Multifunctional biofunctionalized hybrid nanoantifungals with novel active coating agents based on cinnamaldehyde- and β-cyclocitral-modified polydopamine
Maria Paz García-Simarro, Maria Mondéjar-López, Joaquin C. García-Martínez, Antonio Cuesta-Casas, Sergio Casas-Tintó, Oussama Ahrazem, Lourdes Gómez-Gómez, Enrique Niza

TL;DR
This paper introduces new hybrid nanoparticles that fight fungal pathogens and promote plant growth, offering a sustainable alternative to traditional pesticides.
Contribution
The novelty lies in the development of multifunctional antifungal nanoparticles with pH-responsive release and plant growth promotion capabilities.
Findings
Nanoparticles released up to 94% geraniol and 81% β-cyclocitral at pH 5, showing pH-responsive behavior.
Antifungal activity was strong with MICs as low as 0.078 mg/mL and visible mycelial disruption.
Treated plants showed improved germination, growth, and physiological markers under fungal stress.
Abstract
Fungal pathogens pose serious threats to global agriculture, causing substantial crop loss and food security concerns. Current solutions often rely on conventional pesticides, generating negative environmental impacts. This study presents the development of two novel multifunctional hybrid nanoparticles designed to provide a sustainable alternative for crop protection and growth promotion. These nanoparticles are based on dendritic mesoporous silica nanoparticles (dMSNs) and functionalized with innovative coating agents derived from cinnamaldehyde- (CIN) and β-cyclocitral (βETA) -modified polydopamine (DOPA). The purpose of this research was to create a system that could deliver antifungal agents and support plant development simultaneously, especially under pathogen-induced stress. Nanoparticles exhibited a dual-release mechanism with pH-responsive kinetics, releasing up to 94 % of…
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Taxonomy
TopicsPolymer-Based Agricultural Enhancements · Nanocomposite Films for Food Packaging · Plant Growth Enhancement Techniques
