Nanografi

Nanotechnology offers groundbreaking innovations across numerous sectors, from healthcare to electronics. However, these advancements come with an environmental cost: increased carbon emissions. Leading companies like Nanografi are working to make the production processes of nanomaterials more environmentally friendly, enabling the technology of the future to follow a greener path. To learn about methods for reducing the carbon footprint in the production of nanomaterials, visit our blog page. https://lnkd.in/dJBsAmd3 #nanografi #nanomaterials #carbonfootprint

VPR: A stronger, stretchier, self-healing plastic Researchers at the University of Tokyo have introduced a groundbreaking plastic known as VPR, which represents a significant advancement over conventional plastics in terms of strength, elasticity, and self-healing capabilities. This innovative material is produced by incorporating polyrotaxane into an epoxy resin vitrimer, creating a plastic that not only boasts superior physical properties but also exhibits partial biodegradability and the ability to remember and recover its original shape upon heating. The distinct feature of VPR lies in its strong internal chemical bonds, which maintain form at lower temperatures. However, these bonds can reconfigure when the material is heated above 150°C, allowing the plastic to be reshaped. This characteristic opens up new possibilities for recycling and repairing, making VPR a versatile material suited for a range of applications. The environmental impact of VPR is notably reduced by its capacity for biodegradation. When submerged in seawater for 30 days, the material undergoes a 25% reduction in mass, with polyrotaxane components breaking down into substances that could potentially serve as a food source for marine life. This attribute of VPR aligns with the growing demand for materials that contribute to a circular economy, where the lifecycle of resources is extended through recycling and waste reduction. The study, published in ACS Materials Letters, emphasizes the material’s compatibility with sustainable practices, highlighting its potential to significantly decrease the environmental footprint of plastic products in various industries, from engineering and manufacturing to medicine and sustainable fashion. Source: phys.org #nanografi #nanotechnology #nanotechnologynews #news

How are nanocomposites setting new standards in food packaging? Materials such as nanoclay, graphene and carbon nanotubes play a critical role in maintaining food freshness by reducing the oxygen and moisture permeability of packaging. This technology also improves the mechanical strength and thermal stability of packaging materials, providing longer-lasting protection. To learn more about how nanocomposites are used in food packaging, visit our blog page. Check our products: https://lnkd.in/dNJQ-ZeW #nanografi #nanocomposites #foodpackaging

Fuel cells are electrochemical cells that convert chemical energy into electricity through the chemical reaction of hydrogen and oxygen. The use of nanotechnology offers a potential solution for improving the performance and reducing the costs of fuel cells. Fuel cells with nanostructured components provide advantages in terms of both durability and economics. To learn more about the role of nanotechnology in fuel cells, visit our blog page. https://lnkd.in/drrqVdxF Check our products: https://lnkd.in/enEszy7J #nanografi #nanotechnology #fuelcell

Platinum is a rare, unreactive, ductile, and malleable precious metal, widely used in various industrial applications due to its resistance to corrosion and high temperatures. Platinum foils, fabricated in various thicknesses, are crucial in electronics, electrical contacts, electrode fabrication, and other scientific and industrial uses. To learn platinum foil properties and applications, visit our blog page. https://lnkd.in/dMttmUr7

Discover Game-Changing Breakthroughs: Graphene 7) Graphene in Environmental Filtration Graphene’s nanoscopic pores and high surface area make it an ideal material for filtering out contaminants from water and air. Its ability to selectively remove nanoparticles, bacteria, and viruses from water can significantly improve the quality of drinking water. In air filtration, graphene layers can trap pollutants and allergens, enhancing indoor air quality. The development of graphene filters could lead to more sustainable and effective environmental purification technologies. 8) Graphene for Energy Storage Devices Graphene’s exceptional electrical conductivity facilitates a rapid electron transfer, thereby diminishing charging intervals. Moreover, its mechanical robustness and flexibility contribute to the endurance and lifecycle extension of energy storage systems. These attributes position graphene as a pivotal material in the evolution of advanced power storage solutions. 9) Graphene-Enhanced Smart Textiles Integration of graphene into smart textiles is being explored for their potential to accurately monitor health indicators (heart rate, temperature, hydration levels) and improve athletic performance through real-time data. Additionally, graphene’s inclusion in textiles paves the way for adaptive clothing, capable of adjusting properties like breathability and thermal regulation based on environmental conditions, thereby offering practical applications in healthcare and athletic sectors.

Do you want your vehicle to look like new for years? Anti-rust nano coating paints represent a significant advancement in combating corrosion in the automotive industry, utilizing nanoparticles like zinc oxide, silica, and graphene to enhance durability and protection. These innovative coatings extend vehicle lifespan and aesthetic appeal by forming an impermeable barrier against environmental factors. To learn more about anti-rust nano coating paints in automotive, visit our blog page. https://lnkd.in/ddMhC-Nr

"Graphene is dead, long live graphene." The 3rd issue of Inside Meta, presented by Nanografi Science Club, has just been published and is a must-read for anyone interested in the exciting world of nanotechnology. Featuring the latest findings and expert opinions, this eagerly awaited publication offers a unique chance to keep abreast of recent developments. To enhance your understanding and gather crucial information on nanotechnology, you can read our 3rd issue. Download Your Free Copy of Inside Meta 3 https://lnkd.in/gxtbbNdn #nanografi #scienceclub #insidemeta

Are lithium-ion batteries running out of life? Lithium ion batteries offer a wide range of uses from electric vehicles to mobile devices with their high energy density and long life, but they lose performance over time. To improve the performance of lithium-ion batteries, scientists are working on advanced anode and cathode materials to increase energy density and shorten charging times. To learn more about the impact of advanced materials on extending the shelf life of a lithium-ion battery, visit our blog. https://lnkd.in/gs9sNe2S #nanografi #lithiumionbattery #nanomaterials

Celebrating the Power of Women in Science and Technology! 🌺 👩🏻🔬 On this special day, we celebrate the achievements and contributions of female scientists across a wide spectrum of fields, from nanotechnology to biotechnology, engineering to environmental sciences. The contributions of women to science and technology are making our society a better place and serving as an inspiration to future generations. Thanks to their courage, passion, and creativity, the world is moving forward every day. The place of women in science deserves to be celebrated not just today, but every day. Their successes continue to inspire and guide future generations. Happy International Women’s Day! #womensday