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Hybrid nanoencapsulation systems: integrating natural polymers with synthetic nanomaterials for enhanced delivery of bioactive compounds in functional foods

Maheshika Sethunga, S. C. Rangani, Imalka Munaweera, K. K. D. S. Ranaweera

2025Nanoscale Advances14 citationsDOIOpen Access PDF

Abstract

, PLGA, PEG, mesoporous silica). We examine key fabrication strategies including self-assembly, layer-by-layer assembly, electrospinning, and nanoprecipitation, emphasizing how each method enhances encapsulation efficiency, physicochemical stability, and controlled release of sensitive bioactives. The role of chemical and enzymatic modifications such as phosphorylation, esterification, hydrolysis, and Maillard conjugation in tailoring interfacial activity and retention of nutraceuticals is highlighted. Recent developments in smart, stimuli-responsive composites are discussed for their ability to enable site-specific, on-demand release. Notable improvements in bioavailability, oxidative resistance, and environmental resilience across diverse food matrices are demonstrated. Remaining challenges include scalable manufacturing, rigorous safety and efficacy validation, regulatory compliance, and consumer acceptance. We propose future research priorities around green synthesis, food-grade material innovation, and comprehensive risk assessment to accelerate translation into commercial functional foods.

Topics & Concepts

NanotechnologyBiocompatibilityNatural polymersNanomaterialsMaterials sciencePolymerNutraceuticalBiochemical engineeringDrug deliveryBiocompatible materialFunctional polymersSmart polymerBiodegradable polymerMicroencapsulation and Drying ProcessesNanocomposite Films for Food PackagingProteins in Food Systems