|

- 积分
- 2555
- 威望
- 2555
- 包包
- 600
|

本帖最后由 细胞海洋 于 2011-11-10 14:07 编辑 & i2 H6 t3 t. y1 s
0 u# E2 W( l) k: F
Any future artificial transporters and robots operating at the nanoscale are likely to require molecules capable of directional translational movement over a surface. Even the design of such molecules is a daunting task, however, as they need to be able to use light, chemical or electrical energy to modulate their interaction with the surface in a way that generates directional motion. Kudernac et al. now unveil just such a molecule, made by attaching four rotary motor units to a central axis. Inelastic electron tunnelling induces conformational changes in the rotors and propels the molecule across a copper surface. By changing the direction of the rotary motion of individual motor units, the self-propelling molecular 'four-wheeler' structure can follow random or preferentially linear trajectories. This design provides a starting point for the exploration of more sophisticated molecular mechanical systems, perhaps with complete control over their direction of motion.
! _- r1 [1 T/ ?" _9 U
+ `5 w/ o: J3 A7 _. N1 |9 d% k
e4 c9 x% J. l[hide][/hide] |
附件: 你需要登录才可以下载或查看附件。没有帐号?注册
-
总评分: 威望 + 21
包包 + 22
查看全部评分
|