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Main Authors: Chen, Mingwei, Wang, Jingshan, Mishchenko, Artem, Timokhin, Ivan, Wang, Fengchao, Geim, Andre K., Yang, Qian
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.07946
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author Chen, Mingwei
Wang, Jingshan
Mishchenko, Artem
Timokhin, Ivan
Wang, Fengchao
Geim, Andre K.
Yang, Qian
author_facet Chen, Mingwei
Wang, Jingshan
Mishchenko, Artem
Timokhin, Ivan
Wang, Fengchao
Geim, Andre K.
Yang, Qian
contents Under ambient humidity, water spontaneously condenses in pores only a few nanometers in size, making nanoscale capillarity central to numerous natural phenomena and technological applications. At these dimensions, water may no longer be treated as a continuous fluid, yet the consequences of molecular discreteness for capillary condensation and filling remain poorly understood. Here we study nanocapillaries fabricated by van der Waals assembly and, using atomic force microscopy, monitor their wall deformations during humidity-driven water uptake. We observe two distinct regimes: layer-by-layer filling of flexible capillaries and abrupt filling of rigid ones. Flexible walls deform in steps of ~3 Å, corresponding to the sequential entry of individual water molecular layers. The different filling regimes are explained by the competition between deformation energy and oscillatory wall-water interactions. Our findings show that the molecular discreteness of water can profoundly affect ubiquitous capillary phenomena, with wall compliance selecting between discrete and abrupt filling.
format Preprint
id arxiv_https___arxiv_org_abs_2604_07946
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Layer-by-layer water filling in molecular-scale capillaries
Chen, Mingwei
Wang, Jingshan
Mishchenko, Artem
Timokhin, Ivan
Wang, Fengchao
Geim, Andre K.
Yang, Qian
Mesoscale and Nanoscale Physics
Under ambient humidity, water spontaneously condenses in pores only a few nanometers in size, making nanoscale capillarity central to numerous natural phenomena and technological applications. At these dimensions, water may no longer be treated as a continuous fluid, yet the consequences of molecular discreteness for capillary condensation and filling remain poorly understood. Here we study nanocapillaries fabricated by van der Waals assembly and, using atomic force microscopy, monitor their wall deformations during humidity-driven water uptake. We observe two distinct regimes: layer-by-layer filling of flexible capillaries and abrupt filling of rigid ones. Flexible walls deform in steps of ~3 Å, corresponding to the sequential entry of individual water molecular layers. The different filling regimes are explained by the competition between deformation energy and oscillatory wall-water interactions. Our findings show that the molecular discreteness of water can profoundly affect ubiquitous capillary phenomena, with wall compliance selecting between discrete and abrupt filling.
title Layer-by-layer water filling in molecular-scale capillaries
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2604.07946