Ali E. Aliev scite author profile

Individual carbon nanotubes are like minute bits of string, and many trillions of these invisible strings must be assembled to make useful macroscopic articles. We demonstrated such assembly at rates above 7 meters per minute by cooperatively rotating carbon nanotubes in vertically oriented nanotube arrays (forests) and made 5-centimeter-wide, meter-long transparent sheets. These self-supporting nanotube sheets are initially formed as a highly anisotropic electronically conducting aerogel that can be densified into strong sheets that are as thin as 50 nanometers. The measured gravimetric strength of orthogonally oriented sheet arrays exceeds that of sheets of high-strength steel. These nanotube sheets have been used in laboratory demonstrations for the microwave bonding of plastics and for making transparent, highly elastomeric electrodes; planar sources of polarized broad-band radiation; conducting appliqués; and flexible organic light-emitting diodes.

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Three-dimensionally bonded spongy graphene material with super compressive elasticity and near-zero Poisson’s ratio

Huang

et al. 2015

Nat Commun

472

367

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It is a challenge to fabricate graphene bulk materials with properties arising from the nature of individual graphene sheets, and which assemble into monolithic three-dimensional structures. Here we report the scalable self-assembly of randomly oriented graphene sheets into additive-free, essentially homogenous graphene sponge materials that provide a combination of both cork-like and rubber-like properties. These graphene sponges, with densities similar to air, display Poisson's ratios in all directions that are near-zero and largely strain-independent during reversible compression to giant strains. And at the same time, they function as enthalpic rubbers, which can recover up to 98% compression in air and 90% in liquids, and operate between À 196 and 900°C. Furthermore, these sponges provide reversible liquid absorption for hundreds of cycles and then discharge it within seconds, while still providing an effective near-zero Poisson's ratio.

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Giant-Stroke, Superelastic Carbon Nanotube Aerogel Muscles

Aliev

Kozlov

et al. 2009

Science

538

342

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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.

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Fabrication of Silver Vanadium Oxide and V₂O₅ Nanowires for Electrochromics

Xiong¹,

Aliev

Gnade³

et al. 2008

ACS Nano

311

226

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Silver vanadium oxide (SVO) and V2O5 nanowires have been hydrothermally synthesized. The as-made nanowires are over 30 microm long and 10-20 nm in diameter. The nanowires have a layered structure with a d-spacing of 1.07 nm. The nanowires can be fabricated into free-standing and flexible sheets by suction filtration. The electrical conductivity of the SVO nanowires is 0.5 S/cm, compared to 0.08 S/cm for the V2O5 nanowires. The Li ion diffusion coefficient in the SVO nanowires was 7 times higher than that in the V2O5 nanowires. An electrochromic device was fabricated from the SVO nanowires that displayed a color-switching time of 0.2 s from the bleached state (green) to the colored state (red-brown) and 60% transmittance contrast.

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Improved Electrical Conductivity of Graphene Films Integrated with Metal Nanowires

et al. 2012

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Polycrystalline graphene grown by chemical vapor deposition (CVD) on metals and transferred onto arbitrary substrates has line defects and disruptions such as wrinkles, ripples, and folding that adversely affect graphene transport properties through the scattering of the charge carriers. It is found that graphene assembled with metal nanowires (NWs) dramatically decreases the resistance of graphene films. Graphene/NW films with a sheet resistance comparable to that of the intrinsic resistance of graphene have been obtained and tested as a transparent electrode replacing indium tin oxide films in electrochromic (EC) devices. The successful integration of such graphene/NW films into EC devices demonstrates their potential for a wide range of optoelectronic device applications.

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Ali E. Aliev

Strong, Transparent, Multifunctional, Carbon Nanotube Sheets

Three-dimensionally bonded spongy graphene material with super compressive elasticity and near-zero Poisson’s ratio

Giant-Stroke, Superelastic Carbon Nanotube Aerogel Muscles

Fabrication of Silver Vanadium Oxide and V₂O₅ Nanowires for Electrochromics

Improved Electrical Conductivity of Graphene Films Integrated with Metal Nanowires

Contact Info

Product

Resources

About

Ali E. Aliev

Strong, Transparent, Multifunctional, Carbon Nanotube Sheets

Three-dimensionally bonded spongy graphene material with super compressive elasticity and near-zero Poisson’s ratio

Giant-Stroke, Superelastic Carbon Nanotube Aerogel Muscles

Fabrication of Silver Vanadium Oxide and V2O5 Nanowires for Electrochromics

Improved Electrical Conductivity of Graphene Films Integrated with Metal Nanowires

Contact Info

Product

Resources

About

Fabrication of Silver Vanadium Oxide and V₂O₅ Nanowires for Electrochromics