Molybdenum Oxide Nanoparticles/Nanopowder

Product Properties

     Molybdenum Oxide(MoO3 ) nanopowder/nanoparticles (nm & um)

Size

Type  

Particle size(nm)

Purity(%)

Specific surface area(m2/g)

Bulk density(g/cm3)

Polymorphs

Color

nm

JB-MoO3-001

60

>99.9

32

0.79

subspherical

light blue

sub um

JB-MoO3-002

200

>99.99

45

0.88

cube

deep purple

Custom

 Acccording to customers requirment.

 

Molybdenum Oxide(MoO3) Nanopowder Main Feature

MoO3 nanopowder is well-regarded for its excellent catalytic properties, particularly in oxidation reactions and organic syntheses. Its high surface area, when in nanopowder form, offers abundant active sites for catalytic reactions, enhancing its efficiency and effectiveness as a catalyst. MoO3 exhibits unique optical properties, including photoluminescence and photochromism, making it suitable for applications in optoelectronic devices, such as photodetectors, sensors, and in smart windows that adjust light transmission in response to external stimuli.It also has distinctive electrical properties, including semiconducting behavior, which is leveraged in the fabrication of electronic components like thin-film transistors and gas sensors. The ability to control its stoichiometry allows for the tuning of its electrical characteristics for specific applications.MoO3 maintains its structural integrity and functional properties under high temperatures, making it suitable for applications that require materials to perform reliably in high-thermal environments. This thermal stability is crucial for its use in high-temperature catalysis and other industrial processes.

Molybdenum Oxide(MoO3) Nanopowder Applications

  • Electronics: Its semiconducting properties allow MoO3 to be used in thin-film transistors and gas sensors. Gas sensors based on MoO3 can detect a wide range of gases, making them valuable for environmental monitoring, industrial safety, and health applications.

  • Photocatalysis: MoO3 nanopowder is utilized in photocatalytic applications for the degradation of pollutants in water and air, aiding in environmental remediation efforts. Its photocatalytic activity can break down organic pollutants, contributing to cleaner water and air.

  • Anti-bacterial and Medical Applications: The nanopowder is explored for its anti-bacterial properties, offering potential use in medical devices and coatings to prevent bacterial growth and infections.

  • Thin Films and Coatings: MoO3 nanopowder is employed in the deposition of thin films and coatings for protective, catalytic, or decorative purposes. These coatings can enhance the durability and functionality of various substrates.

  • Sensors: Beyond gas sensors, MoO3 is used in the development of humidity, temperature, and pressure sensors due to its sensitive electrical properties that change in response to environmental conditions.

  • Research and Development: MoO3 nanopowder is a subject of ongoing research, where its properties are being explored for new applications, including quantum dots, nanoelectronics, and advanced composite materials.