2020
DOI: 10.1002/bab.1871
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In vivo formation of spherical and rod lead nanoparticles in root cells of water velvet (Azolla pinnata)

Abstract: Several plant species survive in the metal‐contaminated environment by minimization of detrimental effects of metal exposure and cellular accumulation, but little is known about their capability to transform the uptake metal ions into nanoparticles, especially in nonspherical shapes. This work firstly reported the in vivo formation of spherical and rod‐shaped lead nanoparticles (PbNPs) from the uptake lead ions in root cells of water velvet (Azolla pinnata). The energy‐dispersive X‐ray fluorescence analysis re… Show more

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“…A particular and rarely encountered approach (not only for the application of ferns) is represented by the study of Chumpol and Siri [ 87 ]. The authors present the in vivo formation of crystalline PbNPs, in the root cells of water velvet ( Azolla pinnata R.Br.).…”
Section: Polypodiopsida and The Nanomaterialsmentioning
confidence: 99%
“…A particular and rarely encountered approach (not only for the application of ferns) is represented by the study of Chumpol and Siri [ 87 ]. The authors present the in vivo formation of crystalline PbNPs, in the root cells of water velvet ( Azolla pinnata R.Br.).…”
Section: Polypodiopsida and The Nanomaterialsmentioning
confidence: 99%