New material discovery and application trends
KānanaHoʻohui i ka loulou waho E mālama i ka hoʻololiHoʻopau i ka hoʻoponoponoEditmea hoʻolilo Mau koho Paʻamau
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Kūlana Mekini
He mea hoʻomanaʻo hoʻomanaʻo hou e paʻa mau ana ma hope o nā ʻumi miliona o nā loli. Hiki iā ia ke wehe i ke ala no ka hoʻohana nui ʻana i nā mea futuristic.
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Mākaʻikaʻi Market
ʻO kēia ʻano o ka holomua ʻenehana e hoʻoheheʻe i nā kelepona, kākau ʻo Jurica Dujmovic.
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SCMP
Chinese scientists’ new ‘super-strong foam’ could form lightweight tank and troop armour
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New York Times
Researchers said they have developed a technique for creating a substance they are calling Q-carbon, which could have uses in medicine and industry.
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ʻO Futurism
Scientists have managed to develop a novel method to grow stable, ultra-long 1D carbon chains of a material that is twice as strong as carbon nanotubes and far stronger than diamonds.
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Telegraph
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nauka kela la i keia
When mixed with lightweight polymers, tiny carbon tubes reinforce the material, promising lightweight and strong materials for airplanes, spaceships, cars and even sports equipment. While such carbon nanotube-polymer nanocomposites have attracted enormous interest from the materials research community, a group of scientists now has evidence that a different nanotube -- made from boron nitride -- c
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Newsweek
The material could revolutionize production of automobiles, airplanes and spacecraft.
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Kūlana Mekini
"You're left with a virtually flawless ceramic."
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BBC
A super-hard metal is made in the laboratory by melting together titanium and gold.
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nauka kela la i keia
How can we move beyond solid state electronics towards flexible soft circuit systems? New self-propelling liquid metals could be the answer. The advance opens the potential for creating makeshift and floating electronics, bringing science fiction - like the shape-shifting liquid metal T-1000 Terminator - one step closer to real life.
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Pūnaewele Pūnaewele
Scientists are getting close to turning hydrogen into a metal — both in liquid form and maybe even solid form. The rewards, if they pull it off, are worth the effort.
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UPI
Scientists in Russia are currently perfecting a new type of ceramic that can withstand temperatures of more than 3,000 degrees Celsius.
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Kūlana Mekini
"Pono mākou i nā holomua koʻikoʻi o kēia ʻano."
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Kūlana Mekini
ʻO ka noiʻi hou mai ke Kulanui ʻo Cornell e lawe mai i ka honua o ka ʻepekema mea palupalu me ka physics futuristic.
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ke kūʻokoʻa
‘It’s the first-ever sample of metallic hydrogen on Earth, so when you’re looking at it, you’re looking at something that’s never existed before’
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New nä känaka 'epekema
A new foam material could be the first good reusable method to recover spilled oil, and would be much better for the environment
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Ke Kulanui Duke
Supercomputer-generated recipes yield two new kinds of magnets
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ʻ Allelo Kūʻai
ʻO ka loaʻa ʻana o ka manawa e hoʻōki ai, hoʻopili a hoʻopaʻa hou i hiki ke lilo i moʻolelo, me ka poʻe ʻepekema e hoʻomohala ana i kahi hoʻolālā electrode hou e hiki ai ke hoʻopaʻa i nā pihi i nā kekona ma mua o nā hola.
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Nanowerk
New surfaces create promise of safer implants, more accurate diagnostic tests.
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ke kālaikūlohea
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nauka kela la i keia
Ua ʻike nā mea noiʻi i kahi mea hou e hiki ai ke alakaʻi i nā mea ʻike biomolecule koʻikoʻi a ʻoi aku ka maikaʻi o nā cell solar.
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ʻO ke Kulanuiʻo Osaka
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Ka Wailele Kepena Kina o Kina
Process in which copper is blasted with argon gas creates particles with similar properties to gold, with the resulting material having the potential to reduce use of precious metals in manufacturing.
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Kaui nīnau
Under a microscope, the substance looks like a honeycomb. It could be used to make high-tech batteries and ultra-light cases for electronics equipment.
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Mysteryx
Ua hana nā mea noiʻi Lūkini i kahi hana hou e hiki ke hoʻololi i kekahi mea i kekahi.
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ʻO New Atlas
Metallic glass is an emerging type of material, so its secrets are still being discovered. While working with the stuff, a team of Yale researchers created a brand new type of metallic glass, by shrinking samples down to the nanoscale until it forms a unique crystalline phase.
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ke kālaikūlohea
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TechXplore
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Hub Hoʻokahi
Materials science is sometimes serendipitous but more often painstaking. The latest machine learning tools are offering scientists a way to significantly accelerate the process of discovery with AI.
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ICU
Based on fictional dinosaurs and squid, technology could protect soldiers and structures
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Isaac Arthur
A look at revolutionary new materials with seemingly impossible properties. Start protecting your internet experience today with 77% off a 3 year plan by usi...
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Kulanui o Michigan
'Everything-repellent' coating could kidproof phones, homes
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Science
If you manage to deform a diamond, it usually means you have broken it. Diamonds have very high hardness, but they do not deform elastically. This limits their usefulness for some applications. However, Banerjee et al. discovered that diamond nanoneedles can deform elastically after all (see the Perspective by LLorca). The key was in their small size (300 nm), which allowed for very smooth-surface
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Ke Kulanuiʻo Colorado State
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ka Verge
Ke hoʻohana nei ka poʻe ʻepekema i ka naʻauao hana e wikiwiki ai i ke kaʻina hana e ʻimi ai i nā mea hou. I kēia mau lā, ua hoʻohana nā mea noiʻi ma ke Kulanui o Northwestern iā AI e ʻike pehea e hana ai i nā hybrids metala-aniani hou 200 mau manawa ʻoi aku ka wikiwiki ma mua o ka hana ʻana i nā hoʻokolohua.
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Kth
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Nā Pepa Minute ʻelua
Loaʻa ka pepa "Gaussian Material Synthesis" a me kāna kumu kumu ma aneʻi: https://users.cg.tuwien.ac.at/zsolnai/gfx/gaussian-material-synthesis/Our Patre...
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ʻO Futurism
Scientists are perfecting a near indestructible gel made of mostly air with applications in everything from fashion to the far reaches of space.
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Ke Kulanui ʻĀkau Hikina
ʻO ke kumu nūhou o ke Kulanui ʻĀkau Hikina
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Manawa e hiki mai ana
FutureTimeline.net - nā nūhou hou loa a me nā holomua i ka honua o ka ʻepekema a me ka ʻenehana
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Ka Wailele Kepena Kina o Kina
Chinese scientists develop shape-shifting robot inspired by T-1000 from Terminator
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Forbes
ʻO ko mākou hiki ke ʻimi a haku i nā mea hou e alakaʻi i ka holomua ʻepekema a me ka hoʻokele waiwai. I kēia manawa hiki i ka hui ʻana o Artificial Intelligence a me ka ʻepekema waiwai ke hoʻoikaika wikiwiki i kēia holomua.
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ʻO BGR
Most of us think we have a pretty solid grasp on basic physics, and one of the assumptions we've come to form is that any material gets thinner as it's stretched.
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imi haahaa i
ʻAʻole paʻa wale ka hoʻololi ʻana i ko kākou lewa, ʻo ia hoʻi ke hoʻopau ʻana i nā ʻāpana o ko kākou papa moana. Pehea e ʻohi ai ka mea ʻimi i ka pūʻulu ʻikepili nui loa o ...
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ke kamailio
ʻO ka Nanotechnology a me nā mea waiwai ke kumu o nā mea hou he nui, akā ʻaʻole maopopo mākou i ke ʻano o ka hopena o ke kanaka a me ke kaiapuni.
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ke kālaikūlohea
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I lalo i ka honua
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Pākuʻi Hua'ōlelo
Not so long ago, graphene was the great new wonder material. A super-strong, atom-thick sheet of carbon “chicken wire,” it can form tubes, balls, and other curious shapes. And because it conducts electricity, materials scientists raised the prospect of a new era of graphene-based computer processing and a lucrative graphene chip industry to boot. The…
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Mob
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Bloomberg
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ʻO New Atlas
Concrete is a mix of cement, an aggregate such as gravel, and water. For added strength, steel fibers are often added. Now, scientists are claiming that a new type of fiber-reinforced concrete could soon serve as a lighter and greener alternative.
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Pūnaewele Science
U-carbon could be used in lightweight coatings, medical products, and novel electronic devices
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Ka Hui Alii
Chemical elements are integral to our modern technology and even to the origins of life itself - but what would happen if we were to run out of them? Subscri...
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ke kālaikūlohea
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Kaumaha
Far beyond devices and circuitry, materials science stands at the center of innumerable breakthroughs across energy, future cities, transit, and medicine.
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ʻ Allelo Kūʻai
Ua ʻike ka poʻe ʻepekema i ka pahū koke ʻana o ka ʻokoʻa mineral ma ka ʻili o ko mākou honua i ʻole e ola inā ʻaʻole no ke kanaka, e hoʻohui ana i ke koʻikoʻi i ka hoʻopaʻapaʻa e noho nei mākou i kahi au honua hou - ka Anthropocene.
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ʻIke maopopo maoli
I ka makahiki 2004, ua hoʻokaʻawale nā mea noiʻi ma ke Kulanui o Manchester i ka graphene. He ʻano kalapona ʻaneʻane palahalaha, hoʻokahi-atom-mānoanoa o ke kalapona, ka 2D
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Hōʻoia
E kōkua ka holomua ʻenehana iā mākou e hoʻoponopono i kekahi o nā pilikia nui loa o ka honua, akā inā ʻoi aku ka nui o ke kaiāulu i ka noiʻi ʻepekema, wahi a Darío Gil, ka luna o IBM Research.