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Original Articles

Prediction of Benzoyl Peroxide in Flour Using Near Infrared Spectroscopy Technique

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Pages 1115-1126 | Received 28 Jan 2015, Accepted 01 Jun 2015, Published online: 26 Jan 2016

References

  • Miskelly, D.M. Flour Components Affecting Paste and Noodle Color. Journal of the Science of Food and Agriculture 1984, 35, 463–471.
  • Yang, C.-Z.; Zhang, L.; Si, H.-Q.; Chuan, M.-X. Review of Wheat Flour Whiteness. Journal of Triticeae Crops 2002, 22(3), 74–77.
  • Yasunaga, T.; Uenura, M. Evaluation of Color Characteristics of Obtained from Various Types and Varieties of Wheat. Cereal Chemical 1962, 39(3), 171–183.
  • Chen, Z.; Huang, M. The Use of Flour Brightener and the Safety of Production. Guangzhou Food Science and Technology 1997, 13(3), 36–38.
  • Abe-Onishi, Y.; Yomota, C.; Sugimoto, N.; Kubota, H.; Tanamoto, K. Determination of Benzoyl Peroxide and Benzoic Acid in Wheat Flour by High Performance Liquid Chromatography and Its Identification by High Performance Liquid Chromatography Mass Spectrometry. Journal of Chromatography A 2004, 1040(2), 209–214.
  • Wei, A.; Dai, H.; Li, G. Properties and Quantitative Determination in Wheat Flour of Benzol Peroxide. Cereal and Food Industry 2003, 3, 49–51.
  • Lei, K. The Truth of Flour Additives. China Food-Additive Weekly (Version 1) 2005, 01, 25.
  • Li, S.; Liu, Q. The Role and Endangerment of the Benzoyl Peroxide in Wheat Flour. Guangdong Chemistry 2011, 38(9), 96–125.
  • Liu, G. The Flour Brightener and Its Application. Grain Processing 2005, 4, 15–18.
  • Fu, J. The Brightener Go Back Quietly, the Integrity of the Flour Industry Face the Examination. Grain and Oil Market 2012, B01, 1–2.
  • Que, X.; Zhang, N. Research on Measuring the Benzoyl Peroxide Through the Oscillopolarography in Flour. Huaihai Medicine 2008, 26(1), 27–28.
  • Bowyer, J.R.; Spurlin, S.R. Chemiluminescence Method for Determination of Benzoyl Peroxide in Solution. Analytica Chimica Acta 1987, 192, 289–292.
  • Wang, Y.; Xu, G. Measuring of the Benzoyl Peroxide Through the Iodometry in Flour. China Public Health 2002, 18(2), 170–171.
  • Lapchareonsuk, R.; Sirisomboon, P. Sensory Quality Evaluation of Rice Using Visible and Shortwave Near-Infrared Spectroscopy. International Journal of Food Properties 2015, 18(5), 1128–1138.
  • Ni, Y.; Mei, M.; Kokot, S. Analysis of Complex, Processed Substances with the Use of NIR Spectroscopy and Chemo Metrics: Classification and Prediction of Properties—The Potato Crisps Example. Chemo Metrics and Intelligent Laboratory Systems 2011, 105(2), 147–161.
  • Luo, Y.; Guo, Z.; Zhu, Z.; Wang, C.; Jiang, H.; Han, B. Studies on ANN Models of Determination of Tea Polyphenol and Amylose in Tea by Near-Infrared Spectroscopy. Spectroscopy and Spectral Analysis 2005, 25(8), 1230–1233.
  • Herrero Latorre, C. A fast Chemometric Procedure Based on NIR Data for Authentication of Honey with Protected Geographical Indication. Food Chemistry 2013, 141, 3559–3565.
  • Zhang, S. A Simple Identification Model for Subtle Bruises on the Fresh Jujube Based on NIR Spectroscopy. Mathematical and Computer Modelling 2013, 58, 545–550.
  • Ferreira, D.S. Comparison and Application of Near-Infrared (NIR) and Mid-Infrared (MIR) Spectroscopy for Determination of Quality Parameters in Soybean Samples. Food Control 2014, 35(1), 227–232.
  • Zhang, Z. Detection of Benzoyl Peroxide in Wheat Flour by NIR Diffuse Reflectance Spectroscopy Technique. Spectroscopy and Spectral Analysis 2011, 31(12), 3260–3263.
  • Haughey, S.A. The Application of Near-Infrared Reflectance Spectroscopy (NIRS) to Detect Melamine Adulteration of Soya Bean Meal. Food Chemistry 2013, 136, 1557–1561.
  • Mouazen, A.M.; Al-Walaan, N. Glucose Adulteration in Saudi Honey with Visible and Near Infrared Spectroscopy. International Journal of Food Properties 2014, 17(10), 2263–2274.
  • Peng, L.; Li, G.; Geng, X.; Wang, Z.; Jiang, J.; Liu, Q.; Jiang, W.; Chen, L.; Wang, S.; Cao, F.; Xie, X.; Kong, L. Determination of Benzoyl Peroxide in Wheat Flour-High Performance Liquid Chromatography; National Agricultural Standardization Monitoring and Research Center GB/T 22325-2008, Harbin, Heilongjiang Province, China.
  • Zhu, S.; Wang, Y.; Wu, J.; Zhang, X. Outlier Sample Eliminating Criterions and Methods for Building Calibration Model of Near Infrared Spectroscopy Analysis. Transactions of the Chinese Society for Agricultural Machinery 2004, 35(4), 115–119.
  • Wang, J.; Qiu, Q.; Liu, W. Quality Assessment of Tobacco Flavor by Classification of Principal Component Analysis-Mahalanobis Distance Combined with FTIR-ATR Fingerprint. Spectroscopy and Spectral Analysis 2007, 27(5), 895–897.
  • Tian, H.; Wang, C.; Zhang, H.; Yu, Z.; Li, J. Outlier Sample Discriminating Methods for Building Calibration Model in Melons Quality Detecting Using NIR Spectra. Spectroscopy and Spectral Analysis 2012, 32(11), 2987–2990.
  • Nicolai, B.; Beullens, K.; Bobelyn, E.; Peirs, A.; Saeys, W.; Theron, K.; Lammertyn, J. Nondestructive Measurement of Fruit and Vegetable Quality by Means of NIR Spectroscopy: A Review, Postharvest. Biology and Technology 2007, 46(2), 99–118.
  • Qu, N.; Mi, H.; Wang, B.; Ren, Y. Application of GA-RBF Networks to the Nondestructive Determination of Active Component in Pharmaceutical Powder by NIR Spectroscopy. Journal of the Taiwan Institute of Chemical Engineers 2009, 40, 162–167.

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