 |
| Synonyms | Isopropyl alcohol yttrium salt;Tris(isopropoxy)yttrium;Yttrium triisopropoxide;Yttriumipropoxideintoluene;Yttrium tris(isopropoxide) |
| Molecular Formula | C9H21O3Y |
| Appearance | White to almost white solid |
| Molecular Weight | 266.17 |
| Melting Point | 160°C |
| Boiling Point | 106 °C |
| Density | 0.955 g/mL at 25 °C |
| Flash Point | 38 °F |
| Solubility | Soluble in hexane, toluene and tetrahydrofuran |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 1kg or customized |
Yttrium(iii) isopropoxide is an ideal precursor for the synthesis of yttrium-based compounds and thin film materials. It is highly reactive and can react with a variety of organic and inorganic substances.
Its high boiling and melting points ensure thermal stability during material synthesis and thin film deposition, which is beneficial for obtaining products with uniform performance and high quality.
This compound exhibits good solubility in a variety of solvents, making it particularly suitable for high-efficiency thin film preparation processes such as vapor deposition.
In processes such as chemical vapor deposition (CVD), yttrium(iii) isopropoxide serves as a high-quality yttrium source, enabling the formation of thin films with unique electrical and optical properties, which is crucial for semiconductor manufacturing and high-end optical applications.
Yttrium(iii) isopropoxide, as one of the metal sources for thin film deposition, is used to prepare high-quality thin film materials, especially conductive and insulating layers for electronic devices.
This compound can be used to synthesize various yttrium-based nanomaterials, which have wide applications in functional composite materials and catalysts.
C9H21O3Y can be used as a precursor for catalytic reactions, especially in organic synthesis and materials science.
It can also be used in fields such as lasers, fiber optic communications, and display technologies, and can be used to synthesize high-purity yttrium oxide and other yttrium-based optical materials.
Yttrium(iii) isopropoxide hydrolyzes upon contact with water, producing yttrium hydroxide and propanol. Therefore, contact with water should be avoided.
It should be stored in a cool, dry, and well-ventilated place, kept sealed, and protected from moisture and water or air.
This compound is a flammable solid and may cause skin, eye and respiratory irritation. Therefore, it must be handled in a well-ventilated area and dust inhalation should be avoided.
If this product comes into contact with eyes or skin, rinse immediately with plenty of water and seek medical attention.
Waste should be disposed of in accordance with the regulations for the disposal of hazardous chemicals, and should not be discharged into the environment indiscriminately.
1. What are the uses of yttrium(iii) isopropoxide?
This compound is mainly used in the synthesis of yttrium-based optical materials, semiconductor thin films, catalysts, and high-performance ceramics.
2. How safe is it?
C9H21O3Y is a hazardous chemical. Appropriate protective equipment, such as gloves and goggles, should be worn during handling to avoid direct contact and inhalation of vapors.
Wolfa professionally supplies Yttrium(III) Isopropoxide, supporting small-batch sampling and large-volume procurement needs. Packaging options include ordinary glass bottles, glass ampoules, metal ampoules, etc.
For product analysis reports (such as COA) or procurement consulting, please feel free to contact us at jomin@wolfabio.com at any time.
| Synonyms | Isopropyl alcohol yttrium salt;Tris(isopropoxy)yttrium;Yttrium triisopropoxide;Yttriumipropoxideintoluene;Yttrium tris(isopropoxide) |
| Molecular Formula | C9H21O3Y |
| Appearance | White to almost white solid |
| Molecular Weight | 266.17 |
| Melting Point | 160°C |
| Boiling Point | 106 °C |
| Density | 0.955 g/mL at 25 °C |
| Flash Point | 38 °F |
| Solubility | Soluble in hexane, toluene and tetrahydrofuran |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 1kg or customized |
Yttrium(iii) isopropoxide is an ideal precursor for the synthesis of yttrium-based compounds and thin film materials. It is highly reactive and can react with a variety of organic and inorganic substances.
Its high boiling and melting points ensure thermal stability during material synthesis and thin film deposition, which is beneficial for obtaining products with uniform performance and high quality.
This compound exhibits good solubility in a variety of solvents, making it particularly suitable for high-efficiency thin film preparation processes such as vapor deposition.
In processes such as chemical vapor deposition (CVD), yttrium(iii) isopropoxide serves as a high-quality yttrium source, enabling the formation of thin films with unique electrical and optical properties, which is crucial for semiconductor manufacturing and high-end optical applications.
Yttrium(iii) isopropoxide, as one of the metal sources for thin film deposition, is used to prepare high-quality thin film materials, especially conductive and insulating layers for electronic devices.
This compound can be used to synthesize various yttrium-based nanomaterials, which have wide applications in functional composite materials and catalysts.
C9H21O3Y can be used as a precursor for catalytic reactions, especially in organic synthesis and materials science.
It can also be used in fields such as lasers, fiber optic communications, and display technologies, and can be used to synthesize high-purity yttrium oxide and other yttrium-based optical materials.
Yttrium(iii) isopropoxide hydrolyzes upon contact with water, producing yttrium hydroxide and propanol. Therefore, contact with water should be avoided.
It should be stored in a cool, dry, and well-ventilated place, kept sealed, and protected from moisture and water or air.
This compound is a flammable solid and may cause skin, eye and respiratory irritation. Therefore, it must be handled in a well-ventilated area and dust inhalation should be avoided.
If this product comes into contact with eyes or skin, rinse immediately with plenty of water and seek medical attention.
Waste should be disposed of in accordance with the regulations for the disposal of hazardous chemicals, and should not be discharged into the environment indiscriminately.
1. What are the uses of yttrium(iii) isopropoxide?
This compound is mainly used in the synthesis of yttrium-based optical materials, semiconductor thin films, catalysts, and high-performance ceramics.
2. How safe is it?
C9H21O3Y is a hazardous chemical. Appropriate protective equipment, such as gloves and goggles, should be worn during handling to avoid direct contact and inhalation of vapors.
Wolfa professionally supplies Yttrium(III) Isopropoxide, supporting small-batch sampling and large-volume procurement needs. Packaging options include ordinary glass bottles, glass ampoules, metal ampoules, etc.
For product analysis reports (such as COA) or procurement consulting, please feel free to contact us at jomin@wolfabio.com at any time.
![Tricarbonyl(2,4-Bis(Trimethylsilyl)Bicyclo[4.3.0]Nona-1,4-Dien-3-One)Iron](http://ilrorwxhlpppln5m.ldycdn.com/cloud/lqBpiKpnliSRiljlpimqkq/144269-640-640.gif)
