Submitted via IRC for Bytram
Now with even greater light-absorbing ability!
Engineers develop 'blackest black' material to date
With apologies to "Spinal Tap," it appears that black can, indeed, get more black.
MIT engineers report today that they have cooked up a material that is 10 times blacker than anything that has previously been reported. The material is made from vertically aligned carbon nanotubes, or CNTs—microscopic filaments of carbon, like a fuzzy forest of tiny trees, that the team grew on a surface of chlorine-etched aluminum foil. The foil captures more than 99.96 percent of any incoming light, making it the blackest material on record.
The researchers have published their findings today in the journal ACS-Applied Materials and Interfaces. They are also showcasing the cloak-like material as part of a new exhibit today at the New York Stock Exchange, titled "The Redemption of Vanity."
The artwork, a collaboration between Brian Wardle, professor of aeronautics and astronautics at MIT, and his group, and MIT artist-in-residence Diemut Strebe, features a 16.78-carat natural yellow diamond, estimated to be worth $2 million, which the team coated with the new, ultrablack CNT material. The effect is arresting: The gem, normally brilliantly faceted, appears as a flat, black void.
Wardle says the CNT material, aside from making an artistic statement, may also be of practical use, for instance in optical blinders that reduce unwanted glare, to help space telescopes spot orbiting exoplanets.
"There are optical and space science applications for very black materials, and of course, artists have been interested in black, going back well before the Renaissance," Wardle says. "Our material is 10 times blacker than anything that's ever been reported, but I think the blackest black is a constantly moving target. Someone will find a blacker material, and eventually we'll understand all the underlying mechanisms, and will be able to properly engineer the ultimate black."
Wardle's co-author on the paper is former MIT postdoc Kehang Cui, now a professor at Shanghai Jiao Tong University.
(Score: 4, Informative) by janrinok on Saturday September 14 2019, @02:57PM (2 children)
I was skeptical that this was anything new when I first read it. After all, as others have pointed out, vantablack has been around for a while. But I'm not so sure however, it all depends on how you interpret what is being said.
Vantblack "absorb[s] up to 99.96% of visible light (at 663 nm if the light is perpendicular to the material)." The new CNT material abosrbs "more than 99.96 percent of any incoming light". From the abstract [acs.org] I read "CNT–metal hierarchical architectures demonstrate omnidirectional blackbody photoabsorption with the reflectance of 1 × 10–5 over the range from ultraviolet to terahertz region, which is 1 order of magnitude lower than that of any previously reported broadband absorber material." So they are claiming that it is 10 times 'blacker' than Vantablack and a much improved angle of cover.
As I'm sure someone once said - "this I have got to see!" - but perhaps that is the point, you can't see it...
(Score: 0) by Anonymous Coward on Saturday September 14 2019, @07:39PM
What I've been curious about is whether any of these newfangled black stuff burn up like this: https://www.scientificamerican.com/article/camera-flash-prompts-carb/ [scientificamerican.com]
(Score: 2) by captain normal on Saturday September 14 2019, @09:51PM
Still...if it looks like a dupe and quacks like a dupe...
Everyone is entitled to his own opinion, but not to his own facts"- --Daniel Patrick Moynihan--