仿生纳米测控技术

讨论了纳米技术、纳米测控技术与仿生纳米测控技术，论述了这一课题的重要意义，包括它对生物医学与工程技术的贡献，提出细胞是研究仿生纳米测控技术的优选对象，细胞膜是其最佳切入点，建立了仿生纳米湍 控技术的分子系统与分子网络模型，讨论了实现这些模型的纳米制造、生物技术、化学制造与混合制赞赏等方法，强调了广义纳米制造方法的优越性，集成了细胞膜上的分子系统与分子网络是仿生纳米测控技术的典型，前还可据此构建纳米机器人，后还可据此组建纳米工厂，对纳米测控技术的应用前景作了展望；指出了它将在测控心理活动；基因的诊断、治疗，组建单细胞纳米测控平台；研制纳米机器与组装纳米工厂等领域所发挥的关键作用。

Bionics of Nanotechnology for Measurement and Control

Nanotechnology,nanotechnology for measurement and control,bionics of nanotechnology are discussed.The significance of the topic including its contribution to biology and medicine as well as to engineering and technology is emphasized.Cell may be the best object to be researched.Cell membrane,may be the key of such a study.By means of simulating the structure and function of a cell's membrane,a molecular systematic model of nanorobot and a molecular network model of nanofactory are suggested.Methodologies for realizing such models are presented.Among them,nanofabrication biotechnology,chemical method and hybrid integration are illustrated.Nanofabrication in a broad sense will be preferable to others.At last,a diagram showing the perspectives of the new technologies including measuring and control of psychological state,establishing platform for monitoring a single cell,constructing nanorobot and nanofactory etc was depicted.