How to cite this paper
Nikje, M., Khanmohammadi, M., Abedinifar, F & Garmarudi, A. (2012). Multivariate curve resolution for infrared spectrometric monitoring of the microwave assisted synthesis of bio-based polyols.Current Chemistry Letters, 1(2), 95-100.
Refrences
Gue, A., Zhang, W., Petrovic, S., Z. (2006). Structure–Property Relationships in Polyurethanes Derived from Soybean Oil. J. Mater. Sci., 41, 4914-4920.
2. Gue, Y., Hardesty, J., H., Mannari, V., M., Massingill, J., L. (2007). Hydrolysis of Epoxidized Soy Oil in the Presence of Phosphoric Acid. J. Am. Oil Chem. Soc., 84, 929-935.
3. Petrovic, Z., S., Javni, I., Gue, A., Zhang, W. (2002). Method of Making Natural Oil-based Polyols and Polyurethanes Therefrom. U. S. Patent 6,433,121.
4. Campanella, A., Baltanas, M., A. (2005). Degradation of Oxiran of Epoxidized Vegetable Oil in Liquid-Liquid System: I. Hydrolysis and Attack by H2O2. Latin Am. Appl. Res., 3, 205-210.
5. Petrovic, Z., S., Guo, A., Zhang, W. (2000). Structure and Properties of Polyurethane Based Halogenated and Nonhalogenated Soy-polyols. J. Polym. Sci. Pol. Chem., 38, 4062-4069.
6. Meffert, A., Kluth, H. (1989). Process for the Preparation of Modified Triglycerides. U. S. Patent 4,886,893.
7. Ionescu, M., Petrovic, Z., S., Wan, X. (2007). Ethoxylated Soybean Polyols for Polyurethanes. J. Environ. Polym. Degr., 15, 237-243.
8. Kappe, C., O. (2004). Controlled Microwave Heating in Modern Organic Synthesis. Angew. Chem. Int. Ed., 43, 6250–6284.
9. Jaumot, J., Gargallo, R., de Juan, A., Tauler, R.(2005). A Graphical User-friendly Interface for MCR-ALS: a New Tool for Multivariate Curve Resolution in MATLAB. Chemometr. Intell. Lab., 76, 101-110.
10. de Juan, A., Dysson, R., Marcolli, C., Rault, M., Tauler, R., Maeder, M. (2004).
Spectroscopic Imaging and Chemometrics: a Powerful Combination for Global and Local Sample Analysis. Trends Anal. Chem., 23, 70-79.
11. Azzouz, T., Tauler, R. (2008). Application of Multivariate Curve Resolution Alternating Least Squares (MCR-ALS) to the Quantitative Analysis of Pharmaceutical and Agricultural Samples. Talanta, 74, 1201-1210.
12. Berbel, F., Kapoya, E., D?az-Cruz, J., M., Arino, C., Esteban, M., Tauler, R. (2003). Multivariate Resolution of Coeluted Peaks in Hyphenated Liquid Chromatography – Linear Sweep Voltammetry. Electroanal., 15, 499-508.
13. Jaumot, J., Gargallo, R., Escaja, N., Gonzalez, C., Pedroso, E., Tauler, R. (2002). Multivariate Curve Resolution: a Powerful Tool for the Analysis of Conformational Transitions in Nucleic Acids. Nucleic Acid Res., 30 (17), e92/1-e92/18.
14. Lopez, M., J., Arino, C., Diaz-Cruz, S., Diaz-Cruz, J., M., Tauler, R., Esteban, M. (2003). Voltammetry Assisted by Multivariate Analysis as a Tool for Speciation of Metallothioneins:? Competitive Complexation of ?- and B-Metallothionein Domains with Cadmium and Zinc. Environ. Sci. Technol., 37, 5609- 5616.
2. Gue, Y., Hardesty, J., H., Mannari, V., M., Massingill, J., L. (2007). Hydrolysis of Epoxidized Soy Oil in the Presence of Phosphoric Acid. J. Am. Oil Chem. Soc., 84, 929-935.
3. Petrovic, Z., S., Javni, I., Gue, A., Zhang, W. (2002). Method of Making Natural Oil-based Polyols and Polyurethanes Therefrom. U. S. Patent 6,433,121.
4. Campanella, A., Baltanas, M., A. (2005). Degradation of Oxiran of Epoxidized Vegetable Oil in Liquid-Liquid System: I. Hydrolysis and Attack by H2O2. Latin Am. Appl. Res., 3, 205-210.
5. Petrovic, Z., S., Guo, A., Zhang, W. (2000). Structure and Properties of Polyurethane Based Halogenated and Nonhalogenated Soy-polyols. J. Polym. Sci. Pol. Chem., 38, 4062-4069.
6. Meffert, A., Kluth, H. (1989). Process for the Preparation of Modified Triglycerides. U. S. Patent 4,886,893.
7. Ionescu, M., Petrovic, Z., S., Wan, X. (2007). Ethoxylated Soybean Polyols for Polyurethanes. J. Environ. Polym. Degr., 15, 237-243.
8. Kappe, C., O. (2004). Controlled Microwave Heating in Modern Organic Synthesis. Angew. Chem. Int. Ed., 43, 6250–6284.
9. Jaumot, J., Gargallo, R., de Juan, A., Tauler, R.(2005). A Graphical User-friendly Interface for MCR-ALS: a New Tool for Multivariate Curve Resolution in MATLAB. Chemometr. Intell. Lab., 76, 101-110.
10. de Juan, A., Dysson, R., Marcolli, C., Rault, M., Tauler, R., Maeder, M. (2004).
Spectroscopic Imaging and Chemometrics: a Powerful Combination for Global and Local Sample Analysis. Trends Anal. Chem., 23, 70-79.
11. Azzouz, T., Tauler, R. (2008). Application of Multivariate Curve Resolution Alternating Least Squares (MCR-ALS) to the Quantitative Analysis of Pharmaceutical and Agricultural Samples. Talanta, 74, 1201-1210.
12. Berbel, F., Kapoya, E., D?az-Cruz, J., M., Arino, C., Esteban, M., Tauler, R. (2003). Multivariate Resolution of Coeluted Peaks in Hyphenated Liquid Chromatography – Linear Sweep Voltammetry. Electroanal., 15, 499-508.
13. Jaumot, J., Gargallo, R., Escaja, N., Gonzalez, C., Pedroso, E., Tauler, R. (2002). Multivariate Curve Resolution: a Powerful Tool for the Analysis of Conformational Transitions in Nucleic Acids. Nucleic Acid Res., 30 (17), e92/1-e92/18.
14. Lopez, M., J., Arino, C., Diaz-Cruz, S., Diaz-Cruz, J., M., Tauler, R., Esteban, M. (2003). Voltammetry Assisted by Multivariate Analysis as a Tool for Speciation of Metallothioneins:? Competitive Complexation of ?- and B-Metallothionein Domains with Cadmium and Zinc. Environ. Sci. Technol., 37, 5609- 5616.