Introduction to Biomimetics and Bioinspiration
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Introduction to Biomimetics and Bioinspiration
Materials and Surfaces for Green Science and Technology
Bhushan, Bharat
Springer International Publishing AG
11/2024
764
Dura
9783031623431
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Introduction.- Roughness-Induced Superliquiphilic/phobic Surfaces: Wetting States and Lessons from Nature.- Modeling of Contact Angle for a Liquid in Contact with a Rough Surface for Various Wetting Regimes.- Plant Leaf Surfaces in Living Nature.- Nanofabrication Techniques used for Superhydrophobic Surfaces.- Strategies for Micropatterned, Nanopatterned, and Hierarchically Structured Lotus-like Surfaces.- Fabrication and Characterization of Mechanically Durable Superhydrophobic Surfaces.- Strategies for Superliquiphobic/philic Surfaces.- Adaptable Fabrication Techniques for Mechanically Durable Superliquiphobic/philic Surfaces.- Fabrication and Characterization of Mechanically Durable Superliquiphobic Surfaces.- Shark-Skin Surface for Fluid-Drag Reduction in Turbulent Flow.- Gecko Adhesion.- Bio- and Inorganic Fouling.- Bioinspired Strategies for Water Collection and Water Purification.- Mosquitoes' Locomotion and Painless Piercing.
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Biogenic Structures;Biomaterials for Water Collection and Water Purification;Shark-Skin Materials;Aquatic Fauna Characteristics;Climate-Resilient Material Solutions;Biogenic Shell and Bone Materials;Avian Feather Material Adaptations;Anti-Freeze Proteins (AFPs) in Materials;Spider Silk Material Properties;Bio-inspired Material Fabrication Techniques;Fibonacci Numbers in Material Structures;Properties of Nacre and Structural Coloration;Golden Ratio in Material Design;Superhydrophobicity/philicity;Shark Skin;Superoleophobicity/philicity;Nanofabrication;Structural Coloration;Antibiofouling;Self-Healing Materials
Introduction.- Roughness-Induced Superliquiphilic/phobic Surfaces: Wetting States and Lessons from Nature.- Modeling of Contact Angle for a Liquid in Contact with a Rough Surface for Various Wetting Regimes.- Plant Leaf Surfaces in Living Nature.- Nanofabrication Techniques used for Superhydrophobic Surfaces.- Strategies for Micropatterned, Nanopatterned, and Hierarchically Structured Lotus-like Surfaces.- Fabrication and Characterization of Mechanically Durable Superhydrophobic Surfaces.- Strategies for Superliquiphobic/philic Surfaces.- Adaptable Fabrication Techniques for Mechanically Durable Superliquiphobic/philic Surfaces.- Fabrication and Characterization of Mechanically Durable Superliquiphobic Surfaces.- Shark-Skin Surface for Fluid-Drag Reduction in Turbulent Flow.- Gecko Adhesion.- Bio- and Inorganic Fouling.- Bioinspired Strategies for Water Collection and Water Purification.- Mosquitoes' Locomotion and Painless Piercing.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Biogenic Structures;Biomaterials for Water Collection and Water Purification;Shark-Skin Materials;Aquatic Fauna Characteristics;Climate-Resilient Material Solutions;Biogenic Shell and Bone Materials;Avian Feather Material Adaptations;Anti-Freeze Proteins (AFPs) in Materials;Spider Silk Material Properties;Bio-inspired Material Fabrication Techniques;Fibonacci Numbers in Material Structures;Properties of Nacre and Structural Coloration;Golden Ratio in Material Design;Superhydrophobicity/philicity;Shark Skin;Superoleophobicity/philicity;Nanofabrication;Structural Coloration;Antibiofouling;Self-Healing Materials