二十世纪是电晶体的世纪.而二十一世纪将是非晶体的世纪.生物电子学研究将会引发另一场电子技术革命.目前集成电路的发展已开始接近物理极限.当电路通路的布线小于O.1μm是有相当的技术困难,换句话说.O.1μm似乎是电子器件缩小程度的底线.另一个令人感到辣手的问题是当把更复杂的电路硬塞到更小的晶片上,一旦晶片工作起来亦因热消耗而导致元件损毁,根据计算及由实验证明,在一立方厘米的空间上不可能多于二十五万个阐. The twentieth century is the century of transistors, while the twenty-first century will be the century of non-crystalline .Biological electronics research will lead to another revolution in electronic technology .At present, the development of integrated circuits has begun to close to the physical limit.When the circuit routing In less than 0.1 μm, there is considerable technical difficulty, in other words 0.1 μm seems to be the bottom line for the reduction in the size of the electronic device.Another intriguing problem is that when more complex circuits are hard-wired to smaller wafers Once the chip is working, it also damages the device due to heat consumption. According to calculation and experiments, it is impossible to show more than 250,000 in one cubic centimeter.