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Metal nanoparticles/polymers hybrid materials have significantly contributed to the develop of nanotechnology. Moreover, these hybrid materials can respond to stimuli (e.g., pH, temperature, light, magnetic field) or self-degrade in a controlled manner to release metal nanoparticles or therapeutics encapsulated. Functional and structural hybrid materials provide opportunities for creative fields, remarkable properties, and future advanced applications. This Special Issue focuses on highlighting the progress of new hybrid materials, based on metal nanoparticles and polymers, their design, preparation, functionalization, characterization, and advanced applications.

Technology: general issues --- History of engineering & technology --- Mining technology & engineering --- alginate --- non-chloride in situ preparation --- nano-cuprous oxide --- flame-retardant --- mechanism --- nanoparticles --- polyethylene glycol --- Tween 80 --- cytotoxicity --- hemotoxicity --- primary cell culture --- medical applications --- SERS --- PMMA --- AgNPs --- in-situ --- adenosine --- methylene-blue --- smart hybrid materials --- properties of nanoparticles–reinforced polymers --- biotechnology --- cellulose acetate --- porosity --- ionic radius --- water-pressure --- silver nanoparticles --- nanocellulose --- engineered nanomaterials --- water monitoring --- water treatment --- ecosafety --- ecotoxicology --- eco-design --- polymersomes --- vesicles --- drug-delivery --- ultrafast laser --- plasmonic --- nanobubble --- fragmentation --- zero valent copper --- Cu0-containing hybrid anion exchanger --- Cu2O reduction --- ascorbic acid as reducer --- n/a --- properties of nanoparticles-reinforced polymers