Add to ORKGThe silk fibres spun by insects and spiders have intrigued scientists for many years. Their mechanical performance is remarkable when one considers that the fibres are spun under ambient conditions from aqueous protein solutions without requiring many of the harsh processing conditions used in the production of man-made fibres. Yet, despite this interest, very little is known about the initial structure of the precursor proteins prior to spinning. One reason for this lies in the difficulty of handling the native proteins without accidental aggregation. Therefore in this thesis a novel sample preparation protocol for native silk is developed and small angle scattering (SAS) techniques are combined with circular dichroism (CD) and atomic forc...
Spider silk is an ideal material in material engineering and biomedical areas. Its remarkable streng...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Spider silk is a self-assembling biopolymer that outperforms most known materials in terms of its me...
Spider silks are biological protein polymers which are spun into fibers with an incredibly diverse r...
The foundations of silk spinning, the structure, storage, and activation of silk proteins, remain hi...
The foundations of silk spinning, the structure, storage, and activation of silk proteins, remain hi...
Spider silks are a biological protein polymer with an incredibly diverse range of mechanical propert...
The foundations of silk spinning, the structure, storage, and activation of silk proteins, remain hi...
Spider silk rivals the best synthetic materials in terms of strength and toughness. It is widely acc...
Silkworm silk fibers have been in use for over 5000 years in clothing and textiles. These fibers are...
This thesis investigates the mechanisms behind natural silk spinning by integrating rheol...
Spider silk has biocompatibility and biodegradability properties and is known for the mechanical, ph...
Honeybee silk is composed of four fibrous proteins that, unlike other silks, are readily synthesized...
Silk is a biopolymer spun by several arthropods. This fibre is made of protein arranged in a semi-cr...
Spiders spin their silk from an aqueous solution to a solid fiber in ambient conditions. However, to...
Spider silk is an ideal material in material engineering and biomedical areas. Its remarkable streng...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Spider silk is a self-assembling biopolymer that outperforms most known materials in terms of its me...
Spider silks are biological protein polymers which are spun into fibers with an incredibly diverse r...
The foundations of silk spinning, the structure, storage, and activation of silk proteins, remain hi...
The foundations of silk spinning, the structure, storage, and activation of silk proteins, remain hi...
Spider silks are a biological protein polymer with an incredibly diverse range of mechanical propert...
The foundations of silk spinning, the structure, storage, and activation of silk proteins, remain hi...
Spider silk rivals the best synthetic materials in terms of strength and toughness. It is widely acc...
Silkworm silk fibers have been in use for over 5000 years in clothing and textiles. These fibers are...
This thesis investigates the mechanisms behind natural silk spinning by integrating rheol...
Spider silk has biocompatibility and biodegradability properties and is known for the mechanical, ph...
Honeybee silk is composed of four fibrous proteins that, unlike other silks, are readily synthesized...
Silk is a biopolymer spun by several arthropods. This fibre is made of protein arranged in a semi-cr...
Spiders spin their silk from an aqueous solution to a solid fiber in ambient conditions. However, to...
Spider silk is an ideal material in material engineering and biomedical areas. Its remarkable streng...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Spider silk is a self-assembling biopolymer that outperforms most known materials in terms of its me...