Nanoparticle fertilizers can increase the number of agricultural products. Therefore, the use of nanoparticle fertilizers is increasing in different countries. nanoparticles fertilizer suppliers and exporters to providing this product at a good price.
nanotechnology in biofertilizer
Nanotechnology with engineered bionano fertilizer production can have severe effects such as increasing crop yields by up to 250%, which in addition to environmental fertilizer, increased plant rooting, increased growth rate, reduced pest effects, and adverse factors. Like heavy metal and toxic elements. These properties are possible by engineering the structure and composition of fertilizers, for example by using nano-pores or core and shell structures. By blocking undesirable, toxic structures and heavy metals, these nano biofertilizer increase crop yields and crop yields, as well as increase root absorption capacity, giving the plant more optimum yield, and all of these, along with the use of crop structures. It is biodegradable instead of chemical and destructive. Reducing the amount of fertilizer needed for use can also be an interesting property that can prevent wastage of fertilizer resources and reduce the volume of materials and structures added to nature. The water absorbed in the nano fertilizers is released over time and at a controlled rate, which makes it easier for the plant’s root conditions to absorb the material continuously and produce crops
Applications of Nanotechnology in Plant Growth
Nanotechnology and science have been introduced in many fields and the ability to improve the properties of materials and optimize their performance in structures, materials, and tools has created the conditions necessary for this science to enter various fields. The food and agriculture industries are two areas where the future impact of nanoscience and nanotechnology can witness many advances in agricultural and food resource management.
Agriculture can be considered one of the most important areas of all ages in terms of food supply and energy supply of human societies and is divided into the following sections:
- Agriculture Plants
- Greenhouse Industries
Each of these sectors in trends can be optimized under nanotechnology and operate with higher efficiency and less waste.
In this field, nanotechnology can be optimized for different elements such as pesticides, soil, plant breeding, etc. used in planting, harvesting and harvesting processes with minimal biodegradation. Agricultural science is aimed at increasing the yields of growth and land use and increasing the nutritional value of crops.
Nano-Farming: A New Frontier in Agricultural Development
The dimensions used in biological and environmental sciences and especially in the fields of agriculture and … are very close to the dimensions of micrometers and nanometers, which is why engineering and resolving field problems related to these dimensions through science and Nanotechnology will be much simpler if areas of different dimensions can also be complemented and utilized by nanotechnology. Nanotechnology by affecting various sectors of the agricultural and food industries will have the capability to improve and optimize these sectors in addition to resolving the problems in this sector depending on the issues that are widespread in each sector of the industry. There will be different ideas and insights from nanotechnology scientists.
Sources and Synthesis of Green Nanoparticles
Worldwide efforts to protect human health and the environment through the use of nanotechnology to nano fertilizer manufacturing process, design, and develop Green Material and to prevent the use of various harmful substances (such as lead, mercury, hexavalent chromium, Polyphenyl biphenyls, and polyphenyl diphenyl ethers). Green materials are materials made from environmentally friendly, recyclable or sustainable elements, do not degrade, and do not drain resources. However, it is also possible to refer to the term green materials as non-toxic and environmentally friendly biological materials that make human life safer.
Nano-layered materials – such as double-layered hydroxides, double hydroxy salts, and clays – rank green for compatibility and biological applications. In recent years, layered nanomaterials have been used as a protector or model for industrial chemical processes, and more attention is now being paid to the biological applications of these nanomaterials – such as the source of biomolecules and use in agriculture as modifying and nutritional agents.