High Purity Benzene-D₆
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Contact usSpecifications
Benzene-D₆, Enriched | ≥99.8Atom% | |
Chemical Purity | ≥ 99.9% |
Physical and chemical properties
Formula | C6D6 | |||
Molecular weight | 84.15 g/mol | |||
Form | Liquid | |||
Color | Colorless | |||
Water Solubility | Slightly soluble in water | |||
Sensitive | Moisture sensitive | |||
Solubility | Miscible with most organic solvents | |||
Initial boiling point and boiling range | 79,1 °C at 1.013 hPa - lit. | |||
Vapor pressure | 99,5 hPa at 20 °C | |||
Density | 0,95 g/cm3 at 25 °C - lit. |
product description
Benzene-D₆ (C₆D₆) is a perdeuterated form of benzene. It is an aromatic single ring compound. Benzene-D₆ is a very important chemical intermediate for the synthesis of deuterium-labeled high order organic molecules.
Benzene-D₆ (deuterobenzene) is a common solvent in NMR spectrometry. It is also an important component of special catalytically active synthetic zeolytes . Deuterobenzene use has additionally emerged in the synthesis of deuterobenzene-cored fluorophores for the OLED manufacturing process. Although current research concentrates on the stability of blue light in OLEDs, the deuterated benzene derivative could show improved stability of the orange light as a side effect.
Additional applications include both conventional and organic photovoltaic cells, where benzene naphthalene coupling is routinely used. For these applications, the perdeuteration of benzene may improve the stability and longevity of photovoltaic cells . Although the primary literature in this field is still developing, current findings suggest the deuteration of benzene would increase the stability of the conjugated microporous polymers, used in gas adsorption, heterogeneous catalysis, light emission, light-harvesting, and electrical energy storage.
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