What "plants" are used in "green synthesis" of "metal nanoparticles" in "agriculture" as "insecticide" in "pakistan"?
Best insight from top research papers
Plants used in the green synthesis of metal nanoparticles for insecticide purposes in agriculture in Pakistan include microalgae and diverse plant species . These plants have been found to be effective in reducing metal ions and creating nanoparticles through their biomolecules . The synthesis of nanoparticles from plant extracts is considered a greener and more environmentally friendly approach . The use of plant materials for nanoparticle synthesis is advantageous due to their accessibility, affordability, safety, and ability to incorporate unique properties into the nanoparticles . The specific plant species used in Pakistan for this purpose are not mentioned in the abstracts provided. However, the use of phytochemicals in plant extracts as reducing agents to convert metal salts into nanoparticles has been actively pursued as an efficient and environmentally friendly method . Further research may provide more specific information on the plants used for green synthesis of metal nanoparticles in agriculture as insecticides in Pakistan.
Answers from top 5 papers
More filters
| Papers (5) | Insight |
|---|---|
| The provided paper does not mention specific plants used in the green synthesis of metal nanoparticles as insecticides in agriculture in Pakistan. | |
| The provided paper does not mention the specific plants used in the green synthesis of metal nanoparticles as insecticides in agriculture in Pakistan. | |
| The provided paper does not mention the specific plants used in green synthesis of metal nanoparticles as insecticides in agriculture in Pakistan. | |
| The paper does not mention specific plants used in green synthesis of metal nanoparticles as insecticides in agriculture in Pakistan. | |
| The provided paper does not mention specific plants used in green synthesis of metal nanoparticles as insecticides in agriculture in Pakistan. |
Related Questions
What are the environmental implications of using plant-based sources for nanoparticle synthesis compared to conventional sources?5 answersUsing plant-based sources for nanoparticle synthesis offers significant environmental benefits compared to conventional sources. Plant-based synthesis methods align with green chemistry principles, utilizing locally available and abundant resources. These methods are eco-friendly, safe, and cost-effective, reducing the reliance on toxic chemicals and minimizing environmental harm. Additionally, plant extracts contain biomolecules that aid in reducing metal ions and creating nanoparticles through a single-step synthesis process, further promoting sustainability. The waste produced during biological synthesis is recyclable, decreasing environmental pollution and offering a renewable and biodegradable alternative for various applications, such as in food packaging. Overall, plant-based nanoparticle synthesis not only minimizes environmental toxicity but also contributes to sustainable practices and resource utilization.
Can plant oils be used in the green synthesis of nanoparticles?4 answersPlant oils can be used in the green synthesis of nanoparticles. They are potential substitutes for petroleum derivatives and present a clean and environmentally friendly alternative. Biomass-derived chemicals can be converted into monomers with unique structures, generating materials with new properties for the synthesis of sustainable monomers and polymers. The production of bio-based polymeric nanoparticles using plant oils is a promising application of green chemistry for biomedical uses. These nanoparticles can control the release of substances, increase bioavailability, reduce problems with volatility and degradation, reduce side effects, and increase treatment efficiency. Additionally, plant oils can be used in the synthesis of nanomaterials, reducing the undesirable effects of conventional synthesis routes based on hazardous/toxic chemical reagents. They can also associate the properties of nanomaterials with those present in the extracts and essential oils, providing a promising field for further exploration.
How does biogenic nanoparticle useful in plant disease control?4 answersBiogenic nanoparticles have shown great potential in plant disease control. They are more efficient fungicides than agrochemicals and can be used as an alternative treatment for disease and pest management in agriculture and health. Fungal-mediated nanoparticles, such as mycogenic nanoparticles, play a crucial role in defending plants against pests and pathogens. Nanotechnology has provided tools to enhance the effectiveness of microbial biofertilizers in plants, including increasing bacterial population, viability, and stability. Nanoparticles can also be used in plant disease management by delivering biomolecules to plants for genetic engineering and inducing disease resistance genes. Nanomaterials, including metallic and polymeric nanoparticles, can act as nanoactive herbicides and fungicides, improving the efficiency and reducing the toxicity of conventional chemical treatments. Overall, biogenic nanoparticles offer a low-cost, efficient, safe, and sustainable solution for plant disease prevention and can revolutionize agriculture.
What are the advantages and disadvantages of green synthesis of nanoparticles?5 answersThe green synthesis of nanoparticles offers several advantages. It is a promising and environmentally friendly approach that uses natural reagents instead of hazardous chemicals, reducing the carbon footprint and promoting sustainable development. Green synthesis methods have shown to be effective in creating nanoparticles with reduced environmental impact and enhanced biocompatibility. Additionally, green synthesis is cost-effective and utilizes natural resources, making it a more sustainable option. However, there are also some limitations to green synthesis. These include challenges in controlling the size, morphology, and polydispersity of the nanoparticles, as well as longer reaction times. Despite these limitations, the advantages of green synthesis make it a promising method for the synthesis of nanoparticles with potential applications in various fields.
What are the advantages of plant mediated synthesis of nanoparticles?4 answersPlant-mediated synthesis of nanoparticles offers several advantages. Firstly, it is a green and sustainable alternative to traditional methods, as it uses safe organic resources like plants and microorganisms, reducing the need for harmful chemicals and solvents. Secondly, plant extracts contain various molecular entities such as flavonoids, terpenoids, and polyphenols, which act as stabilizing and reducing agents for the synthesis of nanoparticles. This makes the process facile, eco-friendly, and non-toxic. Additionally, nanoparticles synthesized using plant extracts are highly stable, less expensive, and non-toxic, making them suitable for various applications in medicine, catalysis, sensing, electronics, and photonics. The use of plant-mediated synthesis also addresses the growing concern of drug resistance in certain pathogenic microorganisms, as the nanoparticles exhibit better antimicrobial activity compared to conventional drugs. Overall, plant-mediated synthesis of nanoparticles provides a cost-effective, eco-friendly, and efficient approach for the production of nanomaterials with diverse applications.
What are diffrent green synthesis method employed for synthesis of nanoparticles?5 answersGreen synthesis methods employed for the synthesis of nanoparticles include the use of natural reagents such as herbs, bacteria, fungi, and agricultural waste instead of hazardous chemicals. These methods are considered environmentally friendly and have a low cost, negligible pollution level, and safety for the environment and human health. The green synthesis approach has been used to produce different types of nanomaterials, including metal oxide-based, inert metal-based, carbon-based, and composite-based nanoparticles. However, there are limitations to green synthesis, such as the handling of microbes and control of nanoparticle dimensions, crystallinity, and morphology. To address these limitations, researchers have tuned reaction parameters such as time, temperature, pH, and the amount of biological components used. Green synthesis methods follow eco-friendly laboratory protocols and aim to limit the use of synthetic chemicals. These methods involve assessing bioactivities of the nanoparticles and optimizing their characteristics through various physicochemical characterizations. The principles of green chemistry are followed for nanomaterial synthesis, which include environmental friendliness, cost-effectiveness, and biocompatibility. Microalgae and cyanobacteria have also been studied for their potential in green nanoparticle synthesis due to their metal ions accumulation capability and phytoremediation potential.