AbstractThe effects of natural microstructures on the wettability are investigated based on the systematic analysis on the contact angles and morphology of the leaf surfaces of four kinds of plants, Photinia serrulata, Ginkgo, Aloe vera and Hypericum monogynum. P. serrulata possesses the most wettable leaf surface due to the small corrugation and raised boundary of the microstructures, while H. monogynum leaf shows the largest contact angle as it exhibits corrugated microstructures with smaller pitch value and larger height compared with that of Aloe vera. The long-shaped and well aligned microstructures, which are beneficial for the diffusion of water, make the Ginkgo leaf surface to be hydrophilic. The study elaborates the effects of micr...
Leaves surfaces, which represent an interface with plants and the environment, have several structur...
The adhesion of water droplets to leaves is important in controlling rainfall interception, and affe...
(a) Contact angles of different leaves; green, brown, heat-treated, and vacuum-treated leaves. Reced...
The effects of natural microstructures on the wettability are investigated based on the systematic a...
AbstractThe effects of natural microstructures on the wettability are investigated based on the syst...
Water repellency, exemplified in nature, has fascinated the materials community. This behaviour is u...
This investigation of morphology-wetting links was performed using a biomimetic approach. Three natu...
The water droplets spread observation, contact angle measurement and SEM analysis, data processing a...
The water droplets spread observation, contact angle measurement and SEM analysis, data processing a...
The water droplets spread observation, contact angle measurement and SEM analysis, data processing a...
Abstract: The surface micro-morphologies of two kinds of leaves—folium perillae and corn husk—which ...
Three Australian native Eucalyptus species, i.e., Eucalyptus woodwardii, Eucalyptus pachyphylla and ...
Three Australian native Eucalyptus species, i.e., Eucalyptus woodwardii, Eucalyptus pachyphylla and ...
The wettability of plant leaves directly reflects leaf hydrophilicity, which is the key factor that ...
The adhesion of water droplets to leaves is important in controlling rainfall interception, and affe...
Leaves surfaces, which represent an interface with plants and the environment, have several structur...
The adhesion of water droplets to leaves is important in controlling rainfall interception, and affe...
(a) Contact angles of different leaves; green, brown, heat-treated, and vacuum-treated leaves. Reced...
The effects of natural microstructures on the wettability are investigated based on the systematic a...
AbstractThe effects of natural microstructures on the wettability are investigated based on the syst...
Water repellency, exemplified in nature, has fascinated the materials community. This behaviour is u...
This investigation of morphology-wetting links was performed using a biomimetic approach. Three natu...
The water droplets spread observation, contact angle measurement and SEM analysis, data processing a...
The water droplets spread observation, contact angle measurement and SEM analysis, data processing a...
The water droplets spread observation, contact angle measurement and SEM analysis, data processing a...
Abstract: The surface micro-morphologies of two kinds of leaves—folium perillae and corn husk—which ...
Three Australian native Eucalyptus species, i.e., Eucalyptus woodwardii, Eucalyptus pachyphylla and ...
Three Australian native Eucalyptus species, i.e., Eucalyptus woodwardii, Eucalyptus pachyphylla and ...
The wettability of plant leaves directly reflects leaf hydrophilicity, which is the key factor that ...
The adhesion of water droplets to leaves is important in controlling rainfall interception, and affe...
Leaves surfaces, which represent an interface with plants and the environment, have several structur...
The adhesion of water droplets to leaves is important in controlling rainfall interception, and affe...
(a) Contact angles of different leaves; green, brown, heat-treated, and vacuum-treated leaves. Reced...