Patel Geeta M, Patel Gayatri C, Patel Ritesh B, Patel Jayvadan K, Patel Madhabhai
S. K. Patel College of Pharmaceutical Education and Research, Ganpat University, Department of Pharmaceutics & Pharmaceutical Technology, Kherva 382711, Gujarat, India.
J Drug Target. 2006 Feb;14(2):63-7. doi: 10.1080/10611860600612862.
Miniaturizing in chip technology, optics, micro mechanics, medicine, gene and biotechnology requires highly precise positioning techniques. The motivation for the new manipulation technology is the desire to enter the micro- and nanoworld not only by viewing but also acting, altering micro- and nanosized objects. A new era on medicine are expected to happen in the coming years. Due to the advances in the field of nanotechnology, nanodevice manufacturing has been growing gradually. From such achievements in nanotechnology and recent results in biotechnology and genetics, the first operating biological nanorobots are expected to appear in the coming 5 years and more complex diamondoid based nanorobots will become available in about 10 years. In terms of time, it means a very near better future with significant improvements in medicine.
芯片技术、光学、微机械、医学、基因和生物技术的小型化需要高度精确的定位技术。新的操纵技术的动机是不仅通过观察,而且通过操作、改变微米和纳米尺寸的物体进入微观和纳米世界的愿望。预计未来几年医学将迎来一个新时代。由于纳米技术领域的进展,纳米设备制造一直在逐步发展。基于纳米技术的这些成就以及生物技术和遗传学的最新成果,预计首批可操作的生物纳米机器人将在未来5年内出现,更复杂的类金刚石纳米机器人将在大约10年内问世。就时间而言,这意味着医学将有显著改善的非常接近的美好未来。
