Anagram & Information om | Engelska ordet CNTS

Exempel på hur man kan använda CNTS i en mening

• Carbon nanotubes (CNTs) are the most well-known and widely studied type, consisting of rolled-up sheets of graphene with diameters ranging from about 1 to tens of nanometers and lengths up to millimeters.
• In a non-woven fabric matrix of carbon nanotubes (CNTs), crossed nanotubes can either be touching or slightly separated depending on their position.
• However, C–V measurements are also widely used to characterize other types of semiconductor devices and technologies, including bipolar junction transistors, JFETs, III–V compound devices, photovoltaic cells, MEMS devices, organic thin-film transistor (TFT) displays, photodiodes, and carbon nanotubes (CNTs).
• For example, the cancer drug doxorubicin was loaded at up to 60 wt % on CNTs compared with a maximum of 8 to 10 wt % on liposomes.
• This property is an important characteristic for CNTs promising nanoelectromechanical systems applications, as well as for their fabrication, separation and electromanipulation.
• This property is an important characteristic for CNTs promising nanoelectromechanical systems applications, as well as for their fabrication, separation and electromanipulation.
• Zettl used the nanomanipulator to perform the first electron holography experiments on nanoscale materials, which quantified quantum mechanical field emission from CNTs.
• Combining the physical and chemical characteristics of conjugated polymers with the high conductivity along the tube axis of carbon nanotubes (CNTs) provides a great deal of incentive to disperse CNTs into the photoactive layer in order to obtain more efficient OPV devices.
• Two factors could contribute to strong light absorption by these structures: (i) a distribution of CNT chiralities resulted in various bandgaps for individual CNTs.
• The use of CNTs in drug delivery and biosensing technology has the potential to revolutionalize medicine.
• There are two known types of nucleoside transporters, concentrative nucleoside transporters (CNTs; SLC28) and equilibrative nucleoside transporters (ENTs; SLC29), as well as possibly a yet-unidentified vesicular transporter.
• CNTs can be either metallic or semiconductive, depending on their helicity and diameter, and this property can greatly affect charge transfer processes.
• other materials such as commercially available PAC were very favorable, and the reusability of CNTs was additionally shown to be reversible in the presence of dilute nitric acid, and reusable for 10 cycles of adsorption and deadsorption.
• Later, they applied this method in cutting CNTs or assembling CNTs into functional patterns which demonstrated the versatile callability of this method in carbon nanostructure manipulations.
• Rao has developed a number of technologies for spectroscopic characterization of nanocarbon allotropes, synthesis methods for controlling the morphologies of carbon nanotubes or CNTs, and scalable nano-manufacturing of CNT-based devices.
• The CNTs form the back contact of the device and serve as a scaffold to support the photoactive heterojunction.
• Graphenated carbon nanotubes (G-CNTs) are a relatively new hybrid that combines graphitic foliates grown along the sidewalls of multiwalled or bamboo style carbon nanotubes (CNTs).
• A recent study utilizing DNA loaded CNTs was able to successfully express desired traits in various mature model plant systems- and even isolated Eruca sativa protoplasts while managing to protect and maintain the fidelity of the transferred genetic material.
• He fabricated large supercrystals containing over a million ordered nanocrystals at spatially-selective regions on a surface by using a microfluidics technique, showed how ordered monolayers of nanocrystals on surfaces form in real-time by using x-ray photoelectron spectroscopy (XPS), and assembled spatially patterned thick, smooth and conformal nanocrystal films by using spatially patterned DC electric fields (electrophoretic deposition), and demonstrated how film assembly and film mechanical and optical properties are guided by the coverage of the nanocrystals by ligands; He also used AC field gradients to precisely place carbon nanotubes (CNTs) at electrodes (dielectrophoretic deposition).

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