Elucidating the surface geometric design of hydrophobic Australian Eucalyptus leaves: Experimental and modeling studies

H. Guo; Z. Xie; J. Shaw; K. Dixon; Z-T Jiang; C-Y Yin; X. Liu

doi:10.1016/j.heliyon.2019.e01316

Back

Elucidating the surface geometric design of hydrophobic Australian Eucalyptus leaves: Experimental and modeling studies

Journal article

Open access

Peer reviewed

Elucidating the surface geometric design of hydrophobic Australian Eucalyptus leaves: Experimental and modeling studies

H. Guo, Z. Xie, J. Shaw, K. Dixon, Z-T Jiang, C-Y Yin and X. Liu

Heliyon, Vol.5(3)

2019

DOI: https://doi.org/10.1016/j.heliyon.2019.e01316

Files and links (2)

pdf

Eucalyptus leaves.pdfDownload View

Published (Version of Record) Open Access

url

Free to Read *No subscription requiredView

Abstract

Three Australian native Eucalyptus species, i.e., Eucalyptus woodwardii, Eucalyptus pachyphylla and Eucalyptus dolorosa, were investigated, for the first time, with respect to the hydrophobicity of their leaves. It is well established that these leaves exhibit exceptionally high water repellency, in addition to an extraordinary ability to retain water, albeit their specific wetting mechanisms are still poorly understood. To identify the critical factors underlying this phenomenon, the surface topography of these leaves was subjected to micro-examination (SEM). Micro- and nanometer scale surface roughness was revealed, resembling that of the quintessential “lotus effect”. Surface free energy analysis was performed on two models based on the surface topographies of the study Eucalyptus species and lotus, in order to study wetting transitions on these specific microscopic surface features. The influence of surface geometrical parameters, such as edge-to-edge distance, base radius and cylindrical height, on surface free energy with different liquid penetration depths was studied with these two models. Larger energy barriers and smaller liquid-solid contact areas were more influential in the calculations for the lotus than for Eucalyptus. The information obtained from these two models may be useful for guiding the design of novel artificial surfaces in the collection and transport of micro-volume liquids.

Details

Title: Elucidating the surface geometric design of hydrophobic Australian Eucalyptus leaves: Experimental and modeling studies
Authors/Creators: H. Guo (Author/Creator)
Z. Xie (Author/Creator)
J. Shaw (Author/Creator)
K. Dixon (Author/Creator)
Z-T Jiang (Author/Creator)
C-Y Yin (Author/Creator)
X. Liu (Author/Creator)
Publication Details: Heliyon, Vol.5(3)
Publisher: Elsevier Ltd.
Identifiers: 991005544869807891
Copyright: © 2019 The Authors.
Murdoch Affiliation: School of Engineering and Information Technology
Language: English
Resource Type: Journal article

UN Sustainable Development Goals (SDGs)

This output has contributed to the advancement of the following goals:

Source: InCites

Metrics

106 File views/ downloads

69 Record Views

3 Times Cited - Web of Science

InCites Highlights

These are selected metrics from InCites Benchmarking & Analytics tool, related to this output

Collaboration types: Domestic collaboration; International collaboration
Citation topics: 2 Chemistry; 2.160 Microfluidic Devices & Superhydrophobicity; 2.160.365 Superhydrophobic
Web Of Science research areas: Multidisciplinary Sciences
ESI research areas: Chemistry