The strongest fibres have their roots in wood
physicsworld.com,
Assembly of nanostructured CNF fibers. Credit: ACS Nano doi.org/10.1021/acsnano.8b01084 Lightweight strong materials that can…
Assembly of nanostructured CNF fibers. Credit: ACS Nano doi.org/10.1021/acsnano.8b01084 Lightweight strong materials that can…
Nanoscale fibers boast impressive mechanical properties often exceeding those of their bulk companions.
Katharine Gammon, C
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Stockholm, Sweden (Scicasts) — Researchers at KTH have produced a bio-based material that is reported to surpass the strength…
Stockholm, Sweden (Scicasts) — Researchers at KTH have produced a bio-based material that is reported to surpass the strength…
Startseite Technik Forschung Am Hamburger Teilchenbeschleuniger DESY hat ein Forscherteam jetzt das stärkste Biomaterial…
26 maggio 2018 - Bianca Vicelli - Stampa Una ricerca congiunta Usa-Svezia ha portato alla realizzazione di un nuovo tipo di nano…
May 24 2018 In an attempt to create stronger fabrication materials, scientists have been focusing on nanoscale structures found…
When it comes to materials, there is no question as to who wins the strongman competition.
An international team of researchers has developed a new biodegradable material which is stronger than steel and even than…
Se ha conseguido producir un biomaterial más fuerte que cualquier otro conocido.
The challenge of producing a bio-based material that can compete with the strength spider dragline silk has since long been…
Wissenschafter haben am Hamburger Forschungszentrum Desy das stärkste Biomaterial hergestellt, das je produziert worden ist.
17.05.2018 An DESYs Röntgenlichtquelle PETRA III hat ein Forscherteam unter schwedischer Führung das stärkste Biomaterial…
Credit: Pixabay. When it comes to materials, there is no question as to who wins the strongman competition.
Leicht, umweltfreundlich und extrem belastbar: Forscher haben einen Faden aus Biomaterial entwickelt, der selbst Stahl alt…
Wissen Donnerstag, 17. Mai 2018 Sie sind kaum sichtbar und dennoch Rekordhalter: Die von Forschern hergestellten Fäden aus…
A way to artificially assemble nanocellulose (particles) from wood to make biomimetic materials that surpass the strength of…
At DESY's X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-material that has ever…
At DESY's X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-material that has ever…
News 16.05.2018 Drucken Fester als Stahl und Spinnenseide Wie überträgt man die überlegenen Eigenschaften von Nanostrukturen in…
Spinnenfäden galten als das stabilste biologisch abbaubare Material überhaupt. Bis jetzt.
At DESY's X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-material that has ever…
Hamburg (dpa) - Wissenschaftler haben am Hamburger Forschungszentrum Desy das stärkste Biomaterial hergestellt, das je…
At DESY's X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-material that has ever…
( Nanowerk News ) At DESY's X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-materi…
Wissenschaftler haben am Hamburger Forschungszentrum Desy das stärkste Biomaterial hergestellt, das je produziert worden ist.
Stand: 15:16 Uhr | Lesedauer: 2 Minuten Hamburg (dpa) - Wissenschaftler haben am Hamburger Forschungszentrum Desy das stärkste…
Wissenschaftler haben am Hamburger Forschungszentrum Desy das stärkste Biomaterial hergestellt, das je produziert worden ist.
Forskare vid KTH, University of Michigan och Desy utvecklar ett biomaterial med bättre mekaniska egenskaper än spindeltråd.
Novel method transfers superior nanoscale mechanics to macroscopic fibres. At DESY’s X-ray light source PETRA III, a team led…
09:27 An DESYs Röntgenlichtquelle PETRA III hat ein Forscherteam unter schwedischer Führung das stärkste Biomaterial hergestellt…
At DESY's X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-material that has ever…
At DESY’s X-ray light source PETRA III, a team led by Swedish researchers has produced the strongest bio-material that has ever…
Forskare vid KTH, University of Michigan i USA och DESY i Tyskland har producerat ett biobaserat material som överträffar…
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
By Luke Dormehl Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
By Luke Dormehl Content Provided by KTH Royal Institute of Technology Bio-based materials, such as wood and spider silk, can be…
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
By Luke Dormehl Content Provided by KTH Royal Institute of Technology Bio-based materials, such as wood and spider silk, can be…
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
By Luke Dormehl Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
By Luke Dormehl Content Provided by KTH Royal Institute of Technology Bio-based materials, such as wood and spider silk, can be…
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
Content Provided by Bio-based materials, such as wood and spider silk, can be impressively strong.
KTH Royal Institute of Technology More Bio-based materials, such as wood and spider silk, can be impressively strong.
Un nuovo processo di asseblaggio trasforma le nanofibre di legno in un super biomateriale (Rinnovabili.it) – Per molto tempo la…
According to ‘Multiscale control of nanocellulose assembly: Transferring remarkable nanoscale fibril mechanics to macroscale…
When it comes to materials, there is no question as to who wins the strongman competition. Spider silk is known as being the…
Home Nanotechnology Nanomaterials May 9, 2018 May 9, 2018, KTH Royal Institute of Technology Researchers in Sweden have…
( Nanowerk News ) Researchers in Sweden have produced a bio-based material that is reported to surpass the strength of all…
When it comes to materials, there is no question as to who wins the strongman competition.
Please log in or register to view articles older than 3 months This item is under embargo and is only visible to journalists…
Home Nanotechnology Nanomaterials May 9, 2018 May 9, 2018, KTH Royal Institute of Technology Researchers in Sweden have…