Nanobots are robots the size of human blood cells or even smaller.
毫微自动仪是人血液细胞大小或者甚至更小的机器人。
Ultimately, nanobots will replace blood cells and do their work thousands of times more effectively.
最终,纳米机器人将取代我们的红细胞,然且将比我们的红细胞工作效率高几千倍。
Those tiny black dots are nanobots delivering a lethal blow to a cancerous cell, effectively killing it.
图中的小黑点就是给癌细胞以致命打击,有效杀死癌细胞的纳米机器人。
The bacteria swim towards soldier nanobots, where they attach to the nanobots and then download their DNA message.
细菌游到纳米机器人士兵那里并依附他们,士兵下载DNA消息。
If we want to go into virtual-reality mode, nanobots will shut down brain signals and take us wherever we want to go.
如果我们想进入虚拟现实制式,纳米机器人就将关闭脑信号传输然后带我们去任何我们想去的地方。
Such nanobots still exist only in the realm of science fiction, of course, and it may take decades before they become practical.
当然,这样的纳米机器人现在还只存在于科学幻想领域,在它们变得实用之前要花上几十年时间。
So, a team from the Polytechnic University of Catalonia in Barcelona, Spain, are looking at a way to use bacteria as messengers that deliver instructions to nanobots wrapped in DNA.
通过细菌信使向纳米机器人发送封装在DNA内的指令,这是西班牙加泰罗尼亚理工大学的研究人员们正在研究的方向。
So, a team from the Polytechnic University of Catalonia in Barcelona, Spain, are looking at a way to use bacteria as messengers that deliver instructions to nanobots wrapped in DNA.
通过细菌信使向纳米机器人发送封装在DNA内的指令,这是西班牙加泰罗尼亚理工大学的研究人员们正在研究的方向。
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