克利夫兰Case Western Reserve大学的李科特博士和他的小组,研制出了一种以有机物和碳为基础,含有金属原子且只有一个分子厚度的薄膜.薄膜中起传导电流作用的金属原子排列成非常精密的几何图形,而碳则起着绝缘体的作用.这种超薄膜对电流只产生很小的电阻,在用其制做的芯片中数据的传输速度比普通硅芯片快数千倍.一些科学家预言,由这种薄膜制做芯片,将使计算机工作更加接近模拟大脑的生物化学过程.随着此技术的应用,微电子学将 Dr. Liekot, of Case Western Reserve University in Cleveland, and his team developed a thin film of organic and carbon-based metal atoms with only one molecular thickness. The metal atoms in the film that act as conduction currents are arranged very differently Precision geometry, and carbon acts as an insulator. This ultra-thin film has only a small resistance to current flow, and data is transmitted thousands of times faster in a chip made from it than an ordinary silicon chip. Some scientists It is predicted that the chip made from this thin film will make the computer work more closely to simulate the biochemical process of the brain.With the application of this technology, microelectronics will