Add to ORKGNanoscale fibers of natural silks of Bombyx mori and Nephila clavipes were produced from solutions in hexafluoro-2-propanol. The electrospun fibers were observed by optical, scanning electron, and transmission electron microscopy. These nanofibers showed optical retardation, appeared to have a circular cross-section, and were thermally stable under nitrogen to 280 °C (N. clavipes) and to 245 °C (B. mori). The diameter of the fibers ranged from approximately 6.5–200 nm making them orders of magnitudes smaller than the natural silks spun by most silkworms and spiders. The smallest fiber diameters correspond to 200 molecules in the cross section of the N. clavipes fibers and 150 in B. mori. Electron diffraction patterns of annealed electrospun...
Spider silk exhibits a combination of outstanding tensile strength and extensibility unique among al...
The purpose of our research is creating a new nanocomposite material. Generally silk fibroin (SF) is...
The mechanical strength of spider silk is the highest among all natural fibers, and its flexibility ...
Silk from 3-molted, 4-molted and sex-limited Bombyx mori, Antheraea pernyi and Antheraea yamamai hav...
Silk fibroin, from Bombyx mori solutions were electrospun into nanofibers with circular and ribbon l...
Silk fibroin, from Bombyx mori solutions were electrospun into nanofibers with circular and ribbon-l...
Spider silk is an ideal material in material engineering and biomedical areas. Its remarkable streng...
Spider silk is a natural high-performance biopolymer with superior mechanical properties, resulting ...
Despite much interest in the extraordinary mechanical properties of silks, the structure of native s...
Spider silk rivals the best synthetic materials in terms of strength and toughness. It is widely acc...
Spider silk has biocompatibility and biodegradability properties and is known for the mechanical, ph...
Compared to silkworm silks, spider silks (SS) are considered stronger, most elastic, and tougher bio...
Electrospinning has been very interesting for the recent years and is used since 1994. Today, contin...
Silk fibroin (SF) nanofibers, formed through electrospinning, have attractive utility in regenerativ...
The cocoon filaments and degummed fibers of CSR2 x CSR4 (Bivoltine hybrid) and PM x CSR2 (Multivolti...
Spider silk exhibits a combination of outstanding tensile strength and extensibility unique among al...
The purpose of our research is creating a new nanocomposite material. Generally silk fibroin (SF) is...
The mechanical strength of spider silk is the highest among all natural fibers, and its flexibility ...
Silk from 3-molted, 4-molted and sex-limited Bombyx mori, Antheraea pernyi and Antheraea yamamai hav...
Silk fibroin, from Bombyx mori solutions were electrospun into nanofibers with circular and ribbon l...
Silk fibroin, from Bombyx mori solutions were electrospun into nanofibers with circular and ribbon-l...
Spider silk is an ideal material in material engineering and biomedical areas. Its remarkable streng...
Spider silk is a natural high-performance biopolymer with superior mechanical properties, resulting ...
Despite much interest in the extraordinary mechanical properties of silks, the structure of native s...
Spider silk rivals the best synthetic materials in terms of strength and toughness. It is widely acc...
Spider silk has biocompatibility and biodegradability properties and is known for the mechanical, ph...
Compared to silkworm silks, spider silks (SS) are considered stronger, most elastic, and tougher bio...
Electrospinning has been very interesting for the recent years and is used since 1994. Today, contin...
Silk fibroin (SF) nanofibers, formed through electrospinning, have attractive utility in regenerativ...
The cocoon filaments and degummed fibers of CSR2 x CSR4 (Bivoltine hybrid) and PM x CSR2 (Multivolti...
Spider silk exhibits a combination of outstanding tensile strength and extensibility unique among al...
The purpose of our research is creating a new nanocomposite material. Generally silk fibroin (SF) is...
The mechanical strength of spider silk is the highest among all natural fibers, and its flexibility ...