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Usage Examples
Filter by Meaning The process of biomimicry was used to create a new type of solar panel based on the way that leaves absorb sunlight.
Researchers are using biomimicry to develop new methods for water filtration inspired by the structure of kidney cells.
The company's research and development team is exploring biomimicry to create more sustainable products.
Scientists are exploring biomimicry to improve the efficiency of solar panels.
Some artists are using biomimicry as inspiration for their work, creating sculptures and installations that imitate natural forms and patterns.
Many companies are now using biomimicry to design new products and services that are more sustainable and environmentally friendly.
The scientists are using biomimicry to develop new materials that can heal themselves like biological organisms.
Biomimicry is a growing field in architecture, using natural systems to design buildings.
Biomimicry can be seen in everything from Velcro, which was inspired by the hooks on burrs, to solar panels that mimic the way leaves collect sunlight.
Biomimicry can help scientists create new medicines by studying natural substances in plants and animals.
A new type of building material was developed using biomimicry, based on the way that shells and bones are structured.
The company is using biomimicry to design a new type of solar panel.
Biomimicry can help us create more sustainable solutions that are in harmony with the environment.
Biomimicry has inspired the creation of robots that can move and adapt like animals.
Biomimicry can be used to create new materials that are stronger and more lightweight, similar to the structure of bones.
By studying how termites maintain temperature in their mounds, architects have designed buildings that are more energy efficient, an example of biomimicry in architecture.
The development of a robotic cheetah that can run at high speeds is an example of biomimicry in engineering.
The study of how bats navigate at night has led to the development of new radar technologies, an example of biomimicry.
Medical researchers are using biomimicry to develop new medical devices and procedures.
The company's sustainable packaging is made with biomimicry, using the shape of leaves to make a more efficient design.
Scientists are looking to nature for solutions to our energy problems through biomimicry.
Biomimicry can help engineers design better and more efficient transportation systems.
The shape of a wind turbine blade was inspired by the shape of a humpback whale's fin, an example of biomimicry in renewable energy.
The design of a bullet train was inspired by the beak of a kingfisher, an example of biomimicry.
The biomimicry of the wings of birds inspired the design of an aircraft.
Biomimicry was used to create a new type of turbine based on the way that fish swim, resulting in a more efficient design.
A new type of adhesive was created based on the way that gecko feet stick to surfaces, using principles of biomimicry.
The design of a new robot was based on the movements of spiders, using biomimicry to improve its agility and flexibility.
A new type of insulation was created using principles of biomimicry, inspired by the way that polar bears and other animals stay warm in cold environments.
Biomimicry has led to the development of new ways to store energy.
The field of biomimicry is focused on creating sustainable solutions.
Scientists are using biomimicry to develop stronger and lighter materials.
Biomimicry is being used to develop new materials with unique properties inspired by nature.
The study of biomimicry is essential for finding new solutions to global challenges.
The study of biomimicry can help us find solutions to environmental problems.
The researchers are using biomimicry to develop a more efficient wind turbine.
Biomimicry has led to the development of self-cleaning surfaces.
Biomimicry can be used to create more efficient solar panels.
The study of biomimicry has led to the development of new and innovative materials that have a lower impact on the environment.
The use of biomimicry has resulted in the development of more efficient and streamlined designs for transportation systems.
Biomimicry can help us create more resilient and adaptable systems by learning from the way that natural systems respond to change.
Researchers are studying spider silk as a possible material for use in bulletproof vests, an example of biomimicry.
The field of biomimicry has led to the development of prosthetics that mimic the movements of natural limbs.
Biomimicry has been used to develop a more efficient way of collecting and storing water, inspired by the way that certain plants do it.
Biomimicry was used to create a new type of drone that mimics the flight patterns of birds, resulting in a more stable and efficient design.
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