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Literature DB >> 19299612

Giant-stroke, superelastic carbon nanotube aerogel muscles.

Ali E Aliev¹, Jiyoung Oh, Mikhail E Kozlov, Alexander A Kuznetsov, Shaoli Fang, Alexandre F Fonseca, Raquel Ovalle, Márcio D Lima, Mohammad H Haque, Yuri N Gartstein, Mei Zhang, Anvar A Zakhidov, Ray H Baughman.

Abstract

Improved electrically powered artificial muscles are needed for generating force, moving objects, and accomplishing work. Carbon nanotube aerogel sheets are the sole component of new artificial muscles that provide giant elongations and elongation rates of 220% and (3.7 x 10(4))% per second, respectively, at operating temperatures from 80 to 1900 kelvin. These solid-state-fabricated sheets are enthalpic rubbers having gaslike density and specific strength in one direction higher than those of steel plate. Actuation decreases nanotube aerogel density and can be permanently frozen for such device applications as transparent electrodes. Poisson's ratios reach 15, a factor of 30 higher than for conventional rubbers. These giant Poisson's ratios explain the observed opposite sign of width and length actuation and result in rare properties: negative linear compressibility and stretch densification.

Entities: Chemical Disease

Mesh：

Substances：
Nanotubes, Carbon

Year: 2009 PMID： 19299612 DOI： 10.1126/science.1168312

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

Keyword Cloud
Cited

33 in total

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3. Coupling of mechanical and electronic properties of carbon nanotubes.

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5. Modeling zigzag CNT: dependence of structural and electronic properties on length, and application to encapsulation of HCN and C₂H₂.

Authors: Eduardo C Aguiar; Ricardo L Longo; João Bosco P da Silva
Journal: J Mol Model Date: 2017-03-31 Impact factor: 1.810

Giant-stroke, superelastic carbon nanotube aerogel muscles.

1. Nanomaterials research: A big step for Ecuador.

2. Reversible dilatancy in entangled single-wire materials.

3. Coupling of mechanical and electronic properties of carbon nanotubes.

Review 4. Safe clinical use of carbon nanotubes as innovative biomaterials.

5. Modeling zigzag CNT: dependence of structural and electronic properties on length, and application to encapsulation of HCN and C₂H₂.

6. Graphene coating makes carbon nanotube aerogels superelastic and resistant to fatigue.

7. Enzymatically triggered actuation of miniaturized tools.

8. Rapidly deployable and morphable 3D mesostructures with applications in multimodal biomedical devices.

9. Metallic molybdenum disulfide nanosheet-based electrochemical actuators.

10. Giant negative linear compressibility in zinc dicyanoaurate.