By adding chitosan and borate buffer, the researchers were also able to enhance the fibers’ strength and adhesiveness. This ...

受漫画书中超级英雄神奇能力的启发，塔夫茨大学的研究人员利用丝素蛋白开发了一种现实生活中的织网技术。这种创新材料可以从设备中发射，在半空中凝固，并牢固地附着在物体上，展示了提升比自身重得多的物体的潜力，为各种技术应用铺平了道路。塔夫茨大学发明了织网技术 ...

Researchers at Tufts University’s Silklab have developed a silk-based sticky fluid that instantly turns into a fibrous material when ejected, evoking the gravity-defying, web-slinging powers of the ...

Tufts University researchers have created a web-slinging material that solidifies mid-air, lifting objects up to 80 times its ...

这简直就像漫画书里的情节：一滴液态丝迅速变硬，成为一种粘稠、结实的纤维，可以举起比它重 80 倍的物体。 听起来耳熟吗？ 研究人员在一项新的研究中描述了受蜘蛛侠启发的技术。一种新创造的网状材料会让许多小时候（或长大后）看过漫画的人非常高兴。

It’s straight out of a comic book: a shot of liquid silk quickly hardens into a sticky, strong fiber that can lift objects 80 ...

Every kid who has read a comic book or watched a Spider-Man movie has tried to imagine what it would be like to shoot a web ...

Inspired by the fantastical abilities of comic book superheroes, researchers at Tufts University have developed a real-life ...

These sticky fibers, created at the Tufts University Silklab, come from silk moth cocoons, which are boiled in solution and broken down into their building block proteins called fibroin.

Researchers have developed a method that turns silk moth cocoons into a shootable, sticky protein solution that works ...