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Thermo Scientific Chemicals
1,8-Diiodooctane, 97+%, stab. with copper
CAS: 24772-63-2 | C8H16I2 | 366.025 g/mol
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化學識別
CAS24772-63-2
IUPAC Name1,8-diiodooctane
Molecular FormulaC8H16I2
InChI KeyKZDTZHQLABJVLE-UHFFFAOYSA-N
SMILESICCCCCCCCI
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規格
規格表
規格表Appearance (Color)Clear colorless to yellow
Identification (FTIR)Conforms
StabilizerCopper powder
Assay (GC)≥97.0%
Refractive Index1.5610-1.5660 @ 20?C
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1,8-Diiodooctane is utilized to improve the power conversion efficiency of polymer solar cells. It is also employed as a processing additive to improve the morphology and the efficiency of bulk heterojunctions solar cells based on the regioregular poly(3-hexylthiophene).
This Thermo Scientific Chemicals brand product was originally part of the Alfa Aesar product portfolio. Some documentation and label information may refer to the legacy brand. The original Alfa Aesar product / item code or SKU reference has not changed as a part of the brand transition to Thermo Scientific Chemicals.
Applications
1,8-Diiodooctane is utilized to improve the power conversion efficiency of polymer solar cells. It is also employed as a processing additive to improve the morphology and the efficiency of bulk heterojunctions solar cells based on the regioregular poly(3-hexylthiophene).
Solubility
Miscible with methanol.
Notes
Light sensitive. Incompatible with water and strong bases.
1,8-Diiodooctane is utilized to improve the power conversion efficiency of polymer solar cells. It is also employed as a processing additive to improve the morphology and the efficiency of bulk heterojunctions solar cells based on the regioregular poly(3-hexylthiophene).
Solubility
Miscible with methanol.
Notes
Light sensitive. Incompatible with water and strong bases.
RUO – Research Use Only
General References:
- Chen, W.; Darling, S. B. Understanding the Role of Additives in Improving the Performance of Bulk Heterojunction Organic Solar Cells. Microsc. Microanal. 2015, 21, 2439-2440.
- Lin, J. D.; Mikhnenko, O. V.; van der Poll, T. S.; Bazan, G. C.; Nguyen, T. Q. Temperature Dependence of Exciton Diffusion in a Small-Molecule Organic Semiconductor Processed With and Without Additive. Adv. Mater. 2015, 27 (15), 2528-2532.