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W2966360012 abstract "Nuclear quantum effects (NQEs) in water arise due to delocalization, zero-point energy (ZPE), and quantum tunneling of protons. Whereas quantum tunneling is significant only at low temperatures, proton delocalization and ZPE influence the properties of water at normal temperature and pressure (NTP), giving rise to isotope effects. However, the consequences of NQEs for interfaces of water with hydrophobic media, such as perfluorocarbons, have remained largely unexplored. Here, we reveal the existence and signature of NQEs modulating hydrophobic surface forces at NTP. Our experiments demonstrate that the attractive hydrophobic forces between molecularly smooth and rigid perfluorinated surfaces in nanoconfinement are ≈10% higher in H2O than in D2O, even though the contact angles of H2O and D2O on these surfaces are indistinguishable. Our molecular dynamics simulations show that the underlying cause of the difference includes the destabilizing effect of ZPE on the librational motions of interfacial H2O, which experiences larger quantum effects than D2O." @default.
W2966360012 created "2019-08-13" @default.
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W2966360012 date "2019-07-31" @default.
W2966360012 modified "2023-10-18" @default.
W2966360012 title "Nuclear Quantum Effects in Hydrophobic Nanoconfinement" @default.
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W2966360012 doi "https://doi.org/10.1021/acs.jpclett.9b01835" @default.
W2966360012 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31365261" @default.
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