323,956 research outputs found

    Furness, S E, NX50319

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/386573Surname: FURNESS. Given Name(s) or Initials: S E. Military Service Number or Last Known Location: NX50319. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 2158.208343 Item: [2016.0049.18866] "Furness, S E, NX50319

    Furness, William Carnegie, S-3455

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/386574Surname: FURNESS. Given Name(s) or Initials: WILLIAM CARNEGIE. Military Service Number or Last Known Location: S-3455. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 49592.208344 Item: [2016.0049.18867] "Furness, William Carnegie, S-3455

    Furness, R R, S-4637

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/386575Surname: FURNESS. Given Name(s) or Initials: R R. Military Service Number or Last Known Location: S-4637. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 1766.208345 Item: [2016.0049.18868] "Furness, R R, S-4637

    Furness, J H, 429111

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/386572Surname: FURNESS. Given Name(s) or Initials: J H. Military Service Number or Last Known Location: 429111. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 56270.208342 Item: [2016.0049.18865] "Furness, J H, 429111

    Dataset for Development of Analytical Techniques for Lithium-Sulfur Batteries

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    Dataset supports: Liam Michael Furness (2020) Thesis. Development of Analytical Techniques for Lithium-Sulfur Batteries. University of Southampton. The aim of this study is to develop analytical techniques that can be used to better understand the lithium-sulfur (Li-S) battery system. The first technique involves the determination of the total atomic sulfur content and the average polysulfide chain length of a polysulfide solution. These experiments elucidated the 2-phase boundaries and eutonic point, giving an accurate representation of the ternary (lithium sulfide-sulfur-electrolyte) phase diagram. The 2-phase boundary describes the maximum solubility of a polysulfide solution in contact with either solid lithium sulfide or solid sulfur. On the other hand, the eutonic point describes the maximum solubility of a polysulfide solution in contact with both solid lithium sulfide and solid sulfur, thus the concentration of polysulfide species at the eutonic point is the maximum that can be achieved. The saturation concentration of polysulfide species will depend on the nature of the solvent and the lithium salt, and these variables can be tuned to improve the Li-S battery performance. This was observed when increasing the electrolyte salt concentration which limited the polysulfide solubility and in turn improved the cyclability of the Li-S battery. Therefore, the composition of the ternary phase diagram can be implemented to explain changes in Li-S battery galvanostatic cycling performance. The second technique, electrochemical impedance spectroscopy, will give further insight to the Li-S battery system. This technique, initially developed from Lasia et al. to determine the electroactive surface area of catalysts, has been applied to the cathode formulations for Li-S batteries in this study.1 Starting with the impedance of the basic components in a Li-S battery to understand features on the Nyquist plot. The complexity of cell setup was increased until the impedance of a full Li-S battery was achieved. This method allows determination of the specific surface area of different Li-S battery cathode formulations whilst also studying how the specific surface area of an electrode changes during galvanostatic cycling. </span

    An evaluation of a Books on Prescription scheme in a UK public library authority

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    This article discusses an evaluation of a Books on Prescription (BOP) scheme in an anonymous UK public library authority which was conducted by the author and submitted as a dissertation for the MSc in Information and Library Management to Northumbria University. The dissertation was supervised by Biddy Casselden, Northumbria University, and was awarded a distinction. The dissertation made recommendations about BOP schemes which could make them more accessible, enabling vast numbers of people to lead more fulfilling lives

    Development of analytical techniques for lithium-sulfur batteries

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    The first technique involves the determination of the total atomic sulfur content and the average polysulfide chain length of a polysulfide solution. These experiments elucidated the 2-phase boundaries and eutonic point, giving an accurate representation of the ternary (lithium sulfide-sulfur-electrolyte) phase diagram. The 2-phase boundary describes the maximum solubility of a polysulfide solution in contact with either solid lithium sulfide or solid sulfur. On the other hand, the eutonic point describes the maximum solubility of a polysulfide solution in contact with both solid lithium sulfide and solid sulfur, thus the concentration of polysulfide species at the eutonic point is the maximum that can be achieved. The saturation concentration of polysulfide species will depend on the nature of the solvent and the lithium salt, and these variables can be tuned to improve the Li-S battery performance. This was observed when increasing the electrolyte salt concentration which limited the polysulfide solubility and in turn improved the cyclability of the Li-S battery. Therefore, the composition of the ternary phase diagram can be implemented to explain changes in Li-S battery galvanostatic cycling performance. The second technique, electrochemical impedance spectroscopy, will give further insight to the Li-S battery system. This technique, initially developed from Lasia et al. to determine the electroactive surface area of catalysts, has been applied to the cathode formulations for Li-S batteries in this study.1 Starting with the impedance of the basic components in a Li-S battery to understand features on the Nyquist plot. The complexity of cell setup was increased until the impedance of a full Li-S battery was achieved. This method allows determination of the specific surface area of different Li-S battery cathode formulations whilst also studying how the specific surface area of an electrode changes during galvanostatic cycling

    Diffusive author(s), cohesive author: Analysis of S/N (1994)

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    This study indicates the ways in which various aspects of the author(s) are brought forth in Dumb type’s performance art, the S/N production. Previous research has suggested a non-hierarchical organization of Dumb type and the absence of a “privileged author” in Dumb type’s collaborative work, S/N. However, the results that I have investigated from member’s interviews on the creative process of S/N along with my analysis of the recorded images of S/N, indicate a different aspect of the author(s). First, S/N was created through, so to speak, the collective ideas of the members of Dumb type. Further, S/N has at least nine quotations from previous performances, installations, and printed writings, besides the work-in-progress technique. Explicating one of the “author functions” as given by Michel Foucault, each text has plural subjects of the author. However, it has been revealed from members’ interviews that Teiji Furuhashi had a decision-making role in selecting the members’ ideas within the performance. Since then, S/N has had plural subjects of creation; however, Furuhashi is one of the subjects of creation along with the “privileged author.” S/N has plural authors (diffusive authors) yet at the same time, it has a “privileged author,” Teiji Furuhashi (cohesive author)

    View near Dalton-in-Furness

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    'VIEW near DALTON. Painted by F. Wheatly. Engraved by S. Middiman. Published as the Act directs, May 25. 1785, by S. Middiman, London.' Accompanied by notes
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