Wan-Chi Lee scite author profile

Enhancing the kinetics of liquid–vapor transition from nanoscale confinements is an attractive strategy for developing evaporation and separation applications. The ultimate limit of confinement for evaporation is an atom thick interface hosting angstrom-scale nanopores. Herein, using a combined experimental/computational approach, we report highly enhanced water evaporation rates when angstrom sized oxygen-functionalized graphene nanopores are placed at the liquid–vapor interface. The evaporation flux increases for the smaller nanopores with an enhancement up to 35-fold with respect to the bare liquid–vapor interface. Molecular dynamics simulations reveal that oxygen-functionalized nanopores render rapid rotational and translational dynamics to the water molecules due to a reduced and short-lived water–water hydrogen bonding. The potential of mean force (PMF) reveals that the free energy barrier for water evaporation decreases in the presence of nanopores at the atomically thin interface, which further explains the enhancement in evaporation flux. These findings can enable the development of energy-efficient technologies relying on water evaporation.

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Pharmacokinetics, micro-SPECT/CT imaging and therapeutic efficacy of 188Re-DXR-liposome in C26 colon carcinoma ascites mice model

Chen¹,

Chang²,

Yu³

et al. 2008

Nuclear Medicine and Biology

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Wan-Chi Lee

Lipid peroxidation dysregulation in ischemic stroke: Plasma 4-HNE as a potential biomarker?

Integrated reverse transcription polymerase chain reaction systems for virus detection☆

Enhanced Water Evaporation from Å-Scale Graphene Nanopores

Pharmacokinetics, micro-SPECT/CT imaging and therapeutic efficacy of 188Re-DXR-liposome in C26 colon carcinoma ascites mice model

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