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General information
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Name:
mCPSOB
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Full name:
9-(3-(9H-Carbazol-9-yl)-5-(phenylsulfonyl)phenyl)-9H-carbazole
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CAS number:
1374770-41-8
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Chemical formula:
C36H24N2O2S
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Molecular weight:
548.65 g/mol
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Absorption:
N/A
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Photoluminescence:
N/A
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HOMO/LUMO:
HOMO = 5.8 eV, LUMO = 2.5 eV
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Synonyms:
3,5-Di(carbazol-9-yl)-1-phenylsulfonylbenzene
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Classification:
Organic light-emitting diodes, Light-emitting diodes, TADF materials, Host materials, Ambipolar materials
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Purity:
Sublimed: >99.0% (HPLC)
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Melting point:
140 °C, TGA: >200 °C (0.5% weight loss)
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Appearance:
Off-white powder/crystals
mCPSOB >99% – Premium TADF and Host Material for Advanced OLED Applications
At Noctiluca, we proudly offer mCPSOB (9-(3-(9H-Carbazol-9-yl)-5-(phenylsulfonyl)phenyl)-9H-carbazole), a high-purity compound essential for organic light-emitting diodes (OLEDs), TADF materials, and ambipolar applications. Known by its full chemical name 9-(3-(9H-Carbazol-9-yl)-5-(phenylsulfonyl)phenyl)-9H-carbazole and identified by CAS number 1374770-41-8, this material, with the molecular formula C₃₆H₂₄N₂O₂S, is meticulously synthesized to meet the highest industry standards. With a purity of >99% (sublimed), mCPSOB delivers excellent performance in advanced OLED technologies, playing a pivotal role in TADF and host material applications.
The Molecular Structure and Properties of mCPSOB
mCPSOB is a sophisticated organic material known for its versatile application as a host material in TADF and OLED devices. This off-white powder or crystalline compound has a molecular weight of 548.65 g/mol, and while absorption and photoluminescence data are unavailable, its HOMO/LUMO levels of 5.8 eV and 2.5 eV ensure efficient charge transport and light emission. These properties make mCPSOB an indispensable component in ambipolar and host material applications for OLEDs.
Key Features of mCPSOB
- Exceptional Purity and Quality: Our mCPSOB >99% is produced using a rigorous sublimation process to guarantee the highest level of purity. Purity is essential for achieving reliable and consistent performance in OLED and TADF applications, where impurities can compromise device efficiency and longevity.
- Optimized for OLED Applications: mCPSOB is a critical material in host layers and ambipolar materials used in TADF and OLEDs. Its HOMO/LUMO levels allow for balanced charge transport and efficient light emission, making it ideal for devices that require enhanced brightness, stability, and energy efficiency.
- Superior Charge Transport Properties: With HOMO/LUMO levels of 5.8 eV and 2.5 eV, respectively, mCPSOB facilitates the efficient transfer of both holes and electrons. This ambipolar characteristic is vital for achieving high performance in TADF materials and OLEDs, ensuring improved energy conversion and device durability.
- High Thermal Stability: mCPSOB offers impressive thermal stability, with a melting point of 140 °C and a TGA weight loss of only 0.5% at >200 °C, making it suitable for high-temperature operational environments. This stability ensures that devices using mCPSOB maintain their structural integrity and performance over time.
- Versatile Processing Capabilities: mCPSOB is compatible with various processing techniques, including solution processing and vacuum deposition, allowing for flexible integration into OLED fabrication processes. The versatility supports both small-scale research projects and large-scale production environments.
The Role of mCPSOB in Advanced OLED Technologies
mCPSOB, with its molecular formula C₃₆H₂₄N₂O₂S, plays an essential role in the development of next-generation OLED technologies. Its use as a host material and its ambipolar properties significantly enhance the charge transport and light emission in TADF materials and OLED devices. The compound’s well-balanced HOMO/LUMO levels enable efficient energy transfer, resulting in brighter, more stable, and efficient devices. Additionally, mCPSOB’s excellent thermal stability ensures that devices maintain consistent performance over extended lifetimes, making it a key material for high-performance optoelectronic technologies.
Conclusion
Noctiluca’s mCPSOB >99% reflects our commitment to delivering premium-grade chemical materials that meet the stringent requirements of advanced organic electronics. With its high purity, robust thermal stability, and optimized performance in OLED and TADF applications, mCPSOB is an essential material for researchers and developers pushing the boundaries of display technologies and optoelectronics. Whether in research laboratories or industrial-scale production, Noctiluca’s mCPSOB provides the reliability and consistency needed for cutting-edge innovations.
Contact us today to learn more about how mCPSOB can enhance your projects, or to inquire about bulk orders for your specific needs.