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Electronical chemicals

9-[1,1'-Biphenyl]-3-yl-9'-phenyl-3,3'-bi-9H-carbazole

CAS number

1619966-75-4

Molecular formula C42H28N2
Product name 9-[1,1'-Biphenyl]-3-yl-9'-phenyl-3,3'-bi-9H-carbazole
Molecular Structure

Molecular Weight:560.68500

PSA:9.86000

LogP:11.21480


9-[1,1'-Biphenyl]-3-yl-9'-phenyl-3,3'-bi-9H-carbazole (BPBPC) is an emerging organic semiconductor material that has been studied and developed in recent years. This material has attracted a great deal of attention due to its excellent electrical properties and compatibility with various semiconductor fabrication processes.


BPBPC has been used in a variety of applications in electronics, including thin-film transistors (TFTs), light-emitting diodes (LEDs), optoelectronic devices, and solar cells. BPBPC is an attractive alternative to traditional silicon-based materials due to its low cost, good processability, and wide range of electrical properties.


In thin-film transistors, BPBPC can be used to create high-performance devices with excellent stability and high-speed switching capabilities. BPBPC can be used in both p-channel and n-channel TFTs, allowing for the fabrication of complex integrated circuits with improved performance. In addition, BPBPC is compatible with a wide range of semiconductor fabrication processes, from standard lithography to newer techniques such as atomic layer deposition.


BPBPC has also been used in the fabrication of light-emitting diodes (LEDs). BPBPC can be used to create efficient and cost-effective LEDs with high luminous efficiency and long lifetime. BPBPC-based LEDs are also highly flexible, allowing them to be used in a variety of applications, including lighting and displays.


BPBPC has also been used in the fabrication of optoelectronic devices, such as photodetectors and photovoltaics. BPBPC-based photodetectors can be used to detect light in a variety of spectral ranges, allowing for the development of a wide range of optical devices. Photovoltaic cells made from BPBPC can also be used to convert light into electrical energy, making them an attractive option for solar cells.


Finally, BPBPC has been used in a variety of biomedical applications, including drug delivery and biosensors. The material has been used to create nanoparticles that can be used to deliver drugs to specific targets in the body, as well as biosensors that can detect the presence of specific molecules in the body. BPBPC is also being explored for its potential use in tissue engineering, as it has the potential to be used to create scaffolds for the growth of new tissue.


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