Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion
Solid-phase microextraction (SPME) coupled to gas chromatography has been applied for the headspace analysis (HS) of 12 target flavour compounds in a model orange beverage emulsion. The main volatile flavour compounds studied were: acetaldehyde, ethyl acetate, alpha-pinene, ethyl butyrate, beta-pine...
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2015
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my.usim-84072017-03-02T08:00:50Z Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion Hamed, Mirhosseini, Chin Ping, Tan, Salmah, Yusof, Nazimah, Sheikh Abdul Hamid, Solid-Phase Microextraction Headspace Analysis Orange Beverage Emulsion Fractional Factorial Design Central Composite Design Extraction Efficiency Solid-phase microextraction (SPME) coupled to gas chromatography has been applied for the headspace analysis (HS) of 12 target flavour compounds in a model orange beverage emulsion. The main volatile flavour compounds studied were: acetaldehyde, ethyl acetate, alpha-pinene, ethyl butyrate, beta-pinene, myrcene, limonene, gamma-terpinene, octanal, decanal, linalool and citral (neral plus geranial). After screening the fibre type, the effect of other HS-SPME variables such as adsorption temperature (25-55 degrees C), extraction time (10-40 min), sample concentration (1-100% w/w), sample amount (5-10 g) and salt amount (0-30% w/w) were determined using a two-level fractional factorial design (2(5-2)) that was expanded further to a central composite design. It was found that an extraction process using a carboxen-polydimethylsiloxane fibre coating at 15 degrees C for 50 min with 5 g of diluted emulsion 1% (w/w) and 30% (w/w) of sodium chloride under stirring mode resulted in the highest HS extraction efficiency. For all volatile flavour compounds, the linearity values were accurate in the concentration ranges studied (r(2) > 0.97). Average recoveries that ranged from 90.3 to 124.8% showed a good accuracy for the optimised method. The relative standard deviation for six replicates of all volatile flavour compounds was found to be less than 15%. For all volatile flavour compounds, the limit of detection ranged from 0.20 to 1.69 mg/L. Copyright (c) 2008 John Wiley & Sons, Ltd. 2015-06-19T01:17:30Z 2015-06-19T01:17:30Z 2008 Article 0958-0344 http://ddms.usim.edu.my/handle/123456789/8407 en John Wiley & Sons Ltd |
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Solid-Phase Microextraction Headspace Analysis Orange Beverage Emulsion Fractional Factorial Design Central Composite Design Extraction Efficiency |
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Solid-Phase Microextraction Headspace Analysis Orange Beverage Emulsion Fractional Factorial Design Central Composite Design Extraction Efficiency Hamed, Mirhosseini, Chin Ping, Tan, Salmah, Yusof, Nazimah, Sheikh Abdul Hamid, Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| description |
Solid-phase microextraction (SPME) coupled to gas chromatography has been applied for the headspace analysis (HS) of 12 target flavour compounds in a model orange beverage emulsion. The main volatile flavour compounds studied were: acetaldehyde, ethyl acetate, alpha-pinene, ethyl butyrate, beta-pinene, myrcene, limonene, gamma-terpinene, octanal, decanal, linalool and citral (neral plus geranial). After screening the fibre type, the effect of other HS-SPME variables such as adsorption temperature (25-55 degrees C), extraction time (10-40 min), sample concentration (1-100% w/w), sample amount (5-10 g) and salt amount (0-30% w/w) were determined using a two-level fractional factorial design (2(5-2)) that was expanded further to a central composite design. It was found that an extraction process using a carboxen-polydimethylsiloxane fibre coating at 15 degrees C for 50 min with 5 g of diluted emulsion 1% (w/w) and 30% (w/w) of sodium chloride under stirring mode resulted in the highest HS extraction efficiency. For all volatile flavour compounds, the linearity values were accurate in the concentration ranges studied (r(2) > 0.97). Average recoveries that ranged from 90.3 to 124.8% showed a good accuracy for the optimised method. The relative standard deviation for six replicates of all volatile flavour compounds was found to be less than 15%. For all volatile flavour compounds, the limit of detection ranged from 0.20 to 1.69 mg/L. Copyright (c) 2008 John Wiley & Sons, Ltd. |
| format |
Article |
| author |
Hamed, Mirhosseini, Chin Ping, Tan, Salmah, Yusof, Nazimah, Sheikh Abdul Hamid, |
| author_facet |
Hamed, Mirhosseini, Chin Ping, Tan, Salmah, Yusof, Nazimah, Sheikh Abdul Hamid, |
| author_sort |
Hamed, Mirhosseini, |
| title |
Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| title_short |
Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| title_full |
Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| title_fullStr |
Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| title_full_unstemmed |
Solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| title_sort |
solid-phase microextraction for determining twelve orange flavour compounds in a model beverage emulsion |
| publisher |
John Wiley & Sons Ltd |
| publishDate |
2015 |
| url |
http://ddms.usim.edu.my/handle/123456789/8407 |
| _version_ |
1645152411393720320 |
| score |
13.222552 |