https://t.co/yNH5RXFrFS 最近こちらのプレスリリースを見まして、ふと気になって論文を見てみました。 https://t.co/5UMamT968M MDもやってるのですが、フッ素のLJポテンシャルのパラメータをスケーリングして疎水性を変化させて比較するということをやっていて、そこも計算化学として良いなと。
RT @molcyb_PR: 【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
RT @molcyb_PR: 【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
RT @molcyb_PR: 【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
RT @molcyb_PR: 【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
RT @molcyb_PR: 【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
RT @molcyb_PR: 【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
【論文掲載】公募班・東工大・佐藤助教らの論文がScience誌に掲載されました。 おめでとうございます! https://t.co/xu3Xeha9it
こういう世界を救うようなものを開発できればいいんだが https://t.co/34m0cJTQrR
RT @SilabESPOL: #VT Nuevo dispositivo purifica agua salada 1000 veces más rápido que equipos industriales. Investigadores desarrollaron mem…
#VT Nuevo dispositivo purifica agua salada 1000 veces más rápido que equipos industriales. Investigadores desarrollaron membranas de filtración que usan anillos de flúor nanoscópicos que se apilaron en una capa lipídica impenetrable. Via @SciTechDaily1 ht
The nanoscopic rings are made with a hydrophobic teflon-based material and implanted into an otherwise impenetrable lipid layer. @UTokyo_News_en credits. Info: https://t.co/pdO3B80t2b https://t.co/6y5e7x2Z46
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @gecko39: Intense electronegativity disrupts formation of water clusters, so that individual water molecules flow through the smallest c…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
Hhx
@infranaut_ Coolest engineering paper I've seen in a while. Hope it scales up without any serious issues. https://t.co/zQG1WqhDaq
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
@oconnor322 Source DOI given. expands to https://t.co/kni5UzqCAG
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
Anybody wanna access this for me 🥺👉👈
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
Wow.
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
@manoramanews
ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water channels of living cell membranes at their own game. Learn more. ⬇ https://t.co/fNoTwISXf4 #SciencePerspective: … https:/
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water channels of living cell membranes at their own game. Learn more. ⬇ https://t.co/hMVxJocbiJ #SciencePerspective: https://t.co/GTGYfqj1lT ht
Intense electronegativity disrupts formation of water clusters, so that individual water molecules flow through the smallest channels faster than through larger ones. https://t.co/NQVtbfQoj2 Chloride ions are strongly repelled and cannot travel through
Intense electronegativity disrupts formation of water clusters, so that individual water molecules flow through the smallest channels faster than through larger ones. https://t.co/NQVtbfQoj2 Chloride ions are strongly repelled and cannot travel through
Itoh et al. designed a series of fluorous oligoamide nanorings that undergo supramolecular polymerization to form nanochannels with dense packing of organofluorine groups (see the Perspective by Shen). https://t.co/NQVtbfQoj2
Ultrafast water permeation through nanochannels w densely fluorous interior surface 12MAY2022 https://t.co/NQVtbfQoj2 Fluorine for faster water transport Normally, as pipe width or channel shrinks, flow rate per cross-section area slows w greater surfa
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
Ultrafast water permeation through nanochannels with a densely fluorous interior surface https://t.co/hrHH2aniFN
RT @BKavianpour: Probably one of the most important innovations in #desalination using rings of fluorine just 1-2 nm in diameter. #water #t…
Probably one of the most important innovations in #desalination using rings of fluorine just 1-2 nm in diameter. #water #treatment https://t.co/X79KfpXIFy
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @neurovium: Cool
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
Cool
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…
RT @ScienceMagazine: Researchers have designed a nanochannel with a superhydrophobic interior surface that beats the protein-based water ch…