The global push toward clean and reliable energy has made advanced energy storage systems more important than ever. We rely on portable electronics, electric vehicles, and backup power systems every day, and all of them…
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Over the past decade, two-dimensional (2D) materials have completely changed how we think about advanced technologies. It started with graphene, but the family has grown: metal dichalcogenides, boron nitride, and now a particularly exciting class…
(read more)Two-dimensional (2D) materials continue to reshape modern materials science, giving researchers the ability to design structures with exceptional properties for advanced technologies. Within this class of materials, MXenes have emerged as one of the most…
(read more)Producing hydrogen from water using light — known as photocatalytic water splitting — is one of the most promising routes toward clean and sustainable energy. Hydrogen produced in this way does not rely on fossil…
(read more)Modern separation technologies—especially those used for water purification, desalination, and wastewater treatment—are undergoing a significant transformation. This transformation is largely driven by two-dimensional (2D) materials, with MXenes standing out as one of the most promising…
(read more)Two-dimensional (2D) materials have changed the direction of modern materials science—especially MXenes, a fast-growing family of transition-metal carbides, nitrides, and carbonitrides. These materials have gained global attention for their exceptional electrical conductivity, large surface area,…
(read more)In recent years, two-dimensional (2D) materials have completely changed how scientists think about light, electronics, and energy. Graphene was the first big star, but it’s far from the only one. A growing family of 2D…
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Treating Bone Cancer and Repairing the Damage: Why This Study Matters Bone tumors, especially osteosarcoma, often affect children and adolescents and have a relatively poor long-term survival rate. The standard approach in the clinic is:…
(read more)In recent years, the demand for better energy storage has exploded. From electric vehicles to portable electronics and smart grids, we need devices that can charge fast, deliver high power, and last a long time.…
(read more)1. Why Do We Care About New Anode Materials? Modern technology relies heavily on rechargeable lithium-ion batteries: smartphones, laptops, electric cars, stationary storage and more. As devices get smaller and more powerful, the expectations for…
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