Nature "Proton-assisted growth of ultra-flat graphene films" https://t.co/rdXuUtMQYE https://t.co/6euFjad06h 専門外なので分析の詳細はよく分からないけど、プロトンがグラフェンを通過した後 H2 になって、基盤からグラフェンを浮かせることで、基盤の defect の影響による皺を防げるっぽい。
Proton intercalation during CVD growth of #graphene on Cu promotes flat growth of graphene by decoupling graphene film from Cu @nature https://t.co/eWhZjIEfSP
Nature ハイライト:プロトンを使ってグラフェン膜の皺を伸ばす | Nature | Nature Research https://t.co/JUy9vSYKLZ
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
Proton-assisted growth of ultra-flat graphene films https://t.co/kWdfq2T1WB
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
@csccognoscenti Even Nature has ideas.
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
RT @nature: Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A stud…
Oke mungkins skrg sudah bisa lebih mudah masuk ke industri, Aamiin 💪💪
Graphene could be used in many applications but high-quality films are difficult to synthesise as wrinkles tend to form. A study in Nature shows that protons can reduce wrinkle formation, enabling ultra-flat graphene films to be grown. https://t.co/6edVP0P
Proton-assisted growth of ultra-flat graphene films https://t.co/n2uyit1dPb
Proton-assisted growth of ultra-flat graphene films https://t.co/DBjqg9fnZl
Proton-assisted growth of ultra-flat graphene films https://t.co/qP4KBP0jMU
RT @NatureKorea: 네이처 하이라이트:초평편 그래핀 필름(Ultra-flat graphene films)의 양성자 보조 성장 https://t.co/7uZoG3ZMA9
Proton-assisted growth of ultra-flat graphene films https://t.co/fOL6ls3f8L https://t.co/VDLQVq6RCv
Nature ハイライト:プロトンを使ってグラフェン膜の皺を伸ばす | Nature | Nature Research: https://t.co/v3gaLJx13i
プロトンを利用してグラフェンを下地の基板から分離する成長法を実証。平坦なグラフェン膜が得られるということみたいです。 Nature ハイライト:プロトンを使ってグラフェン膜の皺を伸ばす | Nature | Nature Research:... https://t.co/eGHYqlEdTi
네이처 하이라이트:초평편 그래핀 필름(Ultra-flat graphene films)의 양성자 보조 성장 https://t.co/7uZoG3ZMA9
RT @NatureJapan: Nature ハイライト:プロトンを使ってグラフェン膜の皺を伸ばす | Nature https://t.co/dL6H3FQZkr #ナノスケール材料 #プロトン #グラフェン
Nature ハイライト:プロトンを使ってグラフェン膜の皺を伸ばす | Nature https://t.co/dL6H3FQZkr #ナノスケール材料 #プロトン #グラフェン
Proton-assisted growth of ultra-flat graphene films https://t.co/wupTumY0u0
Proton-assisted growth of ultra-flat graphene films https://t.co/8JYllNRhpK プロトンアシストCVDでつくった超平坦グラフェンは、室温でも量子ホール効果を示す。たまげたなぁ。。。