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This frees up the nanoparticles to absorb additional free radicals. Nanoparticles may also be used in inhalable vaccines in the future as the surface change of protein-filled nanoparticles impacts the ability of the nanoparticle to stimulate immune responses The natural bone surface in most cases contains features that are approximately 100 nm across. If an artificial bone implant’s surface is smooth, the body will reject it. By creating nano-sized features on the surface of the knee or hip prosthesis, the chances of rejection can be reduced. The production of osteoblasts can also be simulated, this was demonstrated using ceramic, polymeric, and recently, metal materials. These findings could help to design a robust and long-lasting hip or knee replacements and reduce the chances of the implant becoming loose. Nanotechnology is being used by many manufacturers to develop products with better capabilities or to lower their production costs. Researchers at Purdue University have demonstrated a method called laser shock imprinting that produces nanoscale metallic shapes, which could potentially give them appealing optical and mechanical properties using a bench-top system. This system produces the shapes cost-effectively and at a large scale. A major advantage of the shock-induced forming method is that it creates high-fidelity structures and sharply defined vertical features and corners. In another study, Northwestern University researchers developed a low-cost, high-resolution nanofabrication tool, which employs beam-pen lithography arrays to aromatherapy diffuser produce nanoscale structures. This tool enables users to quickly process substrates that are coated with photosensitive materials known as resists and create structures that cover the micro-, macro-, and nanoscales, all in a single experiment. Materials fabrication and materials innovation are at the core of nanoscale science and engineering. Nanotechnology makes it possible to modify the materials’ key structures at the nanoscale to obtain the desired properties. Through nanotechnology, materials can be made lighter, stronger, more durable, more sieve-like, more reactive, better electrical conductors, etc. More than 800 commercial products depend on nanoscale processes and materials, For instance, nanoscale additives used in polymer composite materials for tennis rackets, baseball bats, automobile bumpers, motorcycle helmets, power tool housings, and luggage can make them strong, lightweight, resilient, and long-lasting. Similarly, the use of nanoscale additives for surface treatments of fabrics makes the fabrics resistant to staining, wrinkling, and bacterial growth. Nanoparticles are being used in many applications to improve the environment. For instance, photocatalytic copper tungsten oxide nanoparticles are being tested to break down oil into biodegradable compounds. The nanoparticles are placed in a grid to provide high surface area for the reaction. They can be activated by sunlight and can work in water, making them useful for cleaning up oil spills.

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