前不久,科学家们开发出了一种利用悬浮在液体中的团状纳米颗粒进行信息存储的技术。这些颗粒的存储能力要比传统硬盘强很多。与只有“0”和“1”两种状态的二进制数存储系统不同,液态存储系统的工作方式有点像魔方,它利用不同的组合来代表不同的存储状态:当中心球体较小时,外围颗粒能够稳定排列,代表一种信息状态;当中心球体变大时,颗粒就可以重新排列,代表另一种信息状态。由1个中心球体和周围12个颗粒构成的存储团的结构就能有近800万个不同状态,相当于2.86字节 Not long ago, scientists developed a technology that utilizes the agglomeration of nanoparticles suspended in a liquid for information storage. The storage capacity of these particles than the traditional hard drive much stronger. Unlike binary storage systems, which have two states, “0 ” and “”, the liquid storage system works a bit like a cube, which uses different combinations to represent different storage states: When the center sphere is small , Peripheral particles can be a stable arrangement, representing an information state; when the center sphere becomes larger, the particles can be rearranged to represent another state of information. The structure of a storage group consisting of a central sphere and the surrounding 12 particles can have nearly 8 million different states, corresponding to 2.86 bytes