Overview of Silver Nanoparticles
Silver ultrafine particles are engineered particles of silver that are less than 100 nanometers in at least one dimension. At this size, silver exhibits different optical, electrical and chemical properties compared to its larger bulk counterpart. Silver ultrafine particles are the most commonly manufactured type of metal nanoparticles today due to their strong antibacterial properties. Some key advantages of silver ultrafine particles include their small size, large surface area and unique chemical and physical properties at the nanoscale.
Production and Manufacturing of Silver Nanoparticles
There are three main methods for producing Silver Nanoparticles - physical, chemical and biological. In the physical method, silver ultrafine particles are produced using processes like laser ablation or lithography which involves exposing silver to a laser or electron beam. The chemical reduction method is the most common which involves adding a reducing agent like sodium borohydride or citrate to a solution of silver salt like silver nitrate. This results in the reduction of silver ions and formation of silver ultrafine particles. In the biological method, silver ultrafine particles are synthesized using plant extracts or microorganisms where the biomolecules act as both reducing and capping agents. Globally, over 300 tonnes of silver ultrafine particles are manufactured annually mainly for applications in healthcare, consumer products and electronics industries.
Applications in Healthcare Sector
The antimicrobial properties of silver ultrafine particles make them very useful in various healthcare applications. Silver ultrafine particles are used in wound dressings, surgical masks, contraceptive devices and medical implants. They help control infection and promote faster healing of wounds. Some burn creams and bandages contain silver ultrafine particles as they have shown effectiveness against antibiotic resistant microbes. Research is also ongoing into developing new wound healing gels, dressings and coatings for medical devices using silver ultrafine particles. Their application can help reduce healthcare costs associated with treating chronic or antibiotic resistant infections.
Use in Consumer Products
Consumer products containing silver ultrafine particles as additive have grown significantly over the past decade. They are widely incorporated into various textiles, plastics, coatings and food packaging to inhibit the growth of microorganisms. Some common uses include incorporating silver ultrafine particles in socks, underwear and sportswear to reduce odor-causing bacteria. Their use helps increase hygiene and freshness of textile products. In plastics, they are added to food containers and water bottles to extend their shelf life. Silver ultrafine particles impregnated surfaces have applications as self-cleaning and anti-microbial coatings for household items. Companies producing household goods, food packaging, textiles and personal care products are major end-users of silver ultrafine particles.
Regulations and Safety of Silver ultrafine particles
With the increasing production and applications of silver ultrafine particles, some concerns have been raised about their health and environmental impact. At the nanoscale, particles behave differently and may have greater reactivity compared to their bulk counterparts. There is ongoing research to understand the toxicity of silver ultrafine particles and their ability to enter cells or cross biological barriers like the blood-brain barrier. Most regulatory agencies currently do not have specific regulations pertaining to nanomaterials. However, some agencies have issued non-binding recommendations for conducting risk assessments and toxicity testing of nanomaterials. Industry players are expected to conduct detailed safety studies before marketing silver nanoparticle based products for consumer use. While silver ultrafine particles offer several advantages, appropriate safety guidelines and regulations need to be established to ensure their responsible development and use.
Advancements in Silver Nanoparticle Technology
Continued research efforts are expanding the applications of silver ultrafine particles. New methods are being developed for large-scale, energy efficient and green synthesis of silver ultrafine particles. Their unique properties are being harnessed for diverse applications like biodiagnostics, cancer therapy, water treatment and electronics. Silver ultrafine particles show promise as anti-viral agents and some studies indicate they may be effective against SARS-CoV-2 virus. Researchers are engineering novel nanocomposites by combining silver ultrafine particles with other materials to achieve multi-functional properties.
In Summary, development of silver nanoparticle coated medical devices, self-cleaning water filters and aircraft coatings with anti-icing properties. Overall, advancements in synthesis and functionalization of silver ultrafine particles will play a key role in transitioning their lab-scale use to large-scale commercial applications.
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