Product | Aluminium Nanopowder | |
Stock No | NS6130-01-107 | |
CAS | 7429-90-5 | Confirm |
Purity | 99.9% | Confirm |
APS | 40nm | Confirm |
Molecular Formula | Al | Confirm |
Molecular Weight | 26.9815 g/mol | Confirm |
Form | Powder | Confirm |
Color | Grey/Black | Confirm |
Density | 2.70 g/cm³ | Confirm |
Melting Point | 660.32 °C | Confirm |
Boiling Point | 2470 °C | Confirm |
Solubility | Insoluble in water | |
Quality Control | Each Lot of was tested successfully | |
Main Inspect Verifier | Manager QC |
Assay | 99.9% |
All Other Metal | 1000 ppm |
Aluminium Nanopowder Adding aluminium (Al) into lead selenide (PbSe), prepared n-type PbSe thermoelectric materials Thermoelectric (TE) materials and devices have interest and attention for the past decades due to their potential applications in converting solar energy and waste heat into electricity. The performance of thermoelectric materials depends on electrical conductivity, absolute temperature, lattice thermal conductivity, and electronic thermal conductivity.
Aluminium Nanopowder the Seebeck coefficient is a parameter to measure the efficiency of materials in generating thermoelectric voltage from certain temperature gradient. Aluminum nano particle on the Seebeck coefficient for silicon based thermoelectric power generator is investigated. Application is partly due to the unavailability of high efficiency thermoelectric materials, and partly due to high power requirement of biomedical devices.
Aluminium Nanopowder thermoelectric energy conversion has attracted much interest as a possible application for environmentally friendly electric-power generators and highly reliable, accurate temperature-controllable refrigerators used as electronic devices because it is one of the simplest technologies applicable to energy conversion. The efficiency of thermoelectricity is governed by a basic property of thermoelectrical material, and the figure of merit of a thermoelectric material. Hermoelectric materials have drawn vast attentions for centuries, because thermoelectric effects enable direct conversion between thermal and electrical energy, thus providing an alternative for power generation and refrigeration.
Aluminium Nanopowder improves the sintering processes of ceramics, with high heat-transfer performance, increased density, and enhanced the thermal conductivity of sinter, good sintering ability Aluminium nanoparticles are highly reactive, so measures should also be taken to protect the material from moisture, heat, and sunlight.
Aluminium Nanopowder exhibit enhanced size dependant properties when compared to ultrafine or larger particles of the same material. Aluminium nanoparticles are used as ingredients in solid rocket propellant formulations and explosives. Aluminium nanoparticles are produced by various physical and chemical methods viz. wire explosion, laser ablation, combustion flame and aerosol synthesis, but micro-electrical discharge machining (micro-EDM) system has not yet explored to generate nanoparticles.
Aluminium Nanopowder Adding aluminium (Al) into lead selenide (PbSe), prepared n-type PbSe thermoelectric materials Thermoelectric (TE) materials and devices have interest and attention for the past decades due to their potential applications in converting solar energy and waste heat into electricity. The performance of thermoelectric materials depends on electrical conductivity, absolute temperature, lattice thermal conductivity, and electronic thermal conductivity.
Aluminium Nanopowder the Seebeck coefficient is a parameter to measure the efficiency of materials in generating thermoelectric voltage from certain temperature gradient. Aluminum nano particle on the Seebeck coefficient for silicon based thermoelectric power generator is investigated. Application is partly due to the unavailability of high efficiency thermoelectric materials, and partly due to high power requirement of biomedical devices.
Aluminium Nanopowder thermoelectric energy conversion has attracted much interest as a possible application for environmentally friendly electric-power generators and highly reliable, accurate temperature-controllable refrigerators used as electronic devices because it is one of the simplest technologies applicable to energy conversion. The efficiency of thermoelectricity is governed by a basic property of thermoelectrical material, and the figure of merit of a thermoelectric material. Hermoelectric materials have drawn vast attentions for centuries, because thermoelectric effects enable direct conversion between thermal and electrical energy, thus providing an alternative for power generation and refrigeration.
Aluminium Nanopowder improves the sintering processes of ceramics, with high heat-transfer performance, increased density, and enhanced the thermal conductivity of sinter, good sintering ability Aluminium nanoparticles are highly reactive, so measures should also be taken to protect the material from moisture, heat, and sunlight.
Aluminium Nanopowder exhibit enhanced size dependant properties when compared to ultrafine or larger particles of the same material. Aluminium nanoparticles are used as ingredients in solid rocket propellant formulations and explosives. Aluminium nanoparticles are produced by various physical and chemical methods viz. wire explosion, laser ablation, combustion flame and aerosol synthesis, but micro-electrical discharge machining (micro-EDM) system has not yet explored to generate nanoparticles.