Biomimicry
Nature
Technology
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< !--Biomimicry-- >
< !--How nature's patterns regulate today's inventions-- >
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BIOMIMICRY

Biomimicry is innovation inspired by nature, our aim as a species is to create designs and strategies that move us towards being better adapted to life on earth.

Nature

1-Termites
2-Lotus Flower
3-Sharks' Skin
4-Beetles
5-Geckos' Skin
Efficient cooling mimicking natural systems.
Water rolls off due to unique surface patterns.
Inspired airplanes and swimwear design.
Generates clean drinking water in arid zones.
Creates adhesives without harmful chemicals.
6-Bees' Hive
7-Whales' Fins
8-Penduline Birds
9-Kingfisher
10-Neural Net
Light, strong structures for modern designs.
Aerodynamics improved with unique bumps.
Better camouflage and structural integrity.
Efficient movement through air and water.
Efficient AI models mimicking brain systems.
11-Sea Shells
12-Burdock Plant
13-Spiders' Net
14-Boxfish
15-Peacocks' Feathers
Resilient designs found in natural growth.
Hook-and-loop system led to Velcro invention.
Stronger fibers for textiles and bridges.
Streamlined cars and architecture ideas.
Colorful displays using only light physics.

Technology

1-Passive Cooling
2-Water-Repellent Coating
3-Drag-Reducing Surface
4-Water-Harvesting Surface
5-Adhesive Technology
Passive cooling through natural ventilation.
Repels water using microscopic structures.
Reduces friction drag with ribbed texture.
Collects water using hydrophilic bumps.
Adhesion via microscopic hair structures.
6-Hexagonal Structures
7-Turbulent Flow Control
8-Nest Design
9-Streamlined Shapes
10-Information Processing
Efficient hexagonal packing for strength.
Enhanced flow with tubercle bumps.
Suspended, secure, and camouflaged design.
Streamlined shape reduces air resistance.
Networks process information efficiently and adaptively.
11-Structural Growth Patterns
12-Hooking Mechanism
13-Fiber Engineering
14-Energy Efficiency
15-Structural Colors
Natural growth follows self-similar patterns.
Hooks latch onto fibrous surfaces.
Flexible, lightweight, and durable fibers.
Streamlined, stable, and energy-efficient structure.
Vibrant colors from microscopic schemes.