Dynamic Heterogeneities in Liquid Mixtures Confined in Nanopores | Zendy

Ramona Mhanna | Zendy; Pierre Catrou | Zendy; Sujeet Dutta | Zendy; Ronan Lefort | Zendy; Ilham Essafri | Zendy; Aziz Ghoufi | Zendy; Matthias Muthmann | Zendy; Michaela Zamponi | Zendy; B. Frick | Zendy; Denis Morineau | Zendy

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Dynamic Heterogeneities in Liquid Mixtures Confined in Nanopores

Author(s) -

Ramona Mhanna,

Pierre Catrou,

Sujeet Dutta,

Ronan Lefort,

Ilham Essafri,

Aziz Ghoufi,

Matthias Muthmann,

Michaela Zamponi,

B. Frick,

Denis Morineau

Publication year - 2020

Publication title -

the journal of physical chemistry b

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.864

H-Index - 392

eISSN - 1520-6106

pISSN - 1520-5207

DOI - 10.1021/acs.jpcb.0c01035

Subject(s) - nanopore , materials science , nanotechnology , biological system , biology

Binary liquid mixtures can exhibit nanosegregation, albeit being fully miscible and homogeneous at the macroscopic scale. This tendency can be amplified by geometrical nanoconfinement, leading to remarkable properties. This work investigates the molecular dynamics of er -butanol (TBA)-toluene (TOL) mixtures confined in silica nanochannels by quasielastic neutron scattering and molecular dynamics simulation. It reveals a decoupling of the molecular motion of each constituent of the binary liquid, which can be followed independently by selective isotopic H/D labeling. We argue that this behavior is the signature of spatially segregated dynamic heterogeneities, which are due to the recently established core-shell nanophase separation induced by mesoporous confinement.

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