Description
Molybdenum Dioxide (MoO₂) Nanopowder / Nanoparticles (100 nm, Super Grade 99.99%, Purple Blue)
Molybdenum Dioxide (MoO₂) Nanopowder is a super-grade nanomaterial with >99.99% purity and a unique purple-blue color. With an average particle size of 100 nm and a detailed size distribution ranging from 30 nm to 300 nm, MoO₂ exhibits exceptional electrical conductivity, thermal stability, and catalytic properties.
As a transition metal oxide, MoO₂ stands out for its high charge transport capacity, chemical stability, and resistance to extreme environments, making it a valuable material in energy storage, catalysis, and sensor applications.
Technical Specifications
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Purity: >99.99% (trace metal basis)
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Impurities: <0.01% (trace metal basis)
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Average Particle Size (APS): 100 nm
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Detailed Particle Size Distribution:
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10%: 30 nm
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10%: 50 nm
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50%: 80 nm
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25%: 100 nm
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5%: 200–300 nm (with ~1% reaching 1000 nm)
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Color: Purple-blue
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Crystal Phase: Molybdenum dioxide (MoO₂)
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Conductivity: High, suitable for electrochemical applications
Certificate of Analysis (ppm, trace elements):
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Fe: 35 ppm
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Ni: 23 ppm
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Cu: 230 ppm
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Cr: 22 ppm
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Co: 65 ppm
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Others: 135 ppm
Applications
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Energy Storage & Batteries
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Lithium-ion battery anode material
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High-performance electrochemical supercapacitors
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Field emission materials for advanced electronics
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Catalysis & Chemical Industry
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Catalysts for hydrogenation and dehydrogenation reactions
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Photocatalytic systems for energy conversion and pollutant degradation
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Gas sensors (ozone, hydrocarbons, automotive exhaust systems)
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Electronics & Optoelectronics
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Electrochromic displays and recording materials
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Transparent conductive layers in specialized optical devices
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UV detectors and optical limiters
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Research & Advanced Materials
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Nanostructured electrode materials for energy storage systems
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Functional additive in composite materials to improve charge transport
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Photoelectrode for solar energy harvesting
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Storage & Handling
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Store at room temperature under ventilated and dry conditions.
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Protect from moisture and oxidation by storing under inert gas atmosphere (argon or nitrogen).
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Avoid direct exposure to air to preserve nanoparticle integrity.