From: Nanotechnology for research and treatment of the intestine
Type | Nanomaterials | Function | Refs. |
---|---|---|---|
Metal-based NPs | Ag NPs (plant-mediated) | Antibacterial activity | [32] |
AgPd0.38 nanocages | Eliminating antibiotic-resistant bacteria | [33] | |
ZnO NPs | Antibacterial activity | [34] | |
Cu NPs | Antibacterial activity | [35] | |
Au NP-AMP | Eliminating antibiotic-resistant bacteria | [36] | |
Au NPs | Medical imaging | [37] | |
Nanogel | Graphene oxide- quaternary ammonium salt hydrogels | Antibacterial activity | [38] |
Chitosan-montmorillonite hydrogels | Tissue engineering | [39] | |
Polynitrogen-isopropylacrylamide and acrylic acid (pNIPAM-co- AAc) hydrogels | Drug delivery | [40] | |
Pseudopeptides and decylamine (PLP-NDA) nanogel | Drug delivery | [41] | |
Cyanidin-3-O-glucoside Nanogel | Chemical stability and Antioxidant activity | [42] | |
Nanofibers | Nanofiber film (fatty acid chloride) | Food packaging | [43] |
Amoxicillin trihydrate-Bombyx mori silk fibroin | Drug delivery | [44] | |
Insulin-hydroxypropyl methylcellulose phthalate NPs | Drug delivery | [45] | |
Cellulose nanocrystals -CaCl2 | Drug delivery | [46] | |
Nanoclays | Chitosan-functionalized HNTs grafting copper and laccase | Enzymatic catalysis | [47] |
3-aminopropyltriethoxysilane functionalized HNTs (APTES-HNT) | Ionic adsorption | [48] | |
Ciprofloxacin enclosed in APTES-HNT | Drug delivery | [49] | |
Microparticles embedded in amine-functionalized HNTs | Drug delivery | [50] | |
Paclitaxel encapsulated in HNTs | Drug delivery | [51] |