DMAC-DPS
DMAC-DPS
Product Detail
1. Overview
DMAC-DPS is mainly used as blue dopant material in TADF-OLED devices, due to its bipolar charge-transporting capability.
DMAC-DPS plays a key role in OLED technology, functioning in various capacities such as an emitting layer material (EML), particularly as a blue fluorescent dopant, and in TADF and PHOLED applications.
The unique molecular structure contributes to its outstanding performance in OLEDs. The compound features a diphenylsulfone core bonded with two 9,9-dimethyl-9,10-dihydroacridine acceptor groups. This configuration promotes efficient energy transfer, essential for blue light emission, with a HOMO level of 5.9 eV and a LUMO level of 2.9 eV. This optimal energy alignment positions DMAC-DPS as an excellent candidate for producing vibrant blue emissions, boosting both the efficiency and color purity of OLED displays.
2. Specifications
|
Product Name |
DMAC- DPS |
|
CAS no. |
1477512-32-5 |
|
Chemical Formula: |
C42H36N2O2S |
|
Full name: |
10,10′-(4,4′-Sulfonylbis(4,1-phenylene))bis(9,9-dimethyl-9,10-dihydroacridine |
|
Molecular weight (g/mol): |
632.81 g/mol |
|
Purity: |
Sublimed: > 99.0% |
|
Physical state: |
Solid |
|
Color: |
Pale-yellow |
|
Absorption (nm): |
lmax 286 (in Toluene) |
|
Emission (nm): |
lmax 469 (in Toluene) |
|
HOMO/LUMO (eV): |
HOMO = 5.9 / LUMO = 2.90 |
|
Melting Point (°C): |
310 |
Chemical Structure of 10,10′-(4,4′-Sulfonylbis(4,1-phenylene))bis(9,9-dimethyl-9,10-dihydroacridine
3. Features
- Enhanced Blue Emission Performance: DMAC-DPS is known for its excellent blue emission properties, with a peak at 469 nm in Toluene. This characteristic is crucial for OLED displays that demand high color fidelity and brightness. By serving as a blue dopant, DMAC-DPS contributes to achieving deep, vivid blue hues, setting a high benchmark for display technology.
- Versatile Application in OLED Production: DMAC-DPS demonstrates versatility across various OLED applications, including use as a host material and in TADF technology. This adaptability makes it a valuable material for OLED production, enabling creative and effective design and fabrication techniques.
- Advancing OLED Technology: Our dedication to high standards in chemical manufacturing and CRO services supports the development of advanced OLED materials that enhance efficiency, performance, and sustainability.
4. Applications Fields
Function in OLEDs
- Dopant material in TADF-OLED devices
- Electron injection layer
- Hole blocking layer
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