Sökning: "Silk"

Visar resultat 6 - 10 av 53 avhandlingar innehållade ordet Silk.

  1. 6. Silk Weaving in Sweden During the 19th Century : Textiles and texts - An evaluation of the source material

    Författare :Martin Ciszuk; Högskolan i Borås; []
    Nyckelord :HUMANIORA; HUMANITIES; HUMANIORA; HUMANITIES; Silk Weaving; Jacquard Loom; 19th Century Sweden; Object Based Research; Material Culture; Experience Based Knowledge.; textile history; K.A. Almgren Sidenväveri; Textiles and Fashion General ; Textil och mode generell ;

    Sammanfattning : Silk-weaving in Sweden during the 19th century. Textiles and texts - An evaluation of the source material. With the rich material available, 19th century silk-weaving invites to studies on industrialisation processes. LÄS MER

  3. 7. Dissertatio academica de Phalæna bombyce, quam, consent. experientiss. Fac. Med. in illustri ad Salam lycæo. Præside ... Dn. Doct. Carolo Linnæo, ... In audit. Carol. Maj. die IV Decemb. anni MDCCLVI. ... publicæ ventilationi offert ... Johannes Lyman, Laur. fil. Fierdhundrensis

    Författare :Carl von Linné; Johan Lyman; Carl von Linné; Uppsala universitet; []
    Nyckelord :Silk; Moraceae; Moraceae; Zoologi; Sverige; Silkesmaskodling; Silkesfjärilar; Mullbärsväxter;

    Sammanfattning : .... LÄS MER

  4. 8. Integrative structural biology of protein fibers: Spider silk and beta-lactoglobulin nanofibrils

    Författare :Danilo Hirabae De Oliveira; My Hedhammar; Christofer Lendel; Martin Humenik; KTH; []
    Nyckelord :NATURVETENSKAP; NATURAL SCIENCES; NATURVETENSKAP; NATURAL SCIENCES; NATURVETENSKAP; NATURAL SCIENCES; Spider Silk; Spidroin; fiber protein structure; amyloid-like fibers; Beta-lactoglobulin; Spindel silke; Spidroin; fiberproteinstruktur; amyloidliknande fibrer; Betalaktoglobulin; Biotechnology; Bioteknologi;

    Sammanfattning : Proteins found in nature offer a vast range of exceptional materials, including high-performancebiopolymers such as spider silks and whey protein nanofibrils. Fibrous proteins possess immensepotential for developing novel materials suited for various applications, such as medicalbiomaterials or industrial products. LÄS MER

  5. 9. Spider Silk Nanostructuring and its Applications for Tissue Engineering

    Författare :Linnea Gustafsson; Wouter van der Wijngaart; David Kaplan; KTH; []
    Nyckelord :NATURVETENSKAP; NATURAL SCIENCES; recombinant spider silk; nanostructures; microstrucutres; nanowires; nanochains; nanodisks; nanomembranes; tissue engineering; in-vitro models; medical technology; health technology; nanomedicine; rekombinant spindelsilke; nanostrukturer; mikrostrukturer; nanotrådar; nanokedjor; nanodiskar; nanomembran; vävnadsteknik; in vitro-modeller; medicinsk teknik; hälsoteknik; nanomedicin; Electrical Engineering; Elektro- och systemteknik;

    Sammanfattning : This thesis introduces new ways to produce micro-and nanostructures of recombinant spider silk and explores ways to characterize their topography, mechanical properties, cell compatibility, and permeability. The suitability of the formed structures for applications within tissue engineering, primarily in vitro tissue modeling, is also investigated. LÄS MER

  7. 10. Hierarchical Assembly Investigations and Multiscale Characterization of Protein-based Materials : Insights from Whey Protein Nanofibrils and Recombinant Spider Silk Microspheres

    Författare :Eirini Ornithopoulou; My Hedhammar; Thomas Crouzier; Christina Divne; Tim Melander Bowden; KTH; []
    Nyckelord :MEDICIN OCH HÄLSOVETENSKAP; MEDICAL AND HEALTH SCIENCES; Hierarchical Assembly; Protein-based materials; Whey Protein Nanofibrils; β-Lactoglobulin; Recombinant Spider Silk; Microspheres; Biomedical Applications; Surface Biofunctionalization; Hierarkisk montering; Proteinbaserade material; Vassleprotein nanofibriller; β-Laktoglobulin; Rekombinant spindelsilke Mikrosfärer; Biomedicinska tillämpningar; Ytbiokonjugering; Biotechnology; Bioteknologi;

    Sammanfattning : Protein-based materials, with their unique properties of combining high strength, while maintaining elasticity, and their inherent biocompatibility, hold immense potential for various applications. In order to harness these properties, we need to understand and control how protein building blocks come together to form hierarchically structured materials. LÄS MER