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2-Naphthaleneboronic acid
【Chemical Name】 1-Naphthylboronic acid
【Synonym】 AKOS BRN-0020;AKOS BRN-0041;ALPHA-NAPHTHYLBORIC ACID;1-NAPHTHYLENEBORONIC ACID;2-NAPHTHYLBORONIC ACID;2-NAPHTHENEBORONIC ACID;2-NAPHTHALENEYLBORONIC ACID;2-NAPHTHALENEBORONIC ACID
【CAS No】32316-92-0
【MF】C10H9BO2
【Molecular Weight】171.99
【Properties】 Melting point 269-275 ° C (lit.) Boiling point 381.9 ± 25.0 ° C (predicted) Density 1.21 ± 0.1g/cm3 (predicted) Storage conditions Keepindarkplace, Sealedindry,RoomTemperature
【Packing】1kg/bag or according the customer’s requirements.
【Usage】 OLED intermediates, display materials
【Introduction】
2-Naphthaleneboronic acid is an important organic synthesis intermediate widely used in the fields of OLED intermediates and display materials. It is chemically defined as 2-Naphthaleneboronic acid or 2-Naphthaleneboronic acid, usually in the form of beige powder, with good physical and chemical stability. At room temperature and pressure, 2-Naphthaleneboronic acid remains in a solid state with high melting and boiling points, demonstrating its thermal stability. In addition, it has moderate solubility in water and certain organic solvents, which provides convenience for its application in chemical reactions.
In OLED technology, 2-Naphthaleneboronic acid is mainly used as a synthetic material for organic light-emitting layers, electron transport layers, and hole transport layers. OLED intermediates are key chemicals used in the manufacturing process of organic light-emitting diodes (OLEDs), which are chemicals used to synthesize OLED organic light-emitting layers, electron transport layers, and hole transport layers. The performance and quality of 2-Naphthaleneboronic acid have a significant impact on the performance and quality of the final OLED display screen. High quality intermediates can provide higher luminous efficiency, wider color range, and longer service life.
The chemical properties of 2-Naphthaleneboronic acid enable it to participate in various organic synthesis reactions, especially Suzuki coupling reactions, which are crucial for synthesizing complex organic molecules. In the field of drug synthesis, 1-naphthylboronic acid is widely used in the synthesis of complex drug molecules. In the field of materials science, 2-Naphthaleneboronic acid has also shown great potential. By reacting with other compounds, organic electroluminescent materials with excellent luminescent properties can be prepared, which have broad application prospects in display technology and lighting.
Overall, 2-Naphthaleneboronic acid, as a key OLED intermediate, plays a crucial role in promoting the development of OLED technology and improving the performance of OLED displays.
2-Naphthaleneboronic acid
【Chemical Name】 1-Naphthylboronic acid
【Synonym】 AKOS BRN-0020;AKOS BRN-0041;ALPHA-NAPHTHYLBORIC ACID;1-NAPHTHYLENEBORONIC ACID;2-NAPHTHYLBORONIC ACID;2-NAPHTHENEBORONIC ACID;2-NAPHTHALENEYLBORONIC ACID;2-NAPHTHALENEBORONIC ACID
【CAS No】32316-92-0
【MF】C10H9BO2
【Molecular Weight】171.99
【Properties】 Melting point 269-275 ° C (lit.) Boiling point 381.9 ± 25.0 ° C (predicted) Density 1.21 ± 0.1g/cm3 (predicted) Storage conditions Keepindarkplace, Sealedindry,RoomTemperature
【Packing】1kg/bag or according the customer’s requirements.
【Usage】 OLED intermediates, display materials
【Introduction】
2-Naphthaleneboronic acid is an important organic synthesis intermediate widely used in the fields of OLED intermediates and display materials. It is chemically defined as 2-Naphthaleneboronic acid or 2-Naphthaleneboronic acid, usually in the form of beige powder, with good physical and chemical stability. At room temperature and pressure, 2-Naphthaleneboronic acid remains in a solid state with high melting and boiling points, demonstrating its thermal stability. In addition, it has moderate solubility in water and certain organic solvents, which provides convenience for its application in chemical reactions.
In OLED technology, 2-Naphthaleneboronic acid is mainly used as a synthetic material for organic light-emitting layers, electron transport layers, and hole transport layers. OLED intermediates are key chemicals used in the manufacturing process of organic light-emitting diodes (OLEDs), which are chemicals used to synthesize OLED organic light-emitting layers, electron transport layers, and hole transport layers. The performance and quality of 2-Naphthaleneboronic acid have a significant impact on the performance and quality of the final OLED display screen. High quality intermediates can provide higher luminous efficiency, wider color range, and longer service life.
The chemical properties of 2-Naphthaleneboronic acid enable it to participate in various organic synthesis reactions, especially Suzuki coupling reactions, which are crucial for synthesizing complex organic molecules. In the field of drug synthesis, 1-naphthylboronic acid is widely used in the synthesis of complex drug molecules. In the field of materials science, 2-Naphthaleneboronic acid has also shown great potential. By reacting with other compounds, organic electroluminescent materials with excellent luminescent properties can be prepared, which have broad application prospects in display technology and lighting.
Overall, 2-Naphthaleneboronic acid, as a key OLED intermediate, plays a crucial role in promoting the development of OLED technology and improving the performance of OLED displays.