Flash vacuum pyrolysis
Flash vacuum pyrolysis (FVP) is a technique in organic synthesis. It entails heating a precursor molecule intensely and briefly. Two key parameters are the temperature and duration (or residence time), which are adjusted to optimize yield, conversion, and avoidance of intractable products.[1] Often the experiment entails volatilizing a precursor, which is drawn through a "hot zone" followed by rapid condensation. The apparatus typically is conducted under dynamic vacuum. The hot zone must impart heat to the gaseous molecules, so it is generally packed with solids to induce gas-solid collisions. The packing material is generally chemically inert, such as quartz.[2] The precursor (i) volatilizes with gentle heating and under vacuum, (ii) the precursor fragments or rearranges in the hot zone, and finally (iii) the products are collected by rapid cooling. Rapid post-reaction cooling and the dilution inherent in gases both suppress bimolecular degradation pathways.
Examples
The technique is applied to conversions that proceed via unimolecular pathways. 2-Acetoxy
References
- ^ McNab, Hamish "Chemistry without reagents: synthetic applications of flash vacuum pyrolysis" Aldrichimica Acta 2004, volume 37, pp. 19–26. http://www.sigmaaldrich.com/ifb/acta/v37/acta-vol37-2004.html#20
- doi:10.1071/CH14096
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- ^ .