材料和制备:更轻、更强和可设计;长寿命和低维修费;以新原理和新结构在纳米层次上构筑特定性的材料或自然界不存在的材料;生物材料和仿生材料;材料破坏过程中纳米级损伤的诊断和修复。 微电子和计算机技术:2010年实现线条为100nm的芯片,纳米技术的目标为:纳米结构的微处理器,效率提高100万倍,10倍带宽的高频网络系统,兆兆比特的存储器(提高1千倍);集成纳米传感器系统。 Material and preparation: Lighter, stronger and designable; Long life and low maintenance costs; Constructing specific materials or non-existent materials at nanoscale with new principles and structures; Biomaterials and biomimetic materials; Material damage Nanoscale damage in the diagnosis and repair process. Microelectronics and Computer Technology: In 2010, a 100 nm-sized chip was implemented. The targets of nanotechnology are: nanostructured microprocessors, 100 million times more efficient, 10 times more bandwidth high-frequency network systems, and larger terabytes of memory 1 thousand times); integrated nano sensor system.