Functional Food Product Development 2010
DOI: 10.1002/9781444323351.ch3
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Supercritical Carbon Dioxide and Subcritical Water: Complementary Agents in the Processing of Functional Foods

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Cited by 12 publications
(6 citation statements)
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References 117 publications
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“…This process is extremely accurate since it is based on binding molecules in accordance with a specific fixing pattern, allowing a specific extraction at almost 100%. While other extraction techniques, like supercritical coupled with adsorbents (silica gel), allow the extraction of β‐carotene isomers, as described by Mendes and his collaborators in 2003 (Mendes et al., 2003 ; Srinivas & King, 2010 ), this process could be qualified as the most specific extraction technique as it extracts pure β‐carotene molecules which could be intended for pharmaceutical or cosmetic use. Nevertheless, this pioneer method could overcome the highly expensive price of the chemical synthesis of the cis β‐carotene form.…”
Section: Discussionmentioning
confidence: 99%
“…This process is extremely accurate since it is based on binding molecules in accordance with a specific fixing pattern, allowing a specific extraction at almost 100%. While other extraction techniques, like supercritical coupled with adsorbents (silica gel), allow the extraction of β‐carotene isomers, as described by Mendes and his collaborators in 2003 (Mendes et al., 2003 ; Srinivas & King, 2010 ), this process could be qualified as the most specific extraction technique as it extracts pure β‐carotene molecules which could be intended for pharmaceutical or cosmetic use. Nevertheless, this pioneer method could overcome the highly expensive price of the chemical synthesis of the cis β‐carotene form.…”
Section: Discussionmentioning
confidence: 99%
“…Possibly the use of lower concentration of H 2 O, which is in the liquid state, increased the moisture of the baru almond and thus allowed for greater extraction of tocopherols by the system formed by the two phases (CO 2 and H 2 O) , moreover making the extraction solvent more polar and increasing the extraction of tocopherols that are moderately polar. In addition to parameters such solubility of bioactive compounds Value-adding Baru Oil by SC-CO 2 Extraction Using H 2 O as Cosolvent in the system formed by CO 2 and cosolvents, temperature and pressure, and particle size, moisture can also interfere in the extraction of bioactive compounds, such as tocopherols 39) . A similar behaviour was also observed by Silva et al 20) , who found that pomegranate seed oil extracted by SC-CO 2 was enriched in tocopherols when the cosolvent was composed of 90% water and 10% alcohol, compared to using pure alcohol.…”
Section: Baru Oil Extraction By Sc-co 2 : Tuning Extraction Yieldmentioning
confidence: 99%
“…The first application of SFE to foodstuff dates back from the early 1970s, when this technique was used in the decaffeination of coffee beans. Afterwards, when SFE was recognized as a "green" procedure, its application was boosted and several nutraceutical ingredients, e.g., carotenoid pigments, sterols, tocopherols, or polyphenolic compounds were extracted using this methodology (Srinivas & King, 2010). iv) Accelerated solvent extraction (ASE), is made with the same solvents, but using higher pressure and elevated temperatures, presenting the additional advantages of enabling the extraction of fresh samples, shorter extraction times, higher automation and good extraction kinetics.…”
Section: Extraction Of Bioactive Compoundsmentioning
confidence: 99%