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Faraday Discussions
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April 23, 2026
When is nanoconfined water different from interfacial water?
Xavier R Advincula, Christoph Schran, Angelos Michaelides
The Journal of Physical Chemistry Letters
|
February 23, 2026
Clay Edges Are Dynamic Proton-Conducting Networks Modulated by Structure and pH
Yixuan Feng, Xavier R Advincula, Hongwei Fang, et al.
ACS Nano
|
April 28, 2025
Protons Accumulate at the Graphene-Water Interface
Xavier R Advincula, Kara D Fong, Angelos Michaelides, et al.
Nature Communications
|
August 24, 2024
Quasi-one-dimensional hydrogen bonding in nanoconfined ice
Pavan Ravindra, Xavier R Advincula, Christoph Schran, et al.
Journal of Chemical Theory and Computation
|
October 25, 2023
Machine Learning Nucleation Collective Variables with Graph Neural Networks
Florian M Dietrich, Xavier R Advincula, Gianpaolo Gobbo, et al.
Chemical Science
|
April 27, 2026
Nuclear quantum effects amplify autoionization-driven superionic behaviour in nanoconfined monolayer water
Pavan Ravindra, Xavier R Advincula, Benjamin X Shi, et al.
Science Advances
|
June 24, 2026
How reactive is water at the nanoscale and how to control it?
Xavier R Advincula, Yair Litman, Kara D Fong, et al.
Journal of the American Chemical Society
|
March 19, 2026
Breaking the Air-Water Paradigm: Ion Behavior at Hydrophobic Solid-Water Interfaces
Xavier R Advincula, Kara D Fong, Yongkang Wang, et al.
Science Advances
|
April 10, 2026
Nanoconfined superionic water is a molecular superionic
Samuel W Coles, Amir Hajibabaei, Venkat Kapil, et al.
Faraday Discussions
|
September 27, 2024
Data-efficient fine-tuning of foundational models for first-principles quality sublimation enthalpies
Harveen Kaur, Flaviano Della Pia, Ilyes Batatia, et al.
Page
of 2
Search research articles
Search
Showing results (1-10 of 16) with videos related to
Sort By:
Page
of 2
Faraday Discussions
|
April 23, 2026
When is nanoconfined water different from interfacial water?
Xavier R Advincula, Christoph Schran, Angelos Michaelides
The Journal of Physical Chemistry Letters
|
February 23, 2026
Clay Edges Are Dynamic Proton-Conducting Networks Modulated by Structure and pH
Yixuan Feng, Xavier R Advincula, Hongwei Fang, et al.
ACS Nano
|
April 28, 2025
Protons Accumulate at the Graphene-Water Interface
Xavier R Advincula, Kara D Fong, Angelos Michaelides, et al.
Nature Communications
|
August 24, 2024
Quasi-one-dimensional hydrogen bonding in nanoconfined ice
Pavan Ravindra, Xavier R Advincula, Christoph Schran, et al.
Journal of Chemical Theory and Computation
|
October 25, 2023
Machine Learning Nucleation Collective Variables with Graph Neural Networks
Florian M Dietrich, Xavier R Advincula, Gianpaolo Gobbo, et al.
Chemical Science
|
April 27, 2026
Nuclear quantum effects amplify autoionization-driven superionic behaviour in nanoconfined monolayer water
Pavan Ravindra, Xavier R Advincula, Benjamin X Shi, et al.
Science Advances
|
June 24, 2026
How reactive is water at the nanoscale and how to control it?
Xavier R Advincula, Yair Litman, Kara D Fong, et al.
Journal of the American Chemical Society
|
March 19, 2026
Breaking the Air-Water Paradigm: Ion Behavior at Hydrophobic Solid-Water Interfaces
Xavier R Advincula, Kara D Fong, Yongkang Wang, et al.
Science Advances
|
April 10, 2026
Nanoconfined superionic water is a molecular superionic
Samuel W Coles, Amir Hajibabaei, Venkat Kapil, et al.
Faraday Discussions
|
September 27, 2024
Data-efficient fine-tuning of foundational models for first-principles quality sublimation enthalpies
Harveen Kaur, Flaviano Della Pia, Ilyes Batatia, et al.
Page
of 2