Rare-earth ions integrated silica nanoparticles derived from rice husk via microwave-assisted combustion method for bioimaging applications

“…S-3D †). 43 FT-IR spectra demonstrated distinct peaks of a-Fe 3B). 44 The peaks at 2915 cm −1 and 2845 cm −1 can be related to the asymmetric and symmetric stretching of -CH 2 groups.…”

Click functionalized biocompatible gadolinium oxide core-shell nanocarriers for imaging of breast cancer cells

“…S-3D †). 43 FT-IR spectra demonstrated distinct peaks of a-Fe 3B). 44 The peaks at 2915 cm −1 and 2845 cm −1 can be related to the asymmetric and symmetric stretching of -CH 2 groups.…”

Click functionalized biocompatible gadolinium oxide core-shell nanocarriers for imaging of breast cancer cells

“…Rice husk‐derived SiO 2 NPs have been integrated with rare earth ions for in vivo bioimaging applications. [ 123 ] Moreover, SiO 2 NPs have been used as nanocarriers with chitosan and doxorubicin for tumor therapy and the efficacy has been evaluated in a mice model in vivo (Figure 3d). [ 124 ]…”

Sustainable Sources of Raw Materials for Additive Manufacturing of Bone‐Substituting Biomaterials

“…Thus, this complex material can be used for theranostic applications. Rice husk-derived silica composite with rare earth elements, europium/gadolinium ions were prepared by microwave-assisted combustion (Araichimani et al 2020 ). Europium ions and gadolinium ions in the silica matrix exhibited potential of fluorescence imaging and T1-weighted magnetic resonance imaging, respectively.…”

Plant-derived silica nanoparticles and composites for biosensors, bioimaging, drug delivery and supercapacitors: a review