Electrostatic Deflections and Electromechanical Resonances of Carbon Nanotubes

Capture of bacteria with flexible carbon nanotubes (CNTs) was done in vitro. Bundles of single-walled carbon nanotubes (SWCNTs) or multi-walled carbon nanotubes (MWCNTs) was mixed with Streptococcus mutans. Precipitation assays and colony-forming unit formation assays showed free S. mutans in the solution was significantly decreased by the addition of the CNTs. Observation of the precipitate by scanning electron microscopy showed bacterial adhesion to CNTs. It has been shown that CNTs of different diameters have significantly different effects on the precipitation efficiency, and the manners in which they capture the cells are different. We found that MWCNTs (diameter of approximately 30 nm) had the highest precipitation efficiency, which was attributable to both their adequate dispersibility and aggregation activity. From observations by scanning electron microscopy, bundles of SWCNTs and thin MWCNTs (diameter of approximately 30 nm), which were moderately flexible, were easily wound around the curved surface of S. mutans. Bare CNTs having high adhesive ability could be useful as biomaterials, e.g., as tools for the elimination of oral pathogens at the nano-level

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“…Poncharal et al [13] reported that the ripple structure in the tube caused the MWCNTs (diameter of ca.…”

Section: Kim Et Al Reported That Cnts Clusters Show High Affinity Tomentioning

confidence: 99%

Capture of bacteria by flexible carbon nanotubes

2009

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“…Conventional flame retardants are required in large quantity to make the polymer fire retardant which may affect the processing of polymer. By use of organically modified clay (nanoclay), interaction between the clay particles and the polymer matrix has been enhanced [19,20].…”

Section: Introductionmentioning

confidence: 99%

Polypropylene/Nanoclay Nonwoven Composites; Preparation, Thermal and Mechanical Properties

Bhattacharya¹

2015

IJIRSET

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PP/nanoclay nonwoven composites were prepared by spun bond technology on spunbonding machine. The prepared nonwoven composites were characterized by SEM and EDX techniques. The thermal properties were analyzed using DSC, revels lower Tg inflection point as well as H value for nonwoven with nanoclay addition. This composite nonwoven fabric was also evaluated for the change in their mechanical properties. The tensile strength was found increased with the addition of nanoclay. The tear strength of pp/nanoclay nonwoven was also found improved, compared to the nonwoven prepared without the addition of nanoclay.

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“…7,8,11 Thus, the force exerted on the nanowire is expected to vary with the applied electric field strength, and basic vibration information can be derived accordingly. Alternatively, a similar effect can be observed by changing the inter-electrode distance of the two tips at a fixed excitation frequency and applied voltage.…”

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confidence: 99%

“…As such, they are favorable candidates for the detection of a single molecule, which would require a mass sensitivity in the range of zeptogram to attogram (10 À21 -10 À18 g), 2 NEMSs have a strong potential in a wide range of applications, such as in force sensing 3 and mass resonator, 2,4 as well as in the study of quantum vibration 5 and other fundamental physical phenomena. 6 To achieve ultra-high mass sensitivity, various low dimensional structures 2,[7][8][9][10][11][12] have been subjected to detailed investigations. Among them, freestanding nanowires have attracted much attention since they would naturally work in the single-clamped mode with minimal energy loss.…”

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“…A deviation from such a model would of course give rise to the effective factor of length being different from that of 0.7 l, which would affect the value of E being determined though Equation (1) and would introduce a systematic error to all experimental results of E. A single calibrated AFM cantilever was used for the present study, and the measurements of nanowires with the same size had been repeated five times to give an estimate of measurement errors. Following the Euler-Bernoulli equation, 7,11,12 the relationship of the resonance frequency f of the transverse vibration of the wire and Young's modulus E is as follows:…”

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Platinum composite nanowires for ultrasensitive mass detection

Hao

Shen

et al. 2017

Applied Physics Letters

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Platinum (Pt) composite nanowires were grown on the tip of tungsten (W) microprobes by focused-electron-beam induced chemical vapor deposition (FEB-CVD). An electrical field was used to drive a transversal mechanical vibration of the nanowires. Such nanowire vibrations were found to display the first and second harmonic resonances with frequencies in the range of tens of MHz. The Young's modulus of the nanowires was estimated to be in the range of (1.4 ± 0.1) × 102 GPa to (4.7 ± 0.2) × 102 GPa, dependent on the wire size. A mass responsivity of 2.1 × 1021 Hz/kg was demonstrated with the minimum detectable mass of about 0.4 attogram. Our results indicated the potentials of FEB-CVD for the fabrication of nano-balances on any surface for ultra-sensitive mechanical applications.

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Electrostatic Deflections and Electromechanical Resonances of Carbon Nanotubes

Cited by 1,831 publications

References 28 publications

Capture of bacteria by flexible carbon nanotubes

Capture of bacteria by flexible carbon nanotubes

Polypropylene/Nanoclay Nonwoven Composites; Preparation, Thermal and Mechanical Properties

Platinum composite nanowires for ultrasensitive mass detection

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