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Luminosyn? PBDTT-DPP (M1402) is now available, featuring:
- High purity and high molecular weight (PBDTT-DPP is purified by Soxhlet extraction with methanol, hexane and chlorobenzene under an argon atmosphere)
- Batch-specific GPC data (so you have confidence in what you are ordering. Also, GPC data is always convenient for your thesis and publications)
- Large-quantity orders (so you can plan your experiments with polymers from the same batch)
Pricing
| Batch | Quantity | |
| M1401 | 100 mg | |
| M1401 | 250 mg | |
| M1401 | 500 mg | |
| Luminosyn? M1402 | 100 mg | |
| Luminosyn? M1402 | 250 mg | |
| Luminosyn? M1402 | 500 mg | |
| Luminosyn? M1402 | 1g |
Batch details
| Batch | Mw | Mn | PDI | |
| M1401 | >30,000 | >10,000 | <=3 | |
| Luminosyn? M1402 | 88,883 | 31,615 | 2.81 |
General Information
| Full name | Poly{2,6′-4,8-di(5-ethylhexylthienyl)benzo[1,2-b;3,4-b]dithiophene-alt-5,5'-dibutyloctyl-3,6-bis(5-thiophen-2-yl)pyrrolo[3,4-c]pyrrole-1,4-dione} |
| Synonyms | PBDT-DPP |
| Chemical formula | (C72H94N2O2S6)n |
| CAS number | 1380582-98-8 |
| HOMO / LUMO | HOMO = -5.30 eV, LUMO = -3.63 eV [1] |
| Classification / Family | Organic semiconducting materials, Low band gap polymers, Organic photovoltaics, Polymer solar cells, Tandem solar cells, Perovskite solar cells. |
| Solubility | Soluble in chloroform, chlorobenzene, dichlorobenzene |
Batch details
| Batch | Mw | Mn | PDI | Stock Info |
| M1401 | >30,000 | >20,000 | <=3 | Low in stock |
| Luminosyn? M1402 | 88,883 | 31,615 | 2.81 | In stock |
Applications
PBDTT-DPP is a low band-gap polymer with strong photosensitivity in the range of 650-850 nm, with an onset absorption at 858 nm (Eg = 1.45 eV, near infrared absorption). However, it is less sensitive to visible light in the solar spectrum. For this reason, PBDTT-DPP is an ideal candidate for tandem solar cell structures, having achieved device performances of 8.62% (device structure: ITO/ZnO/P3HT:ICBA/PDOT:PSS/ZnO/PBDTT-DPP:PC71BM/Ag).
Additionally, a single-layer device based on PBDTT-DPP was shown to demonstrate a power conversion efficiency of 6%.[1] PBDTT-DPP also finds application in perovskite solar cells due to its perfect energy level line-ups with perovskites.
Literature and Reviews
- Tandem polymer solar cells featuring a spectrally matched low-bandgap polymer, L. Dou et al., Nat. Photonics 6, 180 (2012); DOI: 10.1038/NPHOTON.2011.356.
- Metal Oxide Nanoparticles as an Electron-Transport Layer in High-Performance and Stable Inverted Polymer Solar Cells, J. You et al., Adv. Mater., 24, 5267–5272 (2012); DOI: 10.1002/adma.201201958.
- Visibly Transparent Polymer Solar Cells Produced by Solution Processing, C. Chen et al., ACS Nano, 6(8), 7185-7190 (2012); DOI: 10.1021/nn3029327.
- High-performance multiple-donor bulk heterojunction solar cells, Y. Yang et al., Nat. Photonics 9, 190–198 (2015); DOI:10.1038/nphoton.2015.9.