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High Purity Molybdenum Trioxide (MoO3) is a white to gray, jet green, yellow solid powder with a molecular formula of MoO3. It is a common inorganic compound and an intermediate product of molybdenum oxide series. It can be used as a catalyst, and is also used in the manufacture of tungsten and molybdenum alloy, etc.
High-purity molybdenum trioxide | |||
Shape | white to light yellow color crystalline powder | Chemical formula | MoO3 |
CAS # | 1313-27-5 | EINECS | 215-204-7 |
Solubility | 0.5 g/L (20 ºC) in water | Density | 4.69 g/cm3 |
Molybdenum trioxide (MoO3) has a wide range of applications in various fields. Some of its primary uses are as follows:
1. Catalyst: Molybdenum trioxide is widely used as a catalyst in the production of various chemicals and petrochemicals. It is employed in the oxidation process for converting propylene to acrolein, which is an important intermediate compound in the synthesis of acrylic acid.
2. Electrochromic Devices: Molybdenum trioxide exhibits electrochromic properties, meaning it can undergo reversible color changes when subjected to an electric field. This property makes it suitable for use in smart windows, variable transmittance mirrors, and other types of electrochromic devices that regulate the amount of light transmitted.
3. Lithium-ion Batteries: Molybdenum trioxide is being researched for its potential use as a cathode material in lithium-ion batteries. Its high theoretical specific capacity and good cycling stability make it a promising candidate for improving the energy storage performance of batteries.
4. Gas Sensing: Molybdenum trioxide-based gas sensors are employed in various applications such as environmental monitoring, industrial safety, and automotive emissions control. They can detect gases like nitrogen oxides (NOx), ozone (O3), and volatile organic compounds (VOCs).
5. Pigments: Molybdenum trioxide can be used as a yellow pigment in ceramics, glasses, and paints due to its high refractive index and good light stability.
6. Solar Energy Conversion: Molybdenum trioxide is utilized in thin-film solar cells as a buffer layer to improve the efficiency of energy conversion by enhancing light absorption and carrier transport.
Packages instruction:
1. Bags: Ammonium heptamolybdate may be packed in polyethylene bags, usually in 25 kg or 50 lb sizes. These bags provide adequate
protection against moisture and ensure easy handling.
2. Drums: For larger quantities, Ammonium heptamolybdate can be packaged in drums made of steel or fiberboard. Drum sizes can vary from 100 kg to 200 kg or more, depending on customer specifications.
4. Customized Packaging: Depending on customer requirements, Ammonium heptamolybdate can be packaged in customized containers, including, smaller plastic bottles or jars for laboratory or research purposes.
High Purity Molybdenum Trioxide (MoO3) is a white to gray, jet green, yellow solid powder with a molecular formula of MoO3. It is a common inorganic compound and an intermediate product of molybdenum oxide series. It can be used as a catalyst, and is also used in the manufacture of tungsten and molybdenum alloy, etc.
High-purity molybdenum trioxide | |||
Shape | white to light yellow color crystalline powder | Chemical formula | MoO3 |
CAS # | 1313-27-5 | EINECS | 215-204-7 |
Solubility | 0.5 g/L (20 ºC) in water | Density | 4.69 g/cm3 |
Molybdenum trioxide (MoO3) has a wide range of applications in various fields. Some of its primary uses are as follows:
1. Catalyst: Molybdenum trioxide is widely used as a catalyst in the production of various chemicals and petrochemicals. It is employed in the oxidation process for converting propylene to acrolein, which is an important intermediate compound in the synthesis of acrylic acid.
2. Electrochromic Devices: Molybdenum trioxide exhibits electrochromic properties, meaning it can undergo reversible color changes when subjected to an electric field. This property makes it suitable for use in smart windows, variable transmittance mirrors, and other types of electrochromic devices that regulate the amount of light transmitted.
3. Lithium-ion Batteries: Molybdenum trioxide is being researched for its potential use as a cathode material in lithium-ion batteries. Its high theoretical specific capacity and good cycling stability make it a promising candidate for improving the energy storage performance of batteries.
4. Gas Sensing: Molybdenum trioxide-based gas sensors are employed in various applications such as environmental monitoring, industrial safety, and automotive emissions control. They can detect gases like nitrogen oxides (NOx), ozone (O3), and volatile organic compounds (VOCs).
5. Pigments: Molybdenum trioxide can be used as a yellow pigment in ceramics, glasses, and paints due to its high refractive index and good light stability.
6. Solar Energy Conversion: Molybdenum trioxide is utilized in thin-film solar cells as a buffer layer to improve the efficiency of energy conversion by enhancing light absorption and carrier transport.
Packages instruction:
1. Bags: Ammonium heptamolybdate may be packed in polyethylene bags, usually in 25 kg or 50 lb sizes. These bags provide adequate
protection against moisture and ensure easy handling.
2. Drums: For larger quantities, Ammonium heptamolybdate can be packaged in drums made of steel or fiberboard. Drum sizes can vary from 100 kg to 200 kg or more, depending on customer specifications.
4. Customized Packaging: Depending on customer requirements, Ammonium heptamolybdate can be packaged in customized containers, including, smaller plastic bottles or jars for laboratory or research purposes.
