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Literature DB >> 18006737

Mobile robots: motor challenges and materials solutions.

Abstract

Bolted-down robots labor in our factories, performing the same task over and over again. Where are the robots that run and jump? Equaling human performance is very difficult for many reasons, including the basic challenge of demonstrating motors and transmissions that efficiently match the power per unit mass of muscle. In order to exceed animal agility, new actuators are needed. Materials that change dimension in response to applied voltage, so-called artificial muscle technologies, outperform muscle in most respects and so provide a promising means of improving robots. In the longer term, robots powered by atomically perfect fibers will outrun us all.

Entities: Disease Species

Mesh：

Year: 2007 PMID： 18006737 DOI： 10.1126/science.1146351

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

18 in total

1. Tetherless thermobiochemically actuated microgrippers.

Authors: Timothy G Leong; Christina L Randall; Bryan R Benson; Noy Bassik; George M Stern; David H Gracias
Journal: Proc Natl Acad Sci U S A Date: 2009-01-12 Impact factor: 11.205

2. Preparation of biomimetic hierarchically helical fiber actuators from carbon nanotubes.

Authors: Jue Deng; Yifan Xu; Sisi He; Peining Chen; Luke Bao; Yajie Hu; Bingjie Wang; Xuemei Sun; Huisheng Peng
Journal: Nat Protoc Date: 2017-06-08 Impact factor: 13.491

3. Enzymatically triggered actuation of miniaturized tools.

Authors: Noy Bassik; Alla Brafman; Aasiyeh M Zarafshar; Mustapha Jamal; Delgermaa Luvsanjav; Florin M Selaru; David H Gracias
Journal: J Am Chem Soc Date: 2010-09-17 Impact factor: 15.419

4. Conductive cable fibers with insulating surface prepared by coaxial electrospinning of multiwalled nanotubes and cellulose.

Authors: Minoru Miyauchi; Jianjun Miao; Trevor J Simmons; Jong-Won Lee; Thomas V Doherty; Jonathan S Dordick; Robert J Linhardt
Journal: Biomacromolecules Date: 2010-09-13 Impact factor: 6.988

Mobile robots: motor challenges and materials solutions.

1. Tetherless thermobiochemically actuated microgrippers.

2. Preparation of biomimetic hierarchically helical fiber actuators from carbon nanotubes.

3. Enzymatically triggered actuation of miniaturized tools.

4. Conductive cable fibers with insulating surface prepared by coaxial electrospinning of multiwalled nanotubes and cellulose.

5. Multi-environment robotic transitions through adaptive morphogenesis.

6. Double-layer mediated electromechanical response of amyloid fibrils in liquid environment.

7. Stimuli-responsive transformation in carbon nanotube/expanding microsphere-polymer composites.

8. Room temperature operable autonomously moving bio-microrobot powered by insect dorsal vessel tissue.

9. Theoretical Hill-type muscle and stability: numerical model and application.

10. Tough nanocomposite ionogel-based actuator exhibits robust performance.