纳米机器人学
模块化设计
DNA折纸
计算机科学
过程(计算)
分布式计算
DNA纳米技术
嵌入式系统
设计过程
航程(航空)
即插即用
纳米技术
计算机体系结构
系统工程
工程设计过程
串联(数学)
计算机硬件
工程类
作者
Martina Pfeiffer,Fiona Cole,Dongfang Wang,Yonggang Ke,Philip Tinnefeld
出处
期刊:Science robotics
[American Association for the Advancement of Science]
日期:2025-10-22
卷期号:10 (107): eadu3679-eadu3679
被引量:2
标识
DOI:10.1126/scirobotics.adu3679
摘要
DNA origami nanorobots allow for the rational design of nanomachines that respond to environmental stimuli with preprogrammed tasks. To date, this mostly is achieved by constructing two-state switches that, upon activation, change their conformation, resulting in the performance of an operation. Their applicability is often limited to a single, specific stimulus-output combination because of their intrinsic properties as two-state systems only. This makes expanding them further challenging. Here, we addressed this limitation by introducing reconfigurable DNA origami arrays as networks of coupled two-state systems. This universal design strategy enables the integration of various operational units into any two-state system within the nanorobot, allowing it to process multiple stimuli, compute responses using multilevel Boolean logic, and execute a range of operations with controlled order, timing, and spatial position. We anticipate that this strategy will be instrumental in further developing DNA origami nanorobots for applications in various technological fields.
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