Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface

Yingtian Yu, N. M. Anoop Krishnan, Morten Mattrup Smedskjær, Gaurav Sant, Mathieu Bauchy

Publikation: Konferencebidrag uden forlag/tidsskriftKonferenceabstrakt til konferenceForskningpeer review

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OriginalsprogEngelsk
Publikationsdato20 maj 2018
StatusUdgivet - 20 maj 2018
Begivenhed2018 Glass and Optical Materials Division Annual Meeting - Hilton Palacio del Rio, San Antonio, USA
Varighed: 20 maj 201824 maj 2018
http://ceramics.org/gomd2018

Konference

Konference2018 Glass and Optical Materials Division Annual Meeting
LokationHilton Palacio del Rio
LandUSA
BySan Antonio
Periode20/05/201824/05/2018
Internetadresse

Citer dette

Yu, Y., Krishnan, N. M. A., Smedskjær, M. M., Sant, G., & Bauchy, M. (2018). Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface. Abstract fra 2018 Glass and Optical Materials Division Annual Meeting, San Antonio, USA.
Yu, Yingtian ; Krishnan, N. M. Anoop ; Smedskjær, Morten Mattrup ; Sant, Gaurav ; Bauchy, Mathieu. / Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface. Abstract fra 2018 Glass and Optical Materials Division Annual Meeting, San Antonio, USA.
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Yu, Y, Krishnan, NMA, Smedskjær, MM, Sant, G & Bauchy, M 2018, 'Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface' 2018 Glass and Optical Materials Division Annual Meeting, San Antonio, USA, 20/05/2018 - 24/05/2018, .

Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface. / Yu, Yingtian; Krishnan, N. M. Anoop; Smedskjær, Morten Mattrup; Sant, Gaurav; Bauchy, Mathieu.

2018. Abstract fra 2018 Glass and Optical Materials Division Annual Meeting, San Antonio, USA.

Publikation: Konferencebidrag uden forlag/tidsskriftKonferenceabstrakt til konferenceForskningpeer review

TY - ABST

T1 - Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface

AU - Yu, Yingtian

AU - Krishnan, N. M. Anoop

AU - Smedskjær, Morten Mattrup

AU - Sant, Gaurav

AU - Bauchy, Mathieu

PY - 2018/5/20

Y1 - 2018/5/20

M3 - Conference abstract for conference

ER -

Yu Y, Krishnan NMA, Smedskjær MM, Sant G, Bauchy M. Hydrophilic-to-Hydrophobic Transition in Glassy Silica is Driven by the Atomic Topology of its Surface. 2018. Abstract fra 2018 Glass and Optical Materials Division Annual Meeting, San Antonio, USA.