Enhanced degradation of phenanthrene in a solid–liquid two-phase partitioning bioreactor via sonication

## Abstract The bioproduction of 3‐methylcatechol from toluene via __Pseudomonas putida__ MC2 was performed in a solid–liquid two‐phase partitioning bioreactor with the intent of increasing yield and productivity over a single‐phase system. The solid phase consisted of HYTREL™, a thermoplastic poly

## Abstract The microbial biotransformation of (−)‐__trans__‐carveol to the flavor and fragrance compound (__R__)‐(−)‐carvone by __Rhodococcus erythropolis__ DCL14 was carried out in a 3 L two phase partitioning bioreactor with an immiscible liquid second phase in an effort to improve upon the reac

## Abstract The biotransformation of toluene to 3‐methycatechol (3MC) via __Pseudomonas putida__ MC2 was used as a model system for the development of a biphasic process offering enhanced overall volumetric productivity. Three factors were investigated for the identification of an appropriate organ

## Abstract A comparative study of the performance of solid and liquid non‐aqueous phases (NAPs) to enhance the mass transfer and biodegradation of hexane by __Pseudomonas aeruginosa__ in two‐phase partitioning bioreactors (TPPBs) was undertaken. A preliminary NAP screening was thus carried out amo

## Abstract The rose‐like aroma compound 2‐phenylethanol (2‐PE) is an important fragrance and flavor ingredient. Several yeast strains are able to convert l‐phenylalanine (l‐phe) to 2‐PE among which __Kluyveromyces marxianus__ has shown promising results. The limitation of this process is the low p

## Abstract In an effort to improve reactor performance and process operability, the microbial biotransformation of (−)‐__trans__‐carveol to (__R__)‐(−)‐carvone by hydrophobic __Rhodococcus erythropolis__ DCL14 was carried out in a two phase partitioning bioreactor (TPPB) with solid polymer beads a