References
- Auras, R., Rubino, M., Lim, L.-T. (2008) Prog. Polym. Sci., 33(8): 820–852.
- Sánchez-Aldana, D., Duarte-Villa, E., Hernández, M, González, G., Rascón, Q., Flores, S., Piñón, H., Ballinas, L. (2014) Polymers, 6: 2386–2403.
- Liu, Y., Chen, W., Kim, H.-I. (2012) J. Macromol. Sci., Part A: Pure Appl.Chem., 49(4), 348–354.
- Russo, P., Cammarano, S., Bilotti, E., Peijs, T., Cerruti, P., Acierno, D. (2014) J. Appl. Polym. Sci., 131: 39798.
- Hoidy, W. H., Ahmad, M. B., Al-Mulla, E., Ibrahim, N. (2010) J. Appl Sci., 10(2): 97–106.
- Tham, W. L., Mohd Ishak, Z. A, Chow, W. S. (2014) J. Macromol. Sci., Part B: Physics, 53:3, 371–382.
- Darie, R. N., Paslaru, E., Sdrobis, A., Pricope, G., Hitruc, G., Poiata, A., Baklavaridis, A., Vasile, C. (2014) Ind. Eng. Chem. Res., 53: 7877–7890.
- Li, Y., Ren, P. G., Zhang, Q., Shen, T. T., Ci, J. H., Fang, C. Q. (2013) J. Macromol. Sci., Part B: Physics, 52: 1041–1055.
- Sinha Ray, S., Okamoto, M. (2003) Prog. Polym. Sci., 28(11): 1539–1641.
- Ku, B. C., Froio, D., Steeves, D., Kim, D. W., Ahn, H., Ratto, J. A., Blumstein, A., Kumar, J., Samuelson, L. A. (2004) J. Macromol. Sci., Part A: Pure and Appl. Chem., 41: 1401–1410.
- Feldman, D. (2016) J. Macromol. Sci., Part A: Pure and Appl. Chem., 53: 55–62.
- Gul, S., Kausar, A., Muhammad, B., Jabeen, S. (2016) Polym.-Plast. Technol. Eng., 55: 684–703.
- Majeed, K., Jawaid, M., Hassan, A., Abu-Bakar, A., Abdul-Khalil, H. P., Salema, A. A., Inuwa, I. (2013) Mater. Des., 46: 391–410.
- Murariu, M., Dubois, P. (2016) Adv. Drug Delivery Rev., 107: 17–46.
- Habibi, Y., El-Zawawy, W., Ibrahim, M, Dufresne, A. (2008) Compos. Sci. Technol., 8: 1877–1885.
- Masirek, R., Kulinski, Z., Chionna, D., Piorkowska, E., Pracella, M. (2007) J. Appl. Polym. Sci., 105: 255–268.
- Alemdar, A., Sain, M. (2008) Compos. Sci. Technol., 68: 557–565.
- Pan, P., Zhu, B., Khai, W., Serizawa, S., Iji, M., Inove, Y. (2007) J. Appl. Polym. Sci., 105: 1511–1520.
- Sever, K. (2010) J. Reinf. Plast. Compos., 29: 1921.
- Jain, S., Kumar, R., Jindal, U. (1992) J. Mater. Sci., 27: 4598–4604.
- Van de Weyenberg, I., Ivens, J., De Coster, A., Kino, B., Baetens, E., Verpoest, I. (2006) Compos. Sci. Technol., 63: 1241–1246.
- John, M., Thomas, S. (2008) Carbohydr Polym., 71(3): 343–364.
- Arjmandi, R., Hassan, A., Majeed, K., Zakaria, Z. (2015) Int. J. Polym. Sci., 25: 35.
- Kumagai, S., Matsuo, Y. (2013) Ind. Crops. Prod., 43(1): 640–647.
- Chandrasekhar, S., Satyanarayana, K. G., Pramada, P. N., Raghavan, P., Gupta, T. N. (2003) J. Mater. Sci., 38: 3159–3168.
- Battegazzore, D., Bocchini, S., Alongi, J., Frache, A., Marino, F. (2014) Cellulose, 21: 1813–1821.
- Kwon, J. H., Ayrilmis, N., Han, T. H. (2014) Mater. Res., 17(5): 1309–1315.
- Tran, T. D., Nguyen, M. D. (2013) J. Chem., 2013: 1–6.
- Tan, B., Thomas, N. L. (2017) Appl. Clay Sci., 141: 46–54.
- Mansa, R., Huang, C. T., Quintela, A., Rocha, F., Detellier, C. (2015) Appl. Clay Sci., 115: 87–96.
- Murariu, M., Dechief, A. L., Ramy-Ratiarison, R., Paint, Y., Raquez, J. M., Dubois, P. (2015) Nanocomposites, 1: 71–82.
- Raquez, J. M., Habibi, Y., Murariu, M., Dubois, P. (2013) Prog. Polym. Sci., 38: 1504–1542.
- Duan, Z., Thomas, N. L., Huang, W. (2013) J. Membr. Sci., 445: 112–118.
- Krishnamachari, P., Zhang, J., Lou, J., Yan, J., Uitenham, L. (2009) Int. J. Polym. Anal. Charact., 14: 336–350.
- Ouchiar, S., Stoclet, G., Cabaret, C., Georges, E., Smith, A., Martias, C., Addad, A., Gloaguen, V. (2015) Appl Clay Sci., 116-117: 231–240.
- Matusik, J., Stodolak, E., Bahranowski, K. (2011) Appl. Clay Sci., 51: 102–109.
- Girdthep, S., Worajittiphon, P., Molloy, R., Leejarkpaic, T., Punyodom, W. (2015) Polym. Int., 64: 203–211.
- Girdthep, S., Worajittiphon, P., Molloy, R., Lumyong, S., Leejarkpai, T., Punyodom, W. (2014) Polymer, 55: 6776–6788.
- Cheng, H., Zhang, S., Liu, Q., Li, X., Frost, R. L. (2015) Appl. Clay Sci., 116-117: 273–280.
- Niu, J., Qiang, Y., Li, X., Liu, Z., Zhang, S., Feng, P., Ou, X. (2014) Appl Clay Sci., 101: 215–222.
- Yuan, P., Tan, D., Annabi-Bergaya, F., Yan, W., Liu, D. (2013) Appl Clay Sci., 83: 68–76.
- Mermut, A.R, Cano, A. F. (2001) Clays Clay Miner., 49: 381–386.
- Wilson, M. J. Handbook of Determinative Methods in Clay Mineralogy. Chapman and Hall: Glasgow, 1987.
- Madejová, J. (2003) Vib. Spectrosc., 31: 1–10.
- Wang, L., Chen, J., Ge, L., Zhu, Z., Rudolph, V. (2011) Energy and Fuels, 25: 3408–3416.
- Rhim, J. W., Hong, S. I., Ha, C. S. (2009) LWT Food Sci Technol., 42: 612–617.
- Zeng, D., Zhang, Q., Chen, S., Liu, S., Wang, G. (2016) Microporous Mesoporous Mater., 219: 54–58.
- Chandrasekhar, S., Pramada, P. N. (2006) Adsorption, 12: 27–43.
- Costanzo, P. M., Giese, R. F. (1990) Clays Clay Miner., 8(2): 160–170.
- Dimzoski, B., Bogoeva-Gaceva, G., Gentile, G., Avella, M., Errico, M. E., Srebrenjoska, V. (2008) J. Polym. Eng., 28(6-7): 369–384.
- Yussuf, A., Massoumi, L., Hassan, A. (2010) J. Polym. Environ., 18(3): 422–429.
- Fischer, E. W., Sterzel, H. J., Wegner, G. (1973) Kolloid-Zeitschrift und Zeitschrift für Polym., 251(11): 980–990.
- Garmendia, I., Garcı, J., Garcı, M. (2008) J. Appl. Polym. Sci., 107: 2994–3004.
- Moggridge, G. D., Lape, N. K., Yang, C., Cussler, E. L. (2003) Prog. Org. Coatings, 46: 231–240.