Speaker
Description
The organic nature and non-toxicity of nanomaterials prepared in the field of nanotechnology studies and synthesis and preparation of nanobiosynthetic therapeutics (especially in the pharmaceutical and health industries) are the first priority of pharmaceutical industry research. Accordingly, researchers in the field of nanomaterials are forced to produce environmentally friendly nanoparticles using enzymes, microscopic organisms, and especially plant extracts (due to ease of synthesis and extraction). The use of plant extracts in the synthesis of nanoparticles (phytosynthesis) can be an environmentally friendly method and a suitable alternative to conventional methods such as physical and chemical methods. Plants are considered suitable options for the production of nanoparticles by biological methods due to their abundance and lack of need for special conditions and nutrients for growth. The production of nanoparticles with high purity, particle size distribution and stability are other advantages of the synthesis of nanoparticles by phytosynthesis. The use of green nanotechnology, along with research on the use of clay minerals (such as montmorillonite), has led to the synthesis of plant-based nanocomposites based on nanoclay due to their valuable properties in the field of nanotechnology. Modifying and encapsulating optimized nanoclay with curcumin molecules is a very safe method without using any chemical compound in the production of herbal drug carriers based on nanoclay. Preparation and production of herbal therapeutic nanomaterials based on modified clays is a very new research in green nanotechnology research with herbal extracts (phytosynthesis) in the pharmaceutical industry.Safe and environmentally and organism-compatible mineral-plant antibacterial nanocomposites are a new and practical step in research to combat and prevent various diseases today. These produced nanocomposites, in addition to being functional, environmentally friendly and compatible with the body's metabolic system, have also been able to improve the disadvantages of the herbal extracts properties (Such as low solubility and rapid metabolism of curcumin). And also provide the transport and release of effective herbal medicine ingredients.
