2021
DOI: 10.1002/jssc.202100580
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Effective extraction of tylosin and spiramycin from fermentation broth using thermo‐responsive ethylene oxide/propylene oxide aqueous two‐phase systems

Abstract: Recyclable aqueous two-phase systems with thermo-responsive phase-forming materials have been employed to separate macromolecules; however, these systems have achieved very limited separation efficiency for small molecules, such as antibiotics. In this study, aqueous two-phase systems composed of the ethylene oxide/propylene oxide copolymer and water were developed to extract alkaline antibiotics from the fermentation broth. In the aqueous twophase systems with an ethylene oxide ratio of 20 and propylene oxide… Show more

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Cited by 1 publication
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“…Since there are no traditional volatile organic compounds present in ATPS and the bulk of both phases is mainly composed of water, ATPS can provide a mild environment for bioactive molecules, allowing them to maintain their original structure and function. , Besides, ATPS liquid–liquid extraction technology can avoid the adverse effects of organic solvents on the environment, and the phase components of ATPS can be recycled. , Therefore, ATPS has biocompatibility and environmental friendliness and has been considered as a new type of green separation system. However, ATPS so far has not been applied on a large scale in the field of separation and purification due to drawbacks such as high viscosity and long phase separation time for surfactant-based ATPS, , the restricted difference in polarities between the two phases of polymer-based ATPS, , and the low selectivity for target molecules. , …”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Since there are no traditional volatile organic compounds present in ATPS and the bulk of both phases is mainly composed of water, ATPS can provide a mild environment for bioactive molecules, allowing them to maintain their original structure and function. , Besides, ATPS liquid–liquid extraction technology can avoid the adverse effects of organic solvents on the environment, and the phase components of ATPS can be recycled. , Therefore, ATPS has biocompatibility and environmental friendliness and has been considered as a new type of green separation system. However, ATPS so far has not been applied on a large scale in the field of separation and purification due to drawbacks such as high viscosity and long phase separation time for surfactant-based ATPS, , the restricted difference in polarities between the two phases of polymer-based ATPS, , and the low selectivity for target molecules. , …”
Section: Introductionmentioning
confidence: 99%
“…However, ATPS so far has not been applied on a large scale in the field of separation and purification due to drawbacks such as high viscosity and long phase separation time for surfactant-based ATPS, 5,6 the restricted difference in polarities between the two phases of polymer-based ATPS, 7,8 and the low selectivity for target molecules. 9,10 To date, many researchers have tried to improve ATPS performance by developing novel ATPS (for example, ionic liquid-based ATPS 11−13 ) or by using adjuvants (such as adding surfactants, 14 acetonitrile, 15 or ionic liquids 16−18 into PEG/salt ATPS). It has been concluded that these two methods can help improve the extraction efficiency of ATPS under certain conditions, however, the selectivity of ATPS for the molecules with similar structures or properties is still limited; actually, so far, the selectivity of ATPS is far from satisfactory.…”
Section: Introductionmentioning
confidence: 99%