Synthesis of Ultra‐Incompressible and Recoverable Carbon Nitrides Featuring CN4 Tetrahedra - Laniel - 2024 - Advanced Materials - Wiley Online Library https://t.co/t9F5LrT9Q3
Synthesis of Ultra‐Incompressible and Recoverable Carbon Nitrides Featuring CN4 Tetrahedra - Laniel - 2024 - Advanced Materials - Wiley Online Library https://t.co/TCY1qPuGiG
> IMAGEM: (a) Unidade celular da estrutura química do tI14-C3N4 (c = bolas azuis, N = bolas brancas). (b) Visão do modelo poliédrico da estrutura do tI14-C3N4 ao longo da direção [110]. (1) Publicação do estudo: https://t.co/oTUgdxy7gI
RT @Science_George: Hey, Twitterverse! The paper on this is open access! Here's the link to it: https://t.co/mfAMSfffal
Hey, Twitterverse! The paper on this is open access! Here's the link to it: https://t.co/mfAMSfffal
After so many years it seems it was possible to obtain the CNx: "Synthesis of Ultra-Incompressible and Recoverable Carbon Nitrides Featuring CN4 Tetrahedra" https://t.co/nIHATjzuPS These are good times for materials engineering. https://t.co/LydH9UFjqP
Synthesis of Ultra‐Incompressible and Recoverable Carbon Nitrides Featuring CN4 Tetrahedra - Laniel - Advanced Materials - Wiley Online Library https://t.co/JFcMvLAOyh 自分用のメモ
https://t.co/U1ypWrDdco エジンバラ大。そっちかあと思ったけど、C3N4(6方晶)ではなく、CN4(4方晶)が固定化できた。でもってダイヤに近い硬度になった。 理論上高い圧電性もってそう。ってな報告。(だるくて大してよんでない。)
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
大気圧の約100万倍の圧力にさらしながら、摂氏150度以上の温度に加熱して作った3 つの窒化炭素化合物が、ダイヤモンドに次いで2番目に硬い材料である立方晶窒化ホウ素よりも硬くなることを発見しました。3 つの化合物はすべて、常温常圧下でもこの強度を保持していました。https://t.co/gEcVcOUEFd
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
@aleduckordke @bpthaber burada çalışmalarını açıklamaya çalışmışlar, kıyaslama ve sınıflandırma konusunda onlar da kararsızlar gibi https://t.co/ITQp9Ew8kI
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
https://t.co/rdomu5McLI CN4×Li6(Si-Pb)Li6 @JenLoveChem @vera_krewald @CThomas_group
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
Perchance it could be layered in a nano sheet... Asking for a friend....
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
RT @physorg_com: Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
Newly created ultra-hard material rivals diamond @advmater https://t.co/tO7oWkZKvX https://t.co/w82fcaRnlY
Ultra-hard materials made that are estimated to be almost as hard as diamond. (The Edinburgh Univ PR doesn't link to the paper 😡 but it was published in October: https://t.co/866jNGSSGM and preprinted in Sept 2022: https://t.co/3W2gWcSlGJ ) https://t.co/g0
ฅNya! Here's the latest 🗞 from [ Advanced Materials ]: " Synthesis of Ultra‐Incompressible and Recoverable Carbon Nitrides Featuring CN4 Tetrahedra" 🔗: https://t.co/XTuN8m1YA1
ฅNya! Here's the latest 🗞 from [ Advanced Materials ]: " Synthesis of Ultra‐Incompressible and Recoverable Carbon Nitrides Featuring CN4 Tetrahedra" 🔗: https://t.co/XTuN8m1YA1