of 1.0-1.5mm. The volumetric removal rate from this process is ~5% of that of contact bonnet polishing, so this aligns more as a finishing process. This polishing technique was given the term rheological bonnet finishing. The rheological properties of cornstarch suspension slurries were tested using a rheometer and modelled through CFD simulation. Using the empirical rheological data, polishing simulations of the rheological bonnet finishing process were modelled in Ansys to analyse the effects of various input parameters such as working distance, tool headspeed, precess angle, and slurry viscosity

    Emerging viral infections in vulnerable populations:Epidemiology and mathematical modeling

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    Surface-Enhanced Coherent Raman scattering (SE-CRS) with Noble Metal Nanoparticles

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    Early cancer detection remains challenging due to numerous complex tempo-spatial metabolic changes in cell physiology. Based on their ability to recognise molecular structures and pathological changes at molecular levels, spectroscopic have recently emerged as promising non-invasive, non-ionising, and cost-efficient tools to help detect cancer, and other human pathologies. Raman spectroscopy is a valuable technique that provides information regarding the chemical properties of materials. Nevertheless, it has limitations due to the limited amount of Raman light scattered. Strategies for cancer diagnostics and therapies are based on the hypothesis that nanoparticles (NPs) can be precisely tailored to target cancer cells. However, the tools required to image NPs at cellular levels remain scarce in the literature. The work outlined in this thesis, for the first time, utilises noble metal NPs and Raman reporters, with the mechanisms of surface enhanced Raman scattering (SERS) and coherent anti-Stokes Raman scattering (CARS), in cancer cells and tumour spheroids to address the demerits of low spatial resolution, signal-to-noise ratio, and chemical specificity. SERS and CARS have broadly been explored in this regard. To increase the effectiveness of Raman scattering, a variety of techniques have been devised to boost its intensity. Primarily, I studied four techniques to increase Raman scattering intensity with the ultimate objective of improving sensitivity and assessing limits of various Raman methods: SERS, surface-enhanced coherent anti-Stokes Raman scattering (SE-CARS), surface-enhanced stimulated Raman scattering (SE-SRS), and broadband coherent anti-Stokes Raman scattering (BCARS). Coherent Raman scattering (CRS) is utilised to enhance weak Raman bands. The signal is enhanced by nonlinear interaction of the excitation lasers within the sample. Despite the advantages offered over Raman, CRS has been relatively unexploited for image Raman tagged NPs. This challenge has recently been addressed using surface plasmon enhancement, which gives significantly enhanced inelastic scattering signals as well as reduced signal-to-noise ratio. Surface-enhanced coherent Raman scattering (SE-CRS) has been characterised by using a variety of techniques such as SERS, CARS, and SE-CARS. This work provides a step forward to develop plasmon enhanced SRS and CARS in addressing critical biological questions using nonlinear bio-photonics. In the first part of this thesis, I developed a reproducible substrate that mimics gold nanoparticles (AuNPs) and allows forward detection which is critical for CRS. I investigated the effects of annealing on gold films deposited on glass substrates with thicknesses from 3 nm to 15 nm as described in depth in chapter 5. In addition to this, it provides an explanation of the work that was performed to explore the interaction between Raman tags BPT (biphenyl-4-thiol), BPE trans-1,2-bis(4-pyridyl) ethylene, and IR 820 (new indocyanine green) on gold films substrates using 785 nm laser excitation. In the second part of this thesis, I investigated the interactions between Raman tags of BPT on gold films substrates using CRS and broadband CARS techniques. These experiments also offer the SE-CRS enhancement signal. The research done to examine gold thin film substrates and to offer SE-SRS and SE-CARS enhancement signals in the fingerprint region as described in chapter 6. Using CRS microscopy, the investigations in this chapter study these interactions. In the third part of this thesis, I developed a novel imaging methodology for the visualisation of AuNPs inside cellular structures and spheroids, with the intention of acquiring distinct spectroscopic fingerprints. Consequently, I undertook the task of devising protocols for visualising AuNPs and Raman reporter molecules within cancer cell models, spheroids, and animal tissues as described in chapter 7. The aim was to attain distinctive spectroscopic profiles by employing the SE-CRS technique, achieved by illuminating AuNPs along with Raman reporter molecules (BPT, BPE, IR 820) using low intensity infrared light, with both the pump and Stokes beams operating at intensities below 0.2 mW. In summary, this thesis sheds light on the development of surface plasmon resonance phenomena based on metallic nanostructures for use in nonlinear inelastic scattering systems, including surface-enhanced Raman scattering (SERS), coherent Raman scattering (CRS), and surface-enhanced coherent Raman scattering (SE- CRS). The primary focus is to use this system for disease diagnostics, rooted in SERS, reflects a commitment to advancing cancer diagnostics, based on SERS thereby enhancing the precision and discrimination of molecular signals, making a significant stride towards more effective and nuanced cancer diagnostics

    Minimal information for studies of extracellular vesicles (MISEV2023): From basic to advanced approaches

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    Extracellular vesicles (EVs), through their complex cargo, can reflect the state of their cell of origin and change the functions and phenotypes of other cells. These features indicate strong biomarker and therapeutic potential and have generated broad interest, as evidenced by the steady year-on-year increase in the numbers of scientific publications about EVs. Important advances have been made in EV metrology and in understanding and applying EV biology. However, hurdles remain to realising the potential of EVs in domains ranging from basic biology to clinical applications due to challenges in EV nomenclature, separation from non-vesicular extracellular particles, characterisation and functional studies. To address the challenges and opportunities in this rapidly evolving field, the International Society for Extracellular Vesicles (ISEV) updates its 'Minimal Information for Studies of Extracellular Vesicles', which was first published in 2014 and then in 2018 as MISEV2014 and MISEV2018, respectively. The goal of the current document, MISEV2023, is to provide researchers with an updated snapshot of available approaches and their advantages and limitations for production, separation and characterisation of EVs from multiple sources, including cell culture, body fluids and solid tissues. In addition to presenting the latest state of the art in basic principles of EV research, this document also covers advanced techniques and approaches that are currently expanding the boundaries of the field. MISEV2023 also includes new sections on EV release and uptake and a brief discussion of in vivo approaches to study EVs. Compiling feedback from ISEV expert task forces and more than 1000 researchers, this document conveys the current state of EV research to facilitate robust scientific discoveries and move the field forward even more rapidly

    Functional Nanomaterials and Polymer Nanocomposites: Current Uses and Potential Applications

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    This book covers a broad range of subjects, from smart nanoparticles and polymer nanocomposite synthesis and the study of their fundamental properties to the fabrication and characterization of devices and emerging technologies with smart nanoparticles and polymer integration

    Temperature Reduction Technologies Meet Asphalt Pavement: Green and Sustainability

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    This Special Issue, "Temperature Reduction Technologies Meet Asphalt Pavement: Green and Sustainability", covers various subjects related to advanced temperature reduction technologies in bituminous materials. It can help civil engineers and material scientists better identify underlying views for sustainable pavement constructions

    Synthesis of multifunctional glyco-pseudodendrimers and glyco-dendrimers and their investigation as anti-Alzheimer agents

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    As the world population is aging, the cases of Alzheimer’s Disease (AD) are increasing. AD is a disorder of the brain which is characterized by the aggregation of amyloid beta (Aβ) plaques. This leads to the death of numerous brain cells thus affecting the cognitive and motor functions of the individual. Till date, no cure for the disease is available. Aβ are peptides with 40/42 amino acid residues but, their exact mechanism(s) of action in AD is under debate. Having different amino acid residues makes them susceptible to form hydrogen bonds. Dendrimers with sugar units are often referred to as glycopolymers and have been shown to have potential anti-amyloidogenic activity. However, they also have drawbacks, the synthesis involves multiple tedious steps, and dendrimers themselves offer only a limited number of functional units. Pseudodendrimers are another class of branched polymers based on hyperbranched polymers. Unlike the dendrimers, they are easy to synthesize with a dense shell of functional units on the surface. One of the main goals in this dissertation is the synthesis and characterization of pseudodendrimers and dendrimers based on 2,2-bis(hydroxymethyl)-propionic acid (bis-MPA), an aliphatic polyester scaffold, as it offers biocompatibility and easy degradability. Furthermore, they are decorated with mannose units on the surface using a ‘click’ reaction forming glyco-pseudodendrimers and glyco-dendrimers. A detailed characterization of their structures and physical properties was undertaken using techniques such as size exclusion chromatography, asymmetric flow field flow fractionation (AF4), and dynamic light scattering. The second main focus of this work has been to investigate the interaction of synthesized glyco-pseudodendrimers and glyco-dendrimers with Aβ 40 peptides. For this task, five different concentrations of the synthesized glycopolymers were tested with Aβ 40 using the Thioflavin T assay. The results of the synthesized polymers which produced the best results of showing maximum anti-aggregation behavior against Aβ 40 were confirmed with circular dichroism spectroscopy. AF4 was also used to investigate Aβ 40-glycopolymer aggregates, which has never been done before and constitutes the highlight of this dissertation. Atomic force microscopy was used to image Aβ 40-glycopseudodenrimer aggregates. A basic but important step in the development of drug delivery platforms is to evaluate the toxicity of the drugs synthesized. In this work, preliminary studies of the cytotoxicity of glyco-pseudodendrimers were performed in two different cell lines. Thus, this study comprises a preliminary investigation of the anti-amyloidogenic activity of glyco-pseudodendrimers synthesized on an aliphatic polyester backbone.:Abstract List of Tables List of Figures Abbreviations 1 Introduction 1.1 Objectives of the work 1.2 Thesis overview 2 Fundamentals and Literature 2.1 Alzheimer’s Disease and its impact 2.1.1 Neurological diagnosis of AD 2.1.2 Histopathology of AD 2.1.3 Amyloid precursor protein (APP) and its role in AD 2.2. Amyloid Beta (Aβ) peptide 2.2.1 Aβ peptide 2.2.2. Location and function 2.2.3 Amyloid hypothesis 2.2.4 The mechanism of Aβ aggregation 2.2.5 Amyloid fibrils 2.2.6 Toxicity of Aβ 2.3 Research methods to study Aβ aggregates 2.3.1 Models to study the mode of action of aggregates 2.3.2 Endogenous Aβ aggregates and synthetic aggregates 2.3.3 Strategies to alter aggregation of amyloids 2.4 Treatment and therapeutics 2.4.1 Current therapeutics 2.4.2 Current therapeutic research 2.4.2.1 Reduction of Aβ production 2.4.2.2 Reduction of Aβ plaque accumulation 2.4.2.2.1 Anti-amyloid aggregation agents 2.4.2.2.2 Metals 2.4.2.2.3 Immunotherapy 2.4.2.2.4 Dendrimers as potential anti-amyloidogenic agent 2.6 Dendrimers 2.6.1 Definition 2.6.2 Structure Table of Contents 2.6.3 Synthesis 2.6.4 Properties 2.7 Pseudodendrimers - a sub-class of hyperbranched polymer 2.7.1 Definition 2.7.2 Structure 2.7.3 Synthesis 3 Analytical Techniques 3.1 Size Exclusion Chromatography Coupled to Light Scattering (SEC-MALS) 3.2 Asymmetric Flow Field Flow Fractionation (AF4) 3.3 Dynamic Light Scattering 3.4 Molecular Dynamics Simulation 3.5 Nuclear Magnetic Resonance Spectroscopy 3.6 Thioflavin T fluorescence 3.6.1 Kinetic analysis 3.7 Circular Dichroism Spectroscopy 3.8 Atomic Force Microscopy 3.9 Cytotoxic assay 3.9.1 MTT assay 3.9.2 Determining the level of reactive oxygen species 3.9.3 Changes in mitochondrial transmembrane potential 3.9.4 Flow cytometric detection of phosphatidyl serine exposure 4 Experimental Details and Methodology 4.1 Details of chemicals/components used 4.1.1 Other materials 4.1.2 Peptide preparation 4.1.3 Buffer preparation 4.1.4 Fibril growth conditions 4.2 Synthesis and characterization of polymers 4.2.1 Synthesis and characterization of pseudodendrimers and dendrimers 4.2.1.1 Synthesis of hyperbranched polymer (1) 4.2.1.2 Synthesis of protected monomer 4.2.1.2.1 bis-MPA acetonide (2) 4.2.1.2.2 bis-MPA-acetonide anhydride (3) 4.2.1.3 Synthesis of protected pseudodendrimers (4, 6 and 8) and protected dendrimers (10, 12, and 14) 4.2.1.4 Deprotection of pseudodendrimers (5,7, and 9) and dendrimers (11,13 and 15) 4.2.2 Synthesis of glyco-pseudodendrimers and glyco-dendrimers 4.2.2.1 Pentynoic anhydride (16) 4.2.2.2 Synthesis of pentinate modified pseudodendrimers (17, 18 and 19) and dendrimers (20, 21 and 22) 4.2.2.3 3-Azido-1-propanol (23) 4.2.2.4 Mannose propyl azide tetraacetate (24) Table of Contents 4.2.2.5 Mannosepropylazide (25) 4.2.2.6 Glyco-pseudodendrimers (Gl-P) (26, 27 and 28) and glyco- dendrimers (Gl-D) (29, 30 and 31) 4.3 Analytical techniques and their general details 4.3.1 SEC-MALS - Instrumentation, software and analysis 4.3.2 AF4 - Instrumentation, software and analysis 4.3.2.1 Sample preparation 4.3.2.2 Method development for analysis of Gl-P and Gl-D 4.3.2.3 Method development for analysis of Aβ 40 and its interaction with Gl-P and Gl-D 4.3.3 Batch DLS - Instrumentation, software and analysis 4.3.3.1 Sample preparation 4.3.4 Theoretical calculations and molecular dynamics simulations 4.3.4.1 Ab-initio calculations 4.3.4.2 Modelling of the polymer structures 4.3.4.2.1 Pseudodendrimers 4.3.4.2.2 Dendrimers 4.3.4.2.3 Modification of the polymers with special end groups 4.3.4.2.4 Preparing of the THF solvent box 4.3.4.2.5 Solvation of the polymer structures 4.3.4.3 Molecular dynamics simulations 4.3.4.3.1 Evaluation of the simulation trajectories 4.4 Investigation of interaction of Gl-P and Gl-D with amyloid beta (Aβ 40) 4.4.1 ThT Assay - Instrumentation and software 4.4.1.1 Sample preparation 4.4.1.2 Kinetics based on ThT assay- software and data analysis 4.4.2 CD spectroscopy - Instrumentation and software 4.4.2.1 Sample preparation 4.4.3 AFM - Instrumentation and software 4.4.3.1 Substrate and sample preparation 4.4.3.2 Height determination and counting procedures 4.4.3.3 Topography and diameter 4.5 Cytotoxicity 4.5.1 Zeta potential 4.5.2 Cell culturing 4.5.3 Sample preparation 4.5.4 MTT assay 4.5.5 Changes in mitochondrial transmembrane potential (JC-1 method) 4.5.6 Flow cytometric detection of phosphatidyl serine exposure (Annexin V and PI method) 5 Results and Discussion 5.1 Synthesis and characterization of glyco-pseudodendrimers and glyco- dendrimers 5.1.1 Synthesis and characterization of hyperbranched polyester Table of Contents 5.1.2 Synthesis and characterization of pseudodendrimers P-G1-OH, P-G2-OH and P-G3-OH 5.1.3 Synthesis and characterization of dendrimers D-G4-OH, D-G5-OH and D-G6-OH 5.1.4 Synthesis and characterization of Gl-P and Gl-D 5.1.4.1 Molecular size determination of Gl-P and Gl-D using SEC 5.1.4.2 Particle size determination using batch DLS 5.1.4.3 Apparent densities 5.1.4.4 Molecular size determination of Gl-P and Gl-D using AF4 ..... 5.1.5 Molecular dynamics simulation 5.2 Investigation of interaction of Gl-P and Gl-D with amyloid beta (Aβ 40) ...... 5.2.1 ThT Assay 5.2.1.1 Kinetics based on ThT assay 5.2.2 CD spectroscopy 5.2.3 Time dependent AF4 5.3.2.1 Separation of Aβ 40 by AF4 5.3.2.2 Aβ 40 amyloid aggregation in the presence of Gl-P and Gl-D 5.2.4 AFM 5.2.4.1 Height 5.2.4.2 Topography and diameter 5.2.4.3 Length 5.2.4.4 Morphology 5.2.5 Cytotoxicity 5.2.5.1 MTT assay 5.2.5.2 Changes in mitochondrial transmembrane potential 5.2.5.3 Flow cytometric detection of phosphatidyl serine exposure 6 Conclusions and Outlook 7 Bibliography Appendix Acknowledgement

    The 2023 terahertz science and technology roadmap

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    Terahertz (THz) radiation encompasses a wide spectral range within the electromagnetic spectrum that extends from microwaves to the far infrared (100 GHz–∼30 THz). Within its frequency boundaries exist a broad variety of scientific disciplines that have presented, and continue to present, technical challenges to researchers. During the past 50 years, for instance, the demands of the scientific community have substantially evolved and with a need for advanced instrumentation to support radio astronomy, Earth observation, weather forecasting, security imaging, telecommunications, non-destructive device testing and much more. Furthermore, applications have required an emergence of technology from the laboratory environment to production-scale supply and in-the-field deployments ranging from harsh ground-based locations to deep space. In addressing these requirements, the research and development community has advanced related technology and bridged the transition between electronics and photonics that high frequency operation demands. The multidisciplinary nature of THz work was our stimulus for creating the 2017 THz Science and Technology Roadmap (Dhillon et al 2017 J. Phys. D: Appl. Phys. 50 043001). As one might envisage, though, there remains much to explore both scientifically and technically and the field has continued to develop and expand rapidly. It is timely, therefore, to revise our previous roadmap and in this 2023 version we both provide an update on key developments in established technical areas that have important scientific and public benefit, and highlight new and emerging areas that show particular promise. The developments that we describe thus span from fundamental scientific research, such as THz astronomy and the emergent area of THz quantum optics, to highly applied and commercially and societally impactful subjects that include 6G THz communications, medical imaging, and climate monitoring and prediction. Our Roadmap vision draws upon the expertise and perspective of multiple international specialists that together provide an overview of past developments and the likely challenges facing the field of THz science and technology in future decades. The document is written in a form that is accessible to policy makers who wish to gain an overview of the current state of the THz art, and for the non-specialist and curious who wish to understand available technology and challenges. A such, our experts deliver a 'snapshot' introduction to the current status of the field and provide suggestions for exciting future technical development directions. Ultimately, we intend the Roadmap to portray the advantages and benefits of the THz domain and to stimulate further exploration of the field in support of scientific research and commercial realisation
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