Home » Aluminium Nano Wire (Al, Purity: 99.99%, Length: 25µm)
|Product||Aluminium Nano Wire|
|Molecular Weight||26.98 g/mol||Confirm|
|Melting Point||660.37 °C||Confirm|
|Boiling Point||2467 °C||Confirm|
|Vickers Hardness||167 MPa||Confirm|
|Thermal Expansion||23.1 µm•m-1•K-1 (25 °C)||Confirm|
|Young's Modulus||70 GPa||Confirm|
|Tensile Strength||6800 psi||Confirm|
|Thermal Conductivity||2.37 W/cm/ K @ 298.2 K||Confirm|
|Electrical Resistivity||2.6548 microhm-cm @ 0 °C||Confirm|
|Specific Heat||0.215 Cal/g/ K @ 25 °C||Confirm|
|Solubility||Slightly soluble in strong acid||Confirm|
|Quality Control||Each lot of Aluminium Nano Wire was tested successfully.|
|Main Inspect Verifier||Manager QC|
|Other Metal||100 ppm|
ALUMINIUM NANO WIRE, The use of aluminum (Al) as a plasmonic building block has drawn increasing attention of late, due to its natural abundance, and extended tunability into the ultraviolet range. The critical current at zero magnetic field of an individual aluminum nanowire contacted by superconducting electrodes was found to be significantly smaller than that with normal electrodes showing that the effect is not a consequence of the magnetic field.
ALUMINIUM NANO WIRE, The great impulse on research in then field of nanotechnology in its theoretical, experimental, and industrial branches has led to impressive advances in the control and design of effective electronic devices at the nanoscale. Al-nanowires, using first-principles localorbital DFT calculations combined with a theoretical annealing to increase the quality of the ensemble used in this analysis.
ALUMINIUM NANO WIRE are expected to become important components for the coming generation of micro and nanoelectronic devices. Their novel physical properties and their favorable surface-to-volume ratio make them excellent candidates for electronic and sensing applications.
ALUMINIUM NANO WIRE,The APE has been seen in crystalline Al nanowires in a variety of geometries. The APE has also been seen in the absence of magnetic fields, clearly establishing that it is a function of the bulk measuring electrodes. the nanowire with a capacitor that is in parallel with the nanowire. When the electrodes are normal, the resistors provide a medium for dissipation of quantum phase slips, thus stabilizing the superconductivity.
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