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Coming dissertations at Uppsala university

  • Essays on Aesthetic Cognitivism Author: Jeremy Page Link: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-539873 Publication date: 2024-10-31 13:48

    This thesis consists of four essays on aesthetic cognitivism. Aesthetic cognitivism says that artworks can have significant cognitive value and that the arts constitute a significant body of understanding. This thesis formulates and defends aesthetic cognitivist positions on central debates in philosophical aesthetics and works towards a comprehensive aesthetic cognitivist account of our aesthetic practices.

    In essay one, ‘Aesthetic Communication’, I defend the view that the purpose of a central form of aesthetic communication is sharing an aesthetic understanding of the distinctive aesthetic character and value of artworks (and inculcating this aesthetic understanding in others). I argue for this view by setting out a novel account of the nature of aesthetic communication and of the criteria of communicative success in aesthetics.

    In essay two, ‘Aesthetic Cognitivism and Aesthetic Normativity’, I set out an aesthetic cognitivist answer to three normative questions. Why appreciate artworks? What does appreciation aim at? Which artworks is there weightiest reason to appreciate? Aesthetic cognitivism says that there is weightiest reason to appreciate artworks that are aesthetically valuable in virtue of the rich perspectives they bear to their subject matters. It says that the appreciation of these artworks aims at the sensitive exploration of their distinctive aesthetic value (i.e., of the rich perspectives they bear). It says there is reason to appreciate these artworks because they are aesthetically valuable. 

    In essay three, ‘The End of Pleasure in Aesthetics: Aesthetic Cognitivism Revived’, I argue for an aesthetic cognitivist account of what it is to be responsive to aesthetic value. I argue that aesthetic responsiveness consists in a motivationally self-sustaining cognitive exploration of the distinctive aesthetic value of an artwork. I contrast my account with a pleasure theoretic account.

    In essay four, ‘Artistic Honesty’, I describe how honesty serves as a standard that guides and governs the creative process and provide an account of the property we attribute to artworks when we judge them to be honest. I argue that for an artwork to be honest is for it to confront a truth that it is epistemically and/or emotionally difficult for us to confront (individually and as a community).  

  • Contrast agent needle priming : Impact on sonographic needle visibility and potential for CT biopsy site confirmation Author: Per Thunswärd Link: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-539719 Publication date: 2024-10-31 10:33

    Needle visualization in ultrasound-guided procedures can be challenging, particularly in contrast-specific imaging-mode. While diagnostic accuracy during CT-guided transthoracic lung biopsies is generally high, non-diagnostic results still occur and could potentially be reduced through image-based confirmation of whether the target was hit as intended. Two needle priming applications aimed at addressing these challenges were evaluated: (1) using the ultrasound contrast agent (USCA) sulfur hexafluoride to enhance needle visibility during ultrasound-guided procedures, and (2) using iodine contrast media to confirm biopsy locations during CT-guided procedures. 

    Paper I: Fine needles and separable core biopsy needles were primed with USCA. Punctures were performed in butchered bovine liver and a water bath model, followed by an evaluation of needle visibility. Results were mixed in B-mode, while USCA priming consistently improved needle visibility in contrast-specific imaging-mode for core biopsy needles but not for fine needles.

    Paper II: Core biopsy needles of the side-notch type (used with reusable instruments) were primed with two different concentrations of iodine contrast media using a membrane device. In CT-guided biopsies with these primed needles, high-attenuation traces at biopsy sites were successfully created in a blood pudding phantom model, with superior results at the higher contrast agent concentration.

    Paper III: USCA priming was performed using a 1 mL syringe on difficult-to-separate and non-separable core biopsy needles, as well as coaxial introducer needles. Needle visibility was evaluated in a water bath model. USCA priming, almost without exception, enhanced visibility in contrast-specific imaging-mode.

    Paper IV: Non-separable core biopsy needles were primed as in Paper III and evaluated in an in vivo porcine model. USCA priming, with few exceptions, improved needle visibility in contrast-specific imaging-mode but slightly worsened it in B-mode. 

    These findings support the clinical use of USCA needle priming for ultrasound-guided core biopsy procedures performed in contrast-specific imaging-mode where needle visibility is limited. However, the results do not support its use in B-mode. Iodine contrast agent needle priming showed promise for confirming biopsy locations during CT-guided procedures, but further in vivo validation is required. The method’s clinical value is, however, uncertain, as newer, lighter full-core biopsy guns seem to offer a simpler solution.

  • Probing the Gaseous Phase in Batteries : Big and Small Author: Casimir Misiewicz Link: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-539865 Publication date: 2024-10-31 08:17

    Rechargeable alkali batteries (RABs) are a key technology for alleviating global energy demands, operating via reversible electrochemical reactions at the positive electrode (cathode) and negative electrode (anode). Current state-of-the-art lithium-ion batteries (LIBs) achieve a high coulombic efficiency (CE) of more than 99.98%, meaning only 0.02% of reactions are undesired, known as side reactions. This high CE is partly due to the presence of a passivating layer at the anode known as the solid electrolyte interphase (SEI) that protects the electrolyte from being reductively decomposed. However, there are still unwanted side reactions occurring at the cathode that cause long term capacity fade. This thesis presents the development and application of advanced methodologies for studying degradation processes at the cathode across various battery types. The operando gas analysis technique known as Online Electrochemical Mass Spectrometry (OEMS) was used throughout the thesis. Three variants of OEMS are explored: purging OEMS (POEMS), closed leak OEMS (CLEMS) and intermittently closed OEMS (ICEMS) of which the latter was developed in this work. A means of interfacing large-format prismatic and cylindrical cells with ICEMS & CLEMS was additionally developed, enabling the investigation of gas evolution in commercially relevant cells. POEMS was primarily used to study laboratory scale model systems. Four cathode materials (CAMs) are studied: two state-of-the-art (lithium nickel cobalt aluminium oxide, NCA, and lithium nickel manganese cobalt oxide, NMC) and two next-generation (sodium (II) hexacyanoferrate (Prussian White, PW) and lithium nickel manganese oxide, LNMO). Each CAM exhibited distinct degradation behaviours, with NMC, NCA and PW suffering from structural degradation and LNMO from electrolyte oxidation. It was found that the lattice oxygen release from NMC and NCA (which reacts with the electrolyte forming CO2) affects commercial cells. An analogous process was observed in PW, where reconstruction at the surface resulted in CN ligand release at high potentials, which react with the electrolyte forming both CO2 and (CN)2. A comprehensive reaction pathway for electrolyte decomposition on LNMO positive electrodes was proposed, highlighting how oxidation products (namely protons) autocatalyze decomposition of multiple components in the electrode. Additionally, strategies to mitigate these processes were explored; including forced surface reconstruction on PW, Ta-doping in NMC, and use of cathode electrolyte interphase (CEI) forming additives on LNMO. Furthermore, a novel method for screening for effective CEI forming additives was developed using POEMS. These findings highlight the versatility of OEMS as a powerful tool for understanding and mitigating degradation in RABs.

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