Hierarchical hydrophobic surfaces with controlled dual transition between rose petal effect and lotus effect via structure tailoring or chemical modification
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Title
Hierarchical hydrophobic surfaces with controlled dual transition between rose petal effect and lotus effect via structure tailoring or chemical modification
Authors
Keywords
Rose petal effect, Lotus effect, Superhydrophobicity, UV lithography, Hierarchical microstructure, PMMA
Journal
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
Volume 622, Issue -, Pages 126661
Publisher
Elsevier BV
Online
2021-04-19
DOI
10.1016/j.colsurfa.2021.126661
References
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- (2019) Taylor P. Allred et al. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
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- (2019) Wenjing Ma et al. JOURNAL OF HAZARDOUS MATERIALS
- Triboelectrification on natural rose petal for harvesting environmental mechanical energy
- (2018) Yandong Chen et al. Nano Energy
- Smart, piezo-responsive PVDF/PMMA surface with triggerable water/oil wettability and adhesion
- (2018) Olga Guselnikova et al. ACS Applied Materials & Interfaces
- Fabrication of Complex 3D Nanoimprint Mold by Using Acceleration Voltage Electron Beam Lithography
- (2018) Kohei Goto et al. JOURNAL OF PHOTOPOLYMER SCIENCE AND TECHNOLOGY
- Replicating and resolving wetting and adhesion characteristics of a Rose petal
- (2018) Udita Uday Ghosh et al. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
- Effect of Structure Hierarchy for Superhydrophobic Polymer Surfaces Studied by Droplet Evaporation
- (2018) Nastasia Okulova et al. Nanomaterials
- Angle-multiplexed optical printing of biomimetic hierarchical 3D textures
- (2017) Muhammad Irfan Abid et al. Laser & Photonics Reviews
- A simple way to achieve bioinspired hybrid wettability surface with micro/nanopatterns for efficient fog collection
- (2017) Kai Yin et al. Nanoscale
- Selective hierarchical patterning of silicon nanostructures via soft nanostencil lithography
- (2017) Ke Du et al. NANOTECHNOLOGY
- Solution-processed fabrication of superhydrophobic hierarchical zinc oxide nanostructures via nanotransfer printing and hydrothermal growth
- (2017) Sung-Hoon Hong et al. SURFACE & COATINGS TECHNOLOGY
- Biomimetic construction of hierarchical structures via laser processing
- (2017) Mo-Nan Liu et al. Optical Materials Express
- Nature-inspired superwettability systems
- (2017) Mingjie Liu et al. Nature Reviews Materials
- Biomimetic Multi-Functional Superamphiphobic FOTS-TiO2 Particles beyond Lotus Leaf
- (2016) Liwei Chen et al. ACS Applied Materials & Interfaces
- Poly(dimethylsiloxane) grafted with adhesive polymeric chains provide a route towards cost effective dry adhesives
- (2016) Omer Javed Chaudhary et al. EUROPEAN POLYMER JOURNAL
- Fast and large area fabrication of hierarchical bioinspired superhydrophobic silicon surfaces
- (2016) Simone Ghio et al. JOURNAL OF THE EUROPEAN CERAMIC SOCIETY
- Design of anti-icing surfaces: smooth, textured or slippery?
- (2016) Michael J. Kreder et al. Nature Reviews Materials
- Superhydrophobic Surfaces Fabricated by Femtosecond Laser with Tunable Water Adhesion: From Lotus Leaf to Rose Petal
- (2015) Jiangyou Long et al. ACS Applied Materials & Interfaces
- A General Strategy for the Separation of Immiscible Organic Liquids by Manipulating the Surface Tensions of Nanofibrous Membranes
- (2015) Li Wang et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Robust self-cleaning surfaces that function when exposed to either air or oil
- (2015) Y. Lu et al. SCIENCE
- Study of Transitions between Wetting States on Microcavity Arrays by Optical Transmission Microscopy
- (2014) Emil Søgaard et al. LANGMUIR
- Surface etching of methacrylic microparticles via basic hydrolysis and introduction of functional groups for click chemistry
- (2013) Christian Speyerer et al. JOURNAL OF COLLOID AND INTERFACE SCIENCE
- Surface modification of polymers by reduction of diazonium salts: polymethylmethacrylate as an example
- (2013) Mohamed M. Chehimi et al. Journal of Materials Chemistry C
- Micro–Micro Hierarchy Replacing Micro–Nano Hierarchy: A Precisely Controlled Way To Produce Wear-Resistant Superhydrophobic Polymer Surfaces
- (2012) Eero Huovinen et al. LANGMUIR
- A multi-structural and multi-functional integrated fog collection system in cactus
- (2012) Jie Ju et al. Nature Communications
- Superhydrophobic silicon surfaces with micro–nano hierarchical structures via deep reactive ion etching and galvanic etching
- (2011) Yang He et al. JOURNAL OF COLLOID AND INTERFACE SCIENCE
- Hierarchical polymer micropillar arrays decorated with ZnO nanowires
- (2010) Hyunhyub Ko et al. NANOTECHNOLOGY
- The rose petal effect and the modes of superhydrophobicity
- (2010) B. Bhushan et al. PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
- Bioinspired Design of a Superoleophobic and Low Adhesive Water/Solid Interface
- (2008) Mingjie Liu et al. ADVANCED MATERIALS
- Biomimetic hierarchical structure for self-cleaning
- (2008) Bharat Bhushan et al. APPLIED PHYSICS LETTERS
- Superhydrophobic surfaces: from structural control to functional application
- (2007) Xi Zhang et al. JOURNAL OF MATERIALS CHEMISTRY
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