Nanoceria: Metabolic interactions and delivery through PLGA-encapsulation

References

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title
DOI
material type
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667Nanoceria: Metabolic interactions and delivery through PLGA-encapsulationhttps://doi.org/10.1016/j.msec.2020.111003Metal oxideThe biocompatibility and tunable degradation of poly(lactic-co-glycolic acid) (PLGA) made it a candidate material for encapsulating both nanoceria and SOD.

Materials

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material
size
size err
size unit
size type
size comment
BET
b nanozyme
b 10n
b unit
specific act
sa 10n
sa unit
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667nanoceria3nmTEMBoth TEM images and DLS (images in SI) indicated that the proposed synthetic approach yielded nanoparticles with an average size of 3 nm.

Kinetics

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substrate
pH
T
km
km err
km 10n
km unit
vmax
vmax err
vmax 10n
vmax unit
kcat
kcat err
kcat 10n
kcat unit
kcat/km
kcat/km 10n
kcat/km unit
comment
667nanoceriaCAT667

Applications

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material
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target
method
linear range
linear ran unit
LOD
lod unit
recovery
comment
667nanoceriaROS elimination