- BCP
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- $0.00 / 1g
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2024-12-26
- CAS:4733-39-5
- Min. Order: 1g
- Purity: 99.90%
- Supply Ability: 100KGS
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| Product Name: | Bathocuproine | | Synonyms: | EINECS 225-240-5;2,9-dm-4,7-dpphen;2,9-dimethyl-4,7-diphenyl-phen;2,9-DiMethyl-4,7-diphenyl-1,10-phenantroline;2,9-DiMethyl-4,7-diphenyl-1,10-phenanthroline, 98% 1GR;Bathocuproin BCP;Bathocuproine p.a.;Bathocuproine,2,9-Dimethyl-4,7-diphenyl-1,10-phenanthroline, BCP | | CAS: | 4733-39-5 | | MF: | C26H20N2 | | MW: | 360.45 | | EINECS: | 225-240-5 | | Product Categories: | Industrial/Fine Chemicals;electronic;Electronic Chemicals;Analytical Chemistry;Chelating Reagents;Electroluminescence;Functional Materials;Highly Purified Reagents;Other Categories;Phenanthrolines;Refined Products by Sublimation;oled materials;OLED;fine chemicals, specialty chemicals, intermediates, electronic chemical, organic synthesis, functional materials | | Mol File: | 4733-39-5.mol |  |
| | Bathocuproine Chemical Properties |
| Melting point | 279-283 °C(lit.) | | Boiling point | 482.47°C (rough estimate) | | density | 1.2408 (rough estimate) | | refractive index | 1.7620 (estimate) | | storage temp. | Sealed in dry,Room Temperature | | solubility | Benzene (Slightly, Heated), DMSO (Slightly, Heated), Methanol (Slightly, Heated) | | form | Powder | | pka | 5.88±0.30(Predicted) | | color | Yellow | | Water Solubility | Soluble in methanol (36mg/100ml), ethanol, 2-propanol, bezene, and acetone. Partly miscible in water. | | BRN | 306714 | | InChI | InChI=1S/C26H20N2/c1-17-15-23(19-9-5-3-6-10-19)21-13-14-22-24(20-11-7-4-8-12-20)16-18(2)28-26(22)25(21)27-17/h3-16H,1-2H3 | | InChIKey | STTGYIUESPWXOW-UHFFFAOYSA-N | | SMILES | N1C2C(=CC=C3C=2N=C(C)C=C3C2=CC=CC=C2)C(C2=CC=CC=C2)=CC=1C | | CAS DataBase Reference | 4733-39-5(CAS DataBase Reference) | | EPA Substance Registry System | 1,10-Phenanthroline, 2,9-dimethyl-4,7-diphenyl- (4733-39-5) |
| | Bathocuproine Usage And Synthesis |
| Classification | Electron-transport layer materials, Electron-injection layer materials, Hole-blocking layer materials, OFET, OLED, Organic Photovoltaics, Perovskite solar cells, Sublimed materials. | | Applications | 2,9-Dimethyl-4,7-diphenyl-1,10-phenanthroline, also known as Bathocuproine (BCP), is a wide-band-gap material and has a high electron affinity. When it is embedded into organic electronic devices, bathocuproine acts as an exciton-blocking barrier which prohibits exciton diffusion process towards the Al electrode otherwise being quenched. One of the most commonly used buffer layer between acceptor and cathode layers is bathocuproine. The introduction of the buffer layer can greatly improve the PCE of polymer organic solar cells. BCP is one of the most popular hole-blocking layer materials that is used in organic electronics, including perovskite solar cells.
It was demonstrated that a BCP buffer layer reduces nonradiative recombination of excitons at the C60 –Al interface. Its most important function is to establish an Ohmic contact between the C60 film and the Al electrode in photovoltaic devices.
| | Description | Organic photovoltaic cells (OPVCs) are considered to be promising devices because of their mechanical flexibility, ease of fabrication and potential for low-cost production. For small-molecule OPVCs the most-common material to use between the acceptor, here C60, and the top electrode, Al, is 2,9-dimethyl-4,7-diphenyl-1,10-phenanthroline, also known as bathocuproine. Indeed, the insertion of BCP results in an enhanced power-conversion efficiency (PCE). The improved power-conversion efficiency has been attributed to an increased exciton harvesting in the active layer. As BCP is a wide-band-gap material it acts as an exciton-blocking barrier (EBL) that prohibits excitons diffusing towards the Al electrode where they would otherwise be quenched. | | Chemical Properties | Yellow powder | | Uses | Bathocuproine is used as a reagent for the determination of copper. It acts as an exciton blocking barrier which prohibits excitons diffusion process towards the Al electrode otherwise being quenched. It is the most commonly used buffer layer between acceptor and cathode layer. | | Uses | Bathocuproine can be used as an electron-modifying layer or as an interlayer between ETLs (electron transport layers) in calcite solar cells, and it can be prepared by spin-coating deposition or vacuum thermal evaporation. The addition of Bathocuproine enhances the energy conversion efficiency of organic photovoltaic cells. | | General Description | TGA/DSC Lot specific scans available upon request | | Purification Methods | Purify it by recrystallisation from *benzene. [Smith & Wilkins Anal Chem 25 510 1953, Beilstein 23 III/IV 2160.] | | References | [1] Mao, Lingling et al. “Role of Organic Counterion in Lead- and Tin-Based Two-Dimensional Semiconducting Iodide Perovskites and Application in Planar Solar Cells.” Chemistry of Materials 28 (2016): 7781–7792. |
| | Bathocuproine Preparation Products And Raw materials |
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