Nanotechnology has shown promising potential tools and strategies at the nanometer scale
to improve food production and meet the future demands of agricultural and food security …

The use of nanomaterials in agriculture as nanofertilizers, nanopesticides, or nano-enabled
sensors to increase crop yield is gaining increasing interest. Engineered nanomaterials …

Indiscriminate use of chemical fertilizers in the agricultural production systems to keep pace
with the food and nutritional demand of the galloping population had an adverse impact on …

Abiotic stresses in plants reduce crop growth and productivity. Nanoparticles (NPs) are
effectively involved in the physiochemical processes of crop plants, especially under the …

Accumulation of arsenic (As) in soils is increasing consistently day-by-day, which has
resulted in increased toxicity of this element in various crop plants. Arsenic interferes with …

Abiotic stress in plants is a crucial issue worldwide, especially heavy-metal contaminants,
salinity, and drought. These stresses may raise a lot of issues such as the generation of …

Cadmium (Cd) is among the non-essential elements for the growth of crops while silicon (Si)
is a beneficial element for plant growth. There is little evidence regarding the use of silicon …

Modern nanotechnology allows obtaining zinc oxide nanomaterials with unique properties
that let its use in a wide range of commercial applications. Direct contact with these particles …

ZnO nanoparticles (NPs) are studied as a potential solution to alleviate Zn deficiency in
human diet due to their special physicochemical properties. However, information for food …

Dearth of knowledge about the prospect of using Zinc (Zn) based nanoparticles (NPs) to
enrich Zn-deficient soils with Zn warrants investigations into potential soil applications of …