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 of silica, then baked out the plants and solidified the glass. What remains is glass with micrometer-sized networks where the roots used to be.
Building roots in glass, a bio-inspired approach to creating 3D microvascular networks using plants and fungi." ScienceDaily. ScienceDaily, 19 November 2024. <www.sciencedaily.comKyushu University. . Building roots in glass, a bio-inspired approach to creating 3D microvascular networks using plants and fungi.
Tiny organisms such as bacteria and fungi help to promote the health and function of plant roots. It is commonly assumed that the composition of these microbes is dependent on the properties of the ... Glass is a fundamental material. Yet its atomic structure still baffles scientists to this day. Researchers have developed a new way to quantify ring shapes in chemically bonded networks of glass, ...
How do plant roots store carbon? Researchers found that the energy a plant devotes to its roots depends on proximity to other plants: when close together, plants heavily invest in their root systems ... Roots play a vital role in crop plants. They take up water and nutrients for the plant and keep it help firmly in the ground. But not all roots are the ...
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