Swiss researchers claim to have devised a functional living battery powered by the combined efforts of two types of fungi – all in a biodegradable, non-toxic 3D-printed package. I'll give you a second ...
A battery that needs feeding instead of charging? This is exactly what researchers have achieved with their 3D-printed, biodegradable fungal battery. The living battery could supply power to sensors ...
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Building roots in glass, a bio-inspired approach to creating 3D microvascular networks using plants and fungi
Microfluidic technology has become increasingly important in many scientific fields, such as regenerative medicine, microelectronics, and environmental science. However, conventional microfabrication ...
Researchers have developed a new bio-inspired approach to building complex 3D microfluidic networks by utilizing plant roots and fungal hyphae as molds. The team grew plants and fungi in nanoparticles ...
Glass structure of vasculature built from rye plant (left), and koji Aspergillus oryzae (right). Plants and hyphae-like cavities are formed inside the transparent glass chip. The root hair-like ...
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