Copper Oxide Nanoparticles (CuO)
Showing all 3 results
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Copper Oxide Nanoparticles (CuO), ~100 nm, >99%
Read moreCopper Oxide Nanoparticles (CuO), ~100 nm, >99%
“As burning rate catalyst in rocket propellant. It can greatly improve the homogeneous propellant burning rate, lower pressure index, and also perform better as a catalyst for the AP composite propellant
Can be applied to the catalyst, superconducting materials, thermoelectric materials, sensing materials, glass, ceramics and other fields
As ceramic resistors, magnetic storage media, gas sensors, near-infrared tilters, photoconductive and photothermal applications
As semiconductors, solar energy transformation, and high-tech superconductors.” -
Copper Oxide Nanoparticles (CuO), ~250 nm, >99%
Read moreCopper Oxide Nanoparticles (CuO), ~250 nm, >99%
“As burning rate catalyst in rocket propellant. It can greatly improve the homogeneous propellant burning rate, lower pressure index, and also perform better as a catalyst for the AP composite propellant
Can be applied to the catalyst, superconducting materials, thermoelectric materials, sensing materials, glass, ceramics and other fields
As ceramic resistors, magnetic storage media, gas sensors, near-infrared tilters, photoconductive and photothermal applications
As semiconductors, solar energy transformation, and high-tech superconductors.” -
Copper Oxide Nanoparticles (CuO), 50 nm, >99%
Read moreCopper Oxide Nanoparticles (CuO), 50 nm, >99%
“As burning rate catalyst in rocket propellant. It can greatly improve the homogeneous propellant burning rate, lower pressure index, and also perform better as a catalyst for the AP composite propellant
Can be applied to the catalyst, superconducting materials, thermoelectric materials, sensing materials, glass, ceramics and other fields
As ceramic resistors, magnetic storage media, gas sensors, near-infrared tilters, photoconductive and photothermal applications
As semiconductors, solar energy transformation, and high-tech superconductors.”
