T3PyTRZ
CAS Number 2703850-25-1
Electron Transport Layer Materials, High Purity Sublimed Materials, Materials, OLED Materials, Semiconducting Molecules, TADF Materials
Driving Voltage Reducing Terpyridine Derivate for Stable TADF OLEDs
High purity ETL or HBL for highly efficient OLEDs, sublimed (≥99%) and unsublimed (≥98%)
Specifications | MSDS | Literature and Reviews
T3PyTRZ is electron transport layer or hole blocking layer material that is applicable for highly efficient blue and green phosphorescent and TADF OLEDs. T3PyTRZ is highly electron deficient consisting of tetrapyridine and triphenyltriazine moieties. The pyridine units can form multiple intermolecular hydrogen bonding rendering high crystallinity. The triphenyltriazine moiety has relatively large π-plane and easily forms π-π stacking, another contributing factor for the hight crystallinity of T3PyTRZ.
T3PyTRZ is known for its ability to reduce the driving voltage and enhance the operating lifetime and stability of OLED devices as ETL, normally doped by 8-hydroxyquinolinolato lithium (Liq).
Green phosphorescent OLED based on the benchmark phosphorescent emitter Ir(ppy)3 as the active layer and T3PyTRZ as the electron transport layer realized a relatively low turn-on voltage (Von) of 2.18 V at 1 cd m-2, an external quantum efficiency of over 24%, a power efficiency of over 115 lm W-1, and an impressive long lifetime (LT50) of 30,000 hours at a high brightness of 1000 cd m-2. Even at 1000 cd m-2. Also, when DIC-TRZ is used as the host for Ir(ppy)3, low-power-consumption OLEDs with high operational stability and low turn-on voltage of 2.88 V At a high brightness of 1000 cd m-2 is achieved, 0.9 V lower than mCBP host.
T3PyTRZ has also been used in high color purity high performance hyperfluorescence OLEDs to to reduce the driving voltages and improve the stability.
General Information
| CAS Number | 2703850-25-1 |
|---|---|
| Chemical Formula | C41H27N7 |
| Molecular Weight | 617.7 g/mol |
| Absorption | λmaxN/A |
| Fluorescence | λemN/A |
| HOMO/LUMO | HOMO = - 6.7 eV, LUMO = - 3.3 eV, ET = 2.90 eV |
| Synonyms | 6-(3-(4,6-Diphenyl-1,3,5-triazin-2-yl)phenyl)-6'-(pyridin-3-yl)-2,4':2',3''-terpyridine |
| Classification or Family | Terpyridine derivatives, Triazine derivative, Electron transport layer (ETL), Hole blocking layer (HBL), Sublimed materials. |
Product Details
| Purity | Sublimed (≥99%) and unsublimed (≥98%) |
|---|---|
| Melting Point | Mp = 304 °C, Td = 481 °C (5% weight loss) |
| Appearance | White powder |
* Sublimation is a technique used to obtain ultra pure-grade chemicals, see sublimed materials for OLED devices.
Chemical Structure
Device Structure(s)
| Device Structure | ITO (100 nm)/polymer buffer [13] (20 nm)/NPD (10 nm)/4DBFHPB (10 nm)/mCBP doped with 12 wt.% Ir(ppy)3 (15 nm)/DBF-TRZ (10 nm)/T3PyTRZ:20 wt.% Liq doped (40 nm)/Liq (1 nm)/Al (100 nm) [1] |
|---|---|
| Color |
 Green |
| Turn-on Voltage (Von) | 2.64 V |
| Current Efficiency@100 cd m-2 | 90.5 cd/A |
| Power Efficiency@100 cd m-2 | 88.1 lm W-1 |
| EQE@100 cd m-2 | 25.1% |
| LT50@1000 cd m-2 | 16281 h |
| Device Structure | ITO (100 nm)/polymer buffer [13] (20 nm)/NPD (10 nm)/4DBFHPB (10 nm)/DIC-TRZ doped with 12 wt.% Ir(ppy)3 (15 nm)/DBF-TRZ (10 nm)/T3PyTRZ:20 wt.% Liq doped (40 nm)/Liq (1 nm)/Al (100 nm) [1] |
|---|---|
| Color |
Green |
| Turn-on Voltage (Von) | 2.18 V |
| Current Efficiency@100 cd m-2 | 81.9 cd/A |
| Power Efficiency@100 cd m-2 | 104.9 lm W-1 |
| EQE@100 cd m-2 | 22.9% |
| LT50@1000 cd m-2 | 31662 h |
| Device Structure | ITO (100 nm)/Polymer Buffer (20 nm)/NPD (10 nm)/4DBFHPB (10 nm)/DIC-TRZ:20 wt.% Ir(ppy)3: 5 wt.% RPXZ-tCzBN (30 nm)/DBF-TRZ (10 nm)/20 wt.% Liq-doped T3PyTRZ (40 nm)/Liq (1 nm)/Al [2] |
|---|---|
| Color |
Green |
| Turn-on Voltage (Von) | 2.15 V |
| Max Current Efficiency | 110.6 cd/A |
| Max Power Efficiency | 150.3 lm W-1 |
| Max EQE | 27.6% |
| LT95/LT90@1000 cd m-2 | 3002/8632 h |
MSDS Documentation
T3PyTRZ MSDS SheetLiterature and Reviews
- T. Kawano et al. (2023); Tetrapyridine/triphenyltriazine-conjugated electron transporters for low-power-consumption, high-stability phosphorescent OLEDs, J. Mater. Chem. C, 11, 4129-4135; DOI: 10.1039/d2tc04647d.
- H. Nemma et al. (2025); π-Extended Phenoxazine-Based Asymmetric MR-TADF Emitters for Narrow Emission Band Green OLEDs with a Power Efficiency of 150 lm W−1, an EQE of 27%, and an LT95 of Over 3000 h at 1000 cdm−2, Adv. Optical Mater., 13, 2402131; DOI: 10.1002/adom.202402131.