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Aging of Nanoscale Cerium Oxide in a Peroxide Environment: Its Influence on the Redox, Surface, and Dispersion Character

Craig J. Neal, Tamil S. Sakthivel, Yifei Fu, Sudipta Seal

2021The Journal of Physical Chemistry C16 citationsDOI

Abstract

Nanoscale cerium oxide has demonstrated substantial utility in biomedical applications. Among the various synthetic approaches, particles formed from addition of hydrogen peroxide have shown a unique functional and physicochemical character, suggesting an implication of the synthesis method in particle performance (e.g., free radical scavenging activity and modulation of oxygen metabolism). In this study, we observe the influence of particle aging in an aqueous peroxide environment for up to 8 weeks and identify three distinct material life stages (cluster/complex aggregation, condensation/hydrolysis, and mature particle redispersion). Particles are seen to undergo initial partial hydrolysis, leading to sedimentation within 24 h. After aging up to 4 weeks, the particles undergo a spontaneous redispersal into suspension with peroxy-phases transformed to oxide/oxy-hydroxides and age to a stable final product within 6 to 8 weeks. Further, these life stages are correlated with pH changes, allowing the in situ monitoring of particle aging and the mapping of the particle physicochemical character (i.e., morphology, aggregation character, and colloid phase composition) onto a pH vs time relation. Colloidal phases formed during these stages are characterized and compared against the fully aged, bio-active particles.

Topics & Concepts

Hydrogen peroxideColloidChemistryParticle (ecology)PeroxideChemical engineeringParticle aggregationDispersion (optics)Cerium oxideNanoparticleOxideHydrolysisInorganic chemistryMaterials scienceNanotechnologyOrganic chemistryEngineeringPhysicsOpticsOceanographyGeologyAdvanced Nanomaterials in CatalysisAdvanced Photocatalysis TechniquesNanoparticles: synthesis and applications
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