材料科学与纳米材料学报

抽象的

Nanoparticle Synthesis: Advancements in Controlling Matter at the Smallest Scales

Sumit Sharma

Nanoparticle synthesis has undergone remarkable advancements, enabling precise control over size, shape, and composition. This article provides an overview of key nanoparticle synthesis methods, including chemical synthesis, sol-gel techniques, biological synthesis, and physical vapor deposition. Recent developments showcase the precision engineering of nanoparticles, leading to multifunctional designs with applications in medicine, electronics, and environmental remediation. Nanoalloys and nanoparticle-based vaccines represent innovative trends, demonstrating the versatility of nanoparticles in catalysis, medicine, and disease prevention. Future prospects include personalized medicine, advanced electronics, clean energy solutions, environmental remediation, and contributions to space exploration. Nanoparticle synthesis stands at the forefront of scientific and technological progress, offering unprecedented opportunities for breakthroughs in diverse industries.