Spiders weave a web even more tangled than originally thought – at least on the nanoscale level, according to a new study performed at the U.S. Department of Energy’s (DOE) Argonne National Laboratory.
Polymers
May 3, 2012
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(PhysOrg.com) -- When Peter Parker was bitten by a radioactive spider in a laboratory, he became Spider-Man, a superhero with the ability to spin strong, flexible webs. Jeff Yarger and Gregory Holland are hoping to harness ...
Materials Science
Nov 1, 2010
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A team of architects and chemists from the University of Cambridge has designed super-stretchy and strong fibres which are almost entirely composed of water, and could be used to make textiles, sensors and other materials. ...
Materials Science
Jul 10, 2017
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A team of biologists and physicists, led by the University of Bristol, have uncovered new insights into how antlions—one of the fiercest and most terrifying predators in the insect kingdom—build their deadly pit traps.
Plants & Animals
Mar 26, 2019
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262
(PhysOrg.com) -- Fritz Vollrath and colleagues from Oxford University have been analyzing the gooey material produced by tiny amphipods known as Crassicorophium bonellii, a small shrimp-like creature that produces the goo ...
Spider silks, the stuff of spider webs, are a materials engineer's dream: they can be stronger than steel at a mere fraction of weight, and also can be tougher and more flexible. Spider silks also tend not to provoke the ...
Biotechnology
May 1, 2017
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261
A bio-art project to create bulletproof skin has given a Utah State researcher even more hope his genetically engineered spider silk can be used to help surgeons heal large wounds and create artificial tendons and ligaments.
Materials Science
Aug 22, 2011
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Scientists now have a better understanding of why spider silk fibers are so incredibly strong. Recent research, published by Cell Press on February 15th in Biophysical Journal, describes the architecture of silk fibers from ...
Condensed Matter
Mar 1, 2011
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A team of researchers from the RIKEN Center for Sustainable Resource Science, Keio University and Kyoto University, has found that liquid-liquid phase separation (LLPS) drives the process of converting spidroin proteins to ...
Would you want a spider web inside your ear? Probably not. But if you're able to put aside the creepy factor, new research from Binghamton University, State University of New York shows that fine fibers like spider silk actually ...
Condensed Matter
Oct 30, 2017
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