Nanotechnology has the potential to make significant
impacts in our society. For example, nanofibre, a
threadlike structure on a nanometre scale, has new and
useful properties for filtration, as protective materials,
in electrical and optical applications7. Nanofibre mats
have also been investigated as scaffolds or physical
support matrices for various types of tissue regeneration
including skin, blood vessel, cartilage, bone, and
nerve8–10. However, there has been no application
of nanofibre mats in plant science and biotechnology.
Delivery systems for nanoparticles into plants have
been investigated11, 12 but generally there is a paucity
of applications of nanotechnology in plant science and
biotechnology.
Nanotechnology has the potential to make significant
impacts in our society. For example, nanofibre, a
threadlike structure on a nanometre scale, has new and
useful properties for filtration, as protective materials,
in electrical and optical applications7. Nanofibre mats
have also been investigated as scaffolds or physical
support matrices for various types of tissue regeneration
including skin, blood vessel, cartilage, bone, and
nerve8–10. However, there has been no application
of nanofibre mats in plant science and biotechnology.
Delivery systems for nanoparticles into plants have
been investigated11, 12 but generally there is a paucity
of applications of nanotechnology in plant science and
biotechnology.
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