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Molecular Formula: C10H24CuN2O2
Appearance: Purple crystal
Molecular Weight: 267.86
Solubility: Soluble in polar organic solvents (such as methanol and ethanol)
Package Information: 100g, 500g, 1kg or customized
Its "dimethylamino-2-propoxy" ligand structure provides good volatility and thermal decomposition characteristics, making the copper source easy to convert and with few impurities.
This compound remains stable for a long time under argon purging at room temperature. Its crystal morphology simplifies the weighing and handling process, reducing the risks in industrial applications.
C10H24CuN2O2, as a copper-based catalyst, exhibits high efficiency and selectivity in organic reactions such as C-C and C-N bond formation, significantly improving reaction yield and reducing by-product formation.
It can be used not only for thin film preparation, but also for catalysis, coordination chemistry, and research on copper-based functional materials.
In the manufacture of fine chemicals, C10H24CuN2O2 can be used to catalyze coupling reactions and redox processes, such as acting as a key catalyst in C-N bond formation, thereby improving reaction rates and product purity.
As a copper source, it is used in ALD/CVD processes to deposit high-purity copper or copper oxide and copper sulfide thin films, and is a key precursor in semiconductor and microelectronic device manufacturing processes.
Used in the pharmaceutical industry to construct drug molecules (such as immunomodulators), their high reactivity ensures the efficiency of the synthetic pathway and helps reduce research and development costs.
Its coordination structure and copper coordination environment can be used to design functional materials (such as catalytic membranes, conductive films, etc.), making it suitable for materials research and development scenarios.
This product must be stored in a dry, inert gas environment in a sealed container to prevent oxidation or moisture intrusion, which could cause decomposition or deterioration.
It may decompose or produce byproducts when exposed to water, strong acids, or strong alkalis, which may affect the activity of the copper source. Therefore, contact with it should be avoided.
Take personal protective measures during operation, such as wearing protective gloves, goggles, and protective clothing.
If exposed to high temperatures, it may decompose and release potentially harmful volatile substances. Ensure good ventilation of the equipment and avoid operating in enclosed, high-temperature environments.
When disposed of, it should be treated as metal/organic chemical waste and should not be discharged into the sewer.
1. Why choose bis(dimethylamino-2-propoxy)copper(II);cu(dmap) as the copper source?
Because it possesses high volatility, thermal decomposition properties suitable for thin film deposition, stable ligand structure, and high purity, making it more advantageous than traditional copper salts in electronic material precursors.
2. Must this compound be handled in an inert gas environment?
While not all applications require an inert environment, due to its sensitivity to air and moisture, dry, oxygen-free conditions are recommended for weighing, transferring, or reacting the compound to ensure its reactivity and purity.
We are a professional Bis(Dimethylamino-2-Propoxy)Copper(II); Cu(Dmap) supplier. For more information or to purchase Bis(Dimethylamino-2-Propoxy)Copper(II); Cu(Dmap)(C10H24CuN2O2), please feel free to contact us via jomin@wolfabio.com or WhatsApp(+86 18359103607).
Molecular Formula: C10H24CuN2O2
Appearance: Purple crystal
Molecular Weight: 267.86
Solubility: Soluble in polar organic solvents (such as methanol and ethanol)
Package Information: 100g, 500g, 1kg or customized
Its "dimethylamino-2-propoxy" ligand structure provides good volatility and thermal decomposition characteristics, making the copper source easy to convert and with few impurities.
This compound remains stable for a long time under argon purging at room temperature. Its crystal morphology simplifies the weighing and handling process, reducing the risks in industrial applications.
C10H24CuN2O2, as a copper-based catalyst, exhibits high efficiency and selectivity in organic reactions such as C-C and C-N bond formation, significantly improving reaction yield and reducing by-product formation.
It can be used not only for thin film preparation, but also for catalysis, coordination chemistry, and research on copper-based functional materials.
In the manufacture of fine chemicals, C10H24CuN2O2 can be used to catalyze coupling reactions and redox processes, such as acting as a key catalyst in C-N bond formation, thereby improving reaction rates and product purity.
As a copper source, it is used in ALD/CVD processes to deposit high-purity copper or copper oxide and copper sulfide thin films, and is a key precursor in semiconductor and microelectronic device manufacturing processes.
Used in the pharmaceutical industry to construct drug molecules (such as immunomodulators), their high reactivity ensures the efficiency of the synthetic pathway and helps reduce research and development costs.
Its coordination structure and copper coordination environment can be used to design functional materials (such as catalytic membranes, conductive films, etc.), making it suitable for materials research and development scenarios.
This product must be stored in a dry, inert gas environment in a sealed container to prevent oxidation or moisture intrusion, which could cause decomposition or deterioration.
It may decompose or produce byproducts when exposed to water, strong acids, or strong alkalis, which may affect the activity of the copper source. Therefore, contact with it should be avoided.
Take personal protective measures during operation, such as wearing protective gloves, goggles, and protective clothing.
If exposed to high temperatures, it may decompose and release potentially harmful volatile substances. Ensure good ventilation of the equipment and avoid operating in enclosed, high-temperature environments.
When disposed of, it should be treated as metal/organic chemical waste and should not be discharged into the sewer.
1. Why choose bis(dimethylamino-2-propoxy)copper(II);cu(dmap) as the copper source?
Because it possesses high volatility, thermal decomposition properties suitable for thin film deposition, stable ligand structure, and high purity, making it more advantageous than traditional copper salts in electronic material precursors.
2. Must this compound be handled in an inert gas environment?
While not all applications require an inert environment, due to its sensitivity to air and moisture, dry, oxygen-free conditions are recommended for weighing, transferring, or reacting the compound to ensure its reactivity and purity.
We are a professional Bis(Dimethylamino-2-Propoxy)Copper(II); Cu(Dmap) supplier. For more information or to purchase Bis(Dimethylamino-2-Propoxy)Copper(II); Cu(Dmap)(C10H24CuN2O2), please feel free to contact us via jomin@wolfabio.com or WhatsApp(+86 18359103607).
