Jump to ContentJump to Main Navigation
Show Summary Details
More options …

Open Chemistry

formerly Central European Journal of Chemistry

1 Issue per year


IMPACT FACTOR 2017: 1.425
5-year IMPACT FACTOR: 1.511

CiteScore 2017: 1.45

SCImago Journal Rank (SJR) 2017: 0.349
Source Normalized Impact per Paper (SNIP) 2017: 0.812

Open Access
Online
ISSN
2391-5420
See all formats and pricing
More options …
Volume 12, Issue 4

Issues

Volume 13 (2015)

Controlled pesticide release from biodegradable polymers

Anamika Roy / Sunil Singh / Jaya Bajpai / Anil Bajpai
Published Online: 2014-01-16 | DOI: https://doi.org/10.2478/s11532-013-0405-2

Abstract

Polymers have been widely used in agriculture for applications including controlled release of pesticides and other active ingredients. The ability to predict their delivery helps avoid environmental hazards. Macromolecular matrices used as carriers in controlled release of agricultural active agents, especially pesticides, are reviewed. The review focuses on the advantages and mechanisms of controlled release. It includes biodegradable polymers in agriculture, their manufacturing methods, and their degradation mechanisms and kinetics. The article also presents a critical account of recent release studies and considers upcoming challenges.

Keywords: Controlled Release; Biopolymer; Agrochemicals; Degradation; Controlled Release Systems

  • [1] F. Sopena, C. Maqueda, E. Morillo, Cien. Inv. Agr. 35, 27 (2009) Google Scholar

  • [2] J. Moros, S. Armenta, S. Garrigues, M. de la Guardia, Talanta 72, 72 (2007) CrossrefGoogle Scholar

  • [3] J.N. Pretty, J.I.L. Morison, R.E. Hine, Agric. Ecosyst. Environ. 95, 217 (2003) Google Scholar

  • [4] A.K. Bajpai, A. Giri, React. Funct. Polym. 53, 125 (2002) Google Scholar

  • [5] D. Ali, N.S. Nagpurea, S. Kumar, R. Kumar, B. Kushwaha, W.S. Lakra, Food Chem. Toxicol. 47, 650 (2009) Google Scholar

  • [6] B. Singh, D.K. Sharma, A. Gupta, J. Hazard. Mater. 161, 208 (2009) Google Scholar

  • [7] T. Sarigul, R. Inam, Bioelectrochem 75, 55 (2009) Google Scholar

  • [8] R. Robles, E.R. Sanchez de la Cruz, J.R. Salinas, Agrociencia 39, 205 (2005) Google Scholar

  • [9] F. Ahmadi, A.A. Shahsavari, M.R. Nasrabadi, J. Chromat. A 1193, 26 (2008) Google Scholar

  • [10] S. Varona, A. Martin, M.J. Cocero, Chem. Eng. Process 48, 1121 (2009) Google Scholar

  • [11] J. Varma, N.K. Dubey, Curr. Sci. 76, 172 (1999) Google Scholar

  • [12] A.P. Milhou, A. Michaelkis, F.D. Krokos, B.E. Mazomenos, E.A. Couladouros, J. Appl. Entomol. 131, 128 (2007) Google Scholar

  • [13] A. Kharine, S. Manohar, R. Section, R.G.M. Kolkman, R.A. Bolt, W. Steenberger, F.F. Demull, Phys. Med. Biol. 48, 357 (2003) Google Scholar

  • [14] N.A. Peppas, W. Leobandung, J. Biomat. Sci. Polym. Ed. 15, 125 (2004) Google Scholar

  • [15] El-E. Kenawy, M. Sakran, J. Appl. Polym. Sci. 80, 415, 1 (2001) Google Scholar

  • [16] M.J. Davies, Trends Biotechnol. 19, 489 (2001) Google Scholar

  • [17] S. Tashima, S. Shimada, I. Ando, K. Matsumoto, R. Takeda, T. Shiraishi, J. Pest Sci. 25, 128 (2000) Google Scholar

  • [18] J. Liu, S. Lin, E. Liu, L. Li, Int. J. Pharmaceut. 298, 117 (2005) Google Scholar

  • [19] M.M. Vidal, O.M.S. Filipe, M.C. Cruz Costa, J. Chem. Educ. 83, 245 (2006) Google Scholar

  • [20] A.R. Kulkarni, K.S. Soppimath, T.M. Aminabhavi, A.M. Dave, M.H. Mehta, J. Control. Rel. 63, 97 (2000) Google Scholar

  • [21] J.M. Dust, M.D. Secord, J. Phys. Org. Chem. 8, 810 (2004) Google Scholar

  • [22] A. Hekmat, A. Barati, E.V. Frahani, A. Afraz, World Acad. of Sci. Engg. Technol. 56, 96 (2009) Google Scholar

  • [23] Z. Li, Micropor. Mesepor. Mat. 61, 181 (2003) Google Scholar

  • [24] R. Celis, M.C. Hermosin, M.J. Carrizosa, J. Cornejo, J. Agric. Food Chem. 6, 2324 (2002) Google Scholar

  • [25] R.D.J. Solomon, V.S. Santhi, J. Agronomy 6, 370 (2007) Google Scholar

  • [26] A. Roy, J. Bajpai, A.K. Bajpai, Ind. J. Chem. Technol. 16, 388 (2009) Google Scholar

  • [27] Y. El-Nahhal, T. Undabeytia, T. Polubesova, Y. Mishael, S. Nir, B. Rubin, Appl. Clay Sci. 18, 309 (2001) Google Scholar

  • [28] A. Shaviv, Adv. Agron. 71, 1 (2000) Google Scholar

  • [29] W.E. Rudzinski, A.M. Dave, U.H. Vaishnav, S.G. Kumbar, A.R. Kulkarni, T.M. Aminabhavi, Des. Monom. Polym. 5, 39 (2002) Google Scholar

  • [30] Y.H. Lee, J. Sookim, H. Dokim, Key Eng. Mater. 277, 450 (2005) Google Scholar

  • [31] J. Garratt, A. Kennedy, Pest Manag. Sci. 62, 1138 (2006) Google Scholar

  • [32] R. Dasgupta, A.K. Banthia, D.N. Tibarewala, Trends Biomater. Artif. Organs 21, 73 (2008) Google Scholar

  • [33] V. J. Mohanraj, Y. Chen, Tropical Journal of Pharmaceutical Research 5, 561 (2006) Google Scholar

  • [34] J. Bajpai, S. Mishra, A.K. Bajpai, J. Appl. Polym. Sci. 106, 961 (2007) Google Scholar

  • [35] F. Puoci, F. Iemma, U.G. Spizzirri, G. Cirillo, M. Curcio, N. Picci, American J. Agricul. Biol. Sci. 3, 299 (2008) Google Scholar

  • [36] S. Sivakumar, V. Bansal, C. Cortez, S-F. Chong, A.N. Zelikin, F. Caruso, Adv. Mater. 21, 1820 (2009) Google Scholar

  • [37] A. Bhattacharyya, A. Bhaumik, P.U. Rani, S. Mandal, T.T. Epidi, Afr. J.Biotechnol. 9, 3489 (2010) Google Scholar

  • [38] P. Saha, A.K. Goyal, G. Rath, Trop. J. Pharmaceut. Res. 9, 483 (2010) Google Scholar

  • [39] C.Y.G. Lemetter, F.M. Meeuse, N.J. Zuidam, AIChE Journal. 55, 1487 (2009) Google Scholar

  • [40] R. Arshady, Microspheres, Microcapsules and Liposomes: Prepartions and Chemical Applications (Citus Books, London, 1999) vol. 1 Google Scholar

  • [41] S.-A. Riyajan, J. Sakdapipanich, T. Polym. Bull. 63, 609 (2009) Google Scholar

  • [42] S.J. Park, S.H. Kim, J. Colloid Interface Sci. 271, 336 (2004) Google Scholar

  • [43] S.X. Freiberg, X. Zhu, Int. J. Pharm. 282, 1 (2004) Google Scholar

  • [44] F. Munarin, P. Petrini, S. Fare, M.C. Tanzi, J. Mater. Sci. — Mater. Med. 21, 365 (2010) Google Scholar

  • [45] D.M. Yebra, S. Kiil, C.E. Weinell, K. Dam-Johansen, Prog. Org. Coat. 57, 56 (2006) Google Scholar

  • [46] R. Khanbabaie, M. Mohsen Jahanshahi, Curr. Neuropharmacol. 10, 370 (2012) Google Scholar

  • [47] A. Shulkin, H.D.H. Stover, J. Membr. Sci. 209, 421 (2002) Google Scholar

  • [48] Y. Liu, Z. Tong, R.K. Prudhomme, Pest Manag. Sci. 64, 808 (2008) Google Scholar

  • [49] W. Chaoyang, Y. Weihua, Z. Ying, L. Xinxing, T. Zhen, Int. J. Pharm. 338, 165 (2007) Google Scholar

  • [50] O.E. Selina, A.A. Chinarev, P.S. Obukhova, A. Bartkowiak, N.V. Bovin, E.A. Markvicheva, Russ. J. Bioorg. Chem. 34, 468 (2008) Google Scholar

  • [51] P. Ines, A. Niuris, H. Angeles, Curr. Drug Discovery Technol. 5, 333 (2008) Google Scholar

  • [52] K.M. Saravanan, R. Panduranga, Carbohydr. Polym. 80, 808 (2008) Google Scholar

  • [53] C.C. Pong, L.T. Kai, L.S. Ming, H.C. Chang, Colloids Surf. 50, 136 (2006) Google Scholar

  • [54] C.C. Pong, C.J. Chen, I. Kimio, D. Toshiaki, Colloids Surf. B. 44, 187 (2005) Google Scholar

  • [55] C.C. Pong, K. Miho, Y. Takao, N. Masahiro, D. Toshiaki, Colloids Surf. B 30, 123 (2003) Google Scholar

  • [56] A. Roy, A.K. Bajpai, J. Bajpai, Carbohydr. Polym. 76, 222 (2009) Google Scholar

  • [57] W.J. Orts, R.E. Sojka, G.M. Glenn, Ind. Crops Prod. 11, 19 (2000) Google Scholar

  • [58] M. Cea, P. Cartes, G. Palma, M.L. Mora, R.C. Suelo, Nutr. Veg. 10, 62 (2010) Google Scholar

  • [59] S.H. Sarijo, M.Z. Hussein, A.H.Z. Yahaya, Z.J. Zainal, Hazard. Mater. 182, 563 (2009) Google Scholar

  • [60] R. Celis, M.C. Hermosin, M.J. Carrizosa, J. Cornejo, J. Agric. Food Chem. 6, 2324 (2002) Google Scholar

  • [61] Y. Liu, Z. Tong, R.K. Prudhomme, Pest Manag. Sci. 64, 808 (2008) Google Scholar

  • [62] A.L. Boehm, I. Martinon, R. Zerrouk, E. Rump, H. Fessi, J. Microencap. 20, 433 (2003) Google Scholar

  • [63] S.A. Hashemi, M. Zandi, Iran. Polym. J. 10, 265 (2001) Google Scholar

  • [64] R.A. Prasetya, W. Hasokowati, American J. Appl. Sci. 7, 739 (2010) Google Scholar

  • [65] J. Asrar, Y. Ding, R.E. La Monica, L.C. Ness, J. Agric. Food Chem. 52, 4814 (2004) Google Scholar

  • [66] K. Kabiri, H. Omidian, M.J. Zohuriaan-Mehr, S. Doroudiani, Polym. Compos. 32, 277 (2011) Google Scholar

  • [67] J. Kuzma, J. Nanopart. Res. 9, 165 (2007) Google Scholar

  • [68] N.K. Kumar, J. Kumar, M.B.A. Walia, S. Shakil, R.N.A. Parsad, B.S. Parmar, Pest Manag. Sci. 65, 175 (2009) Google Scholar

  • [69] J. Kumar, N.A. Shakil, S. Chander, S. Walia, L. Shukla, B.S. Parmar, Ind. J. Agri. Sci. 80, 405 (2010) Google Scholar

  • [70] A. Akelah, A. Selim, La chimica el’ industria 69, 62 (1987) (in Italian) Google Scholar

  • [71] E.R. Kenawy, React. Funct. Polym. 36, 31 (1998) Google Scholar

  • [72] T.A.I. Li-min, L.I.U. Dong-xueb, X.U. Long-heb, S.I. Nai-gob, The Proceedings of the 3rd International Conference on Functional Molecules (China, 2005) Google Scholar

  • [73] H. Kim, R.J. Fassihi, Kor. Pharmceut. Sci. 31, 19 (2001) Google Scholar

  • [74] J.R.K. Reddy, M.V. Jyothsna, T.S.M. Salem, C.M.S. Chetty, J. Pharm. Sci. & Res. 1, 109 (2009) Google Scholar

  • [75] M. Grassi, G. Grassi, Curr. Drug Deliv. 2, 97 (2005) Google Scholar

  • [76] C.C. Lin, A.T. Metters, Adv. Drug Deliv. Rev. 58, 1379 (2006) Google Scholar

  • [77] L.E. Kalantzi, E. Karavas, E.X. Koutris, D.N. Bikiaris, Recent Pat. Drug Deliv. Formul. 3, 49 (2009) Google Scholar

  • [78] M. Rane, J. Parmar, A. Rajabi-Siahboomi, Pharmatimes 42, 41 (2010) Google Scholar

  • [79] G. Xiao, H. Xue, G. Cheng, X. Bao, J. Chem. Engg. Chin. Univer. 21, 477 (2007) Google Scholar

  • [80] F.S. Du, Y. Wang, R. Zhang, Z.C. Li, Soft Matter 6, 835 (2010) Google Scholar

  • [81] N.A. Peppas, W. Leobandung, J. Biomater. Sci. Polym. Edn. 15, 125 (2004) Google Scholar

  • [82] A. Pourjavadi, A. Farhadpour, F. Seidi, J. Polym. Res. 16, 655 (2009) Google Scholar

  • [83] Z.J. Li, X.Y. Li, Y. Guo, Polym. Mater. Sci. Engg. 22, 16 (2006) Google Scholar

  • [84] A. Roy, A.K. Bajpai, J. Bajpai, J. Macromol. Sci. Part A: Pure Appl. Chem. 46, 847 (2009) Google Scholar

  • [85] A. Hekmat, A. Barati, E.V. Frahani, A. Afraz, Eng. Technol. 56, 96 (2009) Google Scholar

  • [86] H.L. Abd El-Mohdy, React. Func. Polym. 67, 1094 (2007) Google Scholar

  • [87] N. Kimoto, A. Takahashi, K. Inubushi, J. Pest Sci. 32, 402 (2007) Google Scholar

  • [88] X. Shimei, W. Ronglan, H. Xiaojuan, C. Liqin, W. Jide, J. Appl. Polym. Sci. 102, 986 (2006) Google Scholar

  • [89] Y.N. Gavhane, V.R. Shinde, P.B. Mudannapatil, A.V. Yadav, Arch Pharm. Sci. & Res. 1, 75 (2009) Google Scholar

  • [90] J.G. Schier, M.A. Howland, R.S. Hoffman, R.S. Nelson, The Ann Pharmacother. 37, 1420 (2003) Google Scholar

  • [91] T. Phaechamud, K. Yodkhum, G. Ritthidej, Asian J. Pharm. Sci. 3, 260 (2008) Google Scholar

  • [92] C.R. Chinnamuthu, E. Kokiladevi, In: C.R. Chinnamuthu, B. Chandrasekaran, C. Ramasamy (Eds.), Weed management through nanoherbicides. In Application of Nanotechnology in Agriculture (Tamil Nadu Agricultural University, Coimbatore, India, 2007) Google Scholar

  • [93] H. Mobedi, M. Nekoomanesh, H. Orafaei, Proc. Br. Pharm. Conf. (2002) Google Scholar

  • [94] F. Sopena, A. Cabrera, C. Maqueda, E. Morillo, J. Agric. Food Chem. 53, 3540 (2005) Google Scholar

  • [95] J. Siepmann, A. Gopferich, Adv. Drug Del. Rev. 48, 229 (2001) Google Scholar

  • [96] G. Winzenburg, C. Schmidt, S. Fuchs, T. Kissel, Adv. Drug Del. Rev. 56, 1453 (2004) Google Scholar

  • [97] S. Lyu, D. Untereker, Int. J. Mol. Sci. 10, 4033 (2009) Google Scholar

  • [98] G. Gasparini, R.G. Holdich, S.R. Kosvintsev, Colloids Surfaces B: Biointerfaces 75, 557 (2010) CrossrefGoogle Scholar

  • [99] L.F. Nicolais, G. Carotenuto, Rec. Pat. Materials Sci. 1, 1 (2008) Google Scholar

  • [100] G. Wrobel, J. Stabik, M.J. Rojek, Achiev Mater. Manufuct. Engineering. 31, 53 (2008) Google Scholar

  • [101] M.W. Chang, E. Stride, M. Edirisinghe, J. R. Soc Interface. 7, 451 (2010) Google Scholar

  • [102] R.J. Kroeze, M.N. Helder, E. Leon, H. Smit, Theo Govaert Materials 2, 833 (2009) Google Scholar

  • [103] M. Stevanovic, D. Uskokovic, Curr. Nanosci. 5, 1 (2009) Google Scholar

  • [104] H.B. Hopfenberg, In Controlled release polymeric formulations (ACS Symposium Series, Washington DC, 1976) 33 Google Scholar

  • [105] F.M. Helaly, H.S.M. Soliman, A.D. Soheir, A.A. Ahmed, Adv. Polym. Techn. 20, 305 (2009) Google Scholar

  • [106] El-R. Kenawy, Polym-Plast. Technol. Engg. 40, 437 (2001) Google Scholar

  • [107] R. Mosurkal, J. Kumar, V.S. Parmar, A.C. Watterson, J. Macromol. Sci. Part A. 44, 1289 (2007) Google Scholar

  • [108] E.R. Kenawy, D.C. Sherrington, A. Akelah, Eur. Polym. J. 28, 841 (1992) Google Scholar

  • [109] R.P. John, R.D. Tyagi, S.K. Brar, R.Y. Surampalli, D. Prevost, Crit. Rev. Biotechnol. 31, 211 (2011) Google Scholar

  • [110] W.M. Obeidat, Recent Pat. Drug Deliv. Formul. 3, 178 (2009) Google Scholar

  • [111] J-M. Rabanel, X. Banquy, H. Zouaoui, H. Mokhtar, H. Hildgen, Biotechnol. Progr. 25, 946 (2009) Google Scholar

  • [112] D.M. Krauth, J.L. Bouldin, V.S. Green, P.S. Wren, W.H. Baker, Bull. Environ. Contam. Toxicol. 81, 116 (2008) Google Scholar

  • [113] L.-m. Tai, X.-y. Zhu, J. Coal Sci. Engg. 14, 675 (2008) Google Scholar

  • [114] Z.H. Yim, C.B. Tiong, R.F. Mansa, R.P. Chan, J. Appl. Sci. 10, 2668 (2010) Google Scholar

  • [115] S.F. Peteu, F. Oancea, O.A. Sicuia, F. Constantinescu, S. Dinu, Polymers 2, 229 (2010) Google Scholar

  • [116] Q. Zhang, P. Zhang, Q. Jiao, Chem. Res. Chinese Univer. 22, 379 (2006) Google Scholar

  • [117] K.S. Mayya, J.F. Argillier, A. Bhattacharyya, Polymer Int. 52, 644 (2003) Google Scholar

  • [118] Y. Deyrail, N. Zydowicz, P. Cassagnau, Polymer. 45, 6123 (2004) Google Scholar

  • [119] G.B. Sukhorukov, A. Fery, H. Mohwald, Prog. Polymer Sci. 30, 885 (2005) Google Scholar

  • [120] E.N. Brown, M.R. Kessler, N.R. Sottos, S.R. White, J. Microencapsul. 20,719 (2003) Google Scholar

  • [121] F. Salaun, I. Vroman, Eur. Polymer J. 44, 849 (2008) Google Scholar

  • [122] I.L. Radtchenko, G.B. Sukhorukov, H. Mohwald, Colloids Surfaces A. Physicochem. Eng. Aspects 202, 127 (2002) CrossrefGoogle Scholar

  • [123] A.A. Antipov, G.B. Sukhorukov, Adv Colloid Interface Sci. 111, 49 (2004) Google Scholar

  • [124] G. Sun, Z. Zhang, Int. J. Pharm. 242, 307 (2002) Google Scholar

  • [125] T. Yin, M.Z. Rong, M.Q. Zhang, G.C. Yang, Comp. Sci. Technol. 67, 201 (2007) Google Scholar

  • [126] C.C. Yang, I.H. Pan, US Patent 5576008.1996 http://www.freepatentsonline.com/5576008.html Google Scholar

  • [127] F.A. Aouada, R.D.l Moura, W.J. Orts, L.C.H. Mattoso, J. Mater. Sci, 45, 4977 (2010) Google Scholar

  • [128] O.N. Voinova, G.S. Kalacheva, I.D. Grodnitskaya, T.G. Volova, Appl. Biochem. Microbiol. 45, 384 (2009) Google Scholar

  • [129] S.A. Riyajan, T.J. Sakdapipanich, Polym. Bull. 63, 609 (2009) Google Scholar

  • [130] W.J. Orts, R.E. Sojka, G.M. Glenn, Ind. Crops Prod. 11, 19 (2000) Google Scholar

  • [131] X.L. Wang, K.K. Yang, Y.Z. Wang, J. Macromol. Sci. Pol. Rev. 43, 385 (2003) Google Scholar

  • [132] R.A. Gross, B. Kalra, Green Chem. 297, 803 (2002) Google Scholar

  • [133] H. Mobedi, M. Nekoomanesh, H. Orafaei, H. Mivehchi, Iran Polym. J. 15,31 (2006) Google Scholar

  • [134] C. Xiao, Y. Lu, H. Liu, L. Zhang, J. Macromol. Sci. A 37, 1663 (2000) Google Scholar

  • [135] M.P. Venkatarajua, D.V. Gowda, K.S. Rajesh, H.G. Shivakumar, Asian J. Pharma. Sci. 2, 239 (2007) Google Scholar

  • [136] P. Halley, R. Rutgers, S. Coombs, J. Gralton, M. Jenkins, H. Beh, K. Griffin, R. Jayasekara, G. Lonergan, Starch 53, 362 (2001) Google Scholar

  • [137] H.A. Talaat, M.H. Sorour, A.G. Aboulnour, H.F. Shaalan, E.M. Ahmed, A.M. Awad, M.A. Ahmed, American-Eurasian J. Agric. Environ. Sci. 3, 764 (2008) Google Scholar

  • [138] D. Briassoulis, J. Polym. Environ. 12, 65 (2004) Google Scholar

  • [139] M. Hasanuzzaman, K.U. Ahamed, K.M. Khalequzzaman, A.M.M. Shamsuzzaman, K. Nahar, Aust. J. Crop Sci. 2, 158 (2008) Google Scholar

  • [140] M. Abdollahi, M. Jafarpour, H. Zeinali, Int. J. Agri. Sci. 1, 311 (2011) Google Scholar

  • [141] S. Kalyani, B. Smitha, S. Sridhar, A. Krishnaiah, Desalination 229, 68 (2008) Google Scholar

  • [142] S. Siripattanakul, C.J. Pochant, E. Khan, Water Environ. Res. 82, 617 (2010) Google Scholar

  • [143] B. Bolto, D. Dixon, R. Eldridge, React. Funct. Polym. 60, 171 (2004) Google Scholar

  • [144] S. Boonlertnirun, C. Boonraung, R. Suvanasara, J. Metals Materials Minerals 18, 47 (2008) Google Scholar

  • [145] M. Hiorth, A.L. Kjoniksen, K.D. Khudsen, S.A. Sande, B. Nystrom, Eur. Polym. J. 41, 1718 (2005) Google Scholar

  • [146] X. Tao, X.J. Sun, J. Su, J.F. Chen, W. Roa, Polymer 47, 6167 (2006) Google Scholar

  • [147] L.R. Lynd, P.J. Weimer, W.H. van Zyl, I.S. Pretorius, Microbiol. Mol. Bio. Rev. 66, 506 (2002) Google Scholar

  • [148] S. Zhou, L.O. Ingram, J. Bacteriol. 182, 5676 (2000) Google Scholar

  • [149] R. da Silva, E.S. Lago, C.W. Merheb, M.M. Macchione, Y.K. Park, E. Gomes, Braz. J. Microbiol. 36, 235 (2005) Google Scholar

  • [150] A.K. Bajpai, A. Giri, Carbohydr. Polym. 53, 271 (2003) Google Scholar

  • [151] G.S. Guru, P. Prasad, H.R. Shivakumar, S.K. Rai, Malaysian Polymer J. 3, 13 (2008) Google Scholar

  • [152] B. Min, J. Lim, S. Ko, K.-G. Lee, S.H. Lee, S. Lee, Biores. Technol. 102, 3855 (2011) Google Scholar

  • [153] C. Vilhena, M.L. Goncalves, A.M. Mota, Electroanalysis 16, 2065 (2004) Google Scholar

  • [154] B. Misoon, A. Ali Abu-Bakr, U.K. Abu-Goukh, J. Agric. Sci. 13, 202 (2005) Google Scholar

  • [155] G. del C. Pizzaro, O.G. Marambio, M. Jeria-Orell, M.C. Avellan, B.L. Rivas, Polym. Int. 57, 897 (2008) Google Scholar

  • [156] D.J. Kim, J.Y. Jung, J. Europ. Ceram. Soc. 27, 3177 (2007) Google Scholar

  • [157] A.R. Kulkarni, K.S. Soppimath, T.M. Aminabhavi, Pharmaceutica Acta Helvetiae, 74, 29 (1999) Google Scholar

  • [158] G. Ruan, S.S. Feng, Q.T. Li, J. Contr. Rel. 84, 151 (2002) Google Scholar

  • [159] N. Sun, X. Wei, B. Wu, J. Chen, Y. Lu, W. Wu, Powder Technology 182, 72 (2008) Google Scholar

  • [160] J. Ji, R.F. Childs, M.J. Mehta, Membr. Sci. 192, 55 (2001) Google Scholar

  • [161] F.H. Devassine, P. Guerin, X. Briand, Int. J. Pharmaceut. 242, 399 (2002) Google Scholar

  • [162] K. Rosenkranz, M.M. Kasper, J. Werther, G. Brunner, J. Supercrit. Fluids. 46, 351 (2008) Google Scholar

  • [163] S.S. Dhumala, S.J. Wagh, A.K. Suresh, J. Membr. Sci. 325, 758 (2008) Google Scholar

  • [164] K. Leda, R. Kevin, B. Perkins, M. Watson, C. Michael, S. Hacker, J. Bryant, R.M. Raphael, K.F.F. Kurtis, A.G. Mikos, Acta Biomaterialia 7, 1460 (2011) Google Scholar

  • [165] H. Liu, H. Ye, Y. Zhang, X. Tang, Dyes Pigments 79, 236 (2008) Google Scholar

  • [166] H. Liu, H.Q. Ye, Y.C. Zhang, Colloids Surfaces A: Physicochemical Engineering 315, 1 (2008) Google Scholar

  • [167] J.M. Green, G.B. Beestman, Crop Prot. 26, 320 (2007) Google Scholar

  • [168] I. Alemzadeh, M. Vossoughi, Chem. Engg. Proces. 41, 707 (2002) Google Scholar

  • [169] K. Tsuji, J. Microencap. 18, 137 (2001) Google Scholar

  • [170] A. Sansukcharearnpon, S. Wanichwecharungruang, N. Leepipatpaiboon, T. Kerdcharoen, S. Arayachukeat, Int. J. Pharm. 391, 267 (2010) Google Scholar

  • [171] H.M. Mathers, L.T. Case, Weed Technol. 24, 529 (2010) Google Scholar

  • [172] I.B. Vasilakoglou, I.G. Eleftherohorinos, K.D. Dhima, Weed Res. 41, 535 (2001) Google Scholar

  • [173] M.F. Perez, M. Villafranca-Sanchez, F. Flores-Cespedes, F. Garrido-Herrera, J. Agric. Food Chem. 53, 6697 (2005) Google Scholar

  • [174] F. Sopena, C. Maqueda, E. Morillo, J. Agric. Food Chem. 55, 3561 (2007) Google Scholar

  • [175] F. Sopena, C. Maqueda, E. Morillo, J. Agric. Food Chem. 55, 8200 (2007) Google Scholar

  • [176] L.R. Boehm, R. Zerrouk, H. Fessi, J. Microencapsulation 17, 195 (2000) Google Scholar

  • [177] M.F. Perez, M.V. Sanchez, F.F. Cespedes, J. Env. Sci. Health Part B 42, 863 (2007) Google Scholar

  • [178] Z. Elbahri, J.L. Taverdet, Polym. Bull. 54, 353 (2005) Google Scholar

  • [179] O. Dailey, J. Agric. Food Chem. 54, 6742 (2004) Google Scholar

  • [180] M.L. Bernards, J.T. Simmons, C.J. Guza, R. Schulz, D. Penner, J.J. Kells, Weed Techn. 20, 458 (2006) Google Scholar

  • [181] S.S. Bansode, S.K. Banarjee, D.D. Gaikwad, S.L. Jadhav, R.M. Thorat, Int. J. Pharm. Sci. Rev. Res. 1, 38 (2010) Google Scholar

  • [182] P.D. Capel, S.J. Larson, Env. Sci. Technol. 35, 648 (2001) Google Scholar

  • [183] C. Linder, A. Markus, Informa Healthcare 2, 55 (2006) Google Scholar

  • [184] T. Kubik, K.B. Kubik, M. Sugisak, Curr. Pharmaceut. Biotechnol. 6, 17 (2005) Google Scholar

  • [185] H. Berrada, G. Font, J.C. Molto, Crit. Rev. Anal. Chem. 33, 19 (2003) Google Scholar

  • [186] C.K. Yeom, Y.H. Kim, J.M. Lee, J. Appl. Polym. Sci. 84,1025 (2002) Google Scholar

  • [187] L.P. Kumar, N. Panneerselvam, Medicine and Biol. 15, 46 (2008) Google Scholar

  • [188] C. Bolognesi, Mut. Res. 543, 251 (2003) Google Scholar

  • [189] C.R. Chinnamuthu, P. Murugesa Boopathi, Madras Agric. J. 96, 17 (2009) Google Scholar

  • [190] I. Moraru Carmen, P. Panchapakesan Chithra, H. Qingrong, T. Paul, S. Liu, L. Kokini Jozef, Food Technol. 57, 24 (2003) Google Scholar

About the article

Published Online: 2014-01-16

Published in Print: 2014-04-01


Citation Information: Open Chemistry, Volume 12, Issue 4, Pages 453–469, ISSN (Online) 2391-5420, DOI: https://doi.org/10.2478/s11532-013-0405-2.

Export Citation

© 2014 Versita Warsaw. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License. BY-NC-ND 3.0

Citing Articles

Here you can find all Crossref-listed publications in which this article is cited. If you would like to receive automatic email messages as soon as this article is cited in other publications, simply activate the “Citation Alert” on the top of this page.

[1]
María Eugenia Taverna, Carlos Alberto Busatto, Maia Raquel Lescano, Verónica Viviana Nicolau, Cristina Susana Zalazar, Gregorio Raúl Meira, and Diana Alejandra Estenoz
Journal of Hazardous Materials, 2018
[2]
Wenxun Guan, Liming Tang, Yan Wang, and Haixin Cui
Journal of Agricultural and Food Chemistry, 2018
[3]
Marcia P.M. Costa, Letícia M. Prates, Leonardo Baptista, Maurício T.M. Cruz, and Ivana L.M. Ferreira
Carbohydrate Polymers, 2018
[4]
Luiz Alberto Kanis, Bruna Daniel Rabelo, Diego Moterle, Kauê Muller Custódio, Joice Guilherme de Oliveira, Alessandra Bittencourt de Lemos, Onilda Santos da Silva, Karine Modolon Zepon, Rachel Faverzani Magnago, and Josiane Somariva Prophiro
Industrial Crops and Products, 2018, Volume 122, Page 148
[5]
Sunita Patel, Jaya Bajpai, Rajesh Saini, A.K. Bajpai, and Somen Acharya
Process Safety and Environmental Protection, 2018
[6]
Débora França, Ângela Fracon Medina, Lucas Luiz Messa, Claudinei F. Souza, and Roselena Faez
Carbohydrate Polymers, 2018
[10]
Anqi Wang, Yan Wang, Changjiao Sun, Chunxin Wang, Bo Cui, Xiang Zhao, Zhanghua Zeng, Junwei Yao, Dongsheng Yang, Guoqiang Liu, and Haixin Cui
Nanoscale Research Letters, 2018, Volume 13, Number 1
[11]
Iwona Kwiecień, Grazyna Adamus, Guozhan Jiang, Iza Radecka, Timothy C. Baldwin, Habib R. Khan, Brian Johnston, Valentina Pennetta, David Hill, Inna Bretz, and Marek M. Kowalczuk
Biomacromolecules, 2017
[12]
Amal A. El-Naggar, Kariman El-Salmawi, and Sayeda M. Ibrahim
Journal of Macromolecular Science, Part A, 2017, Page 1
[13]
He Qin, Hong Zhang, Lingxiao Li, Xiaoteng Zhou, Junpei Li, and Chengyou Kan
RSC Advances, 2017, Volume 7, Number 83, Page 52684
[14]
D. Caccavo, S. Cascone, P. Apicella, G. Lamberti, and A. A. Barba
Chemical Engineering Communications, 2017, Page 1
[15]
Yan Wang, Anqi Wang, Chunxin Wang, Bo Cui, Changjiao Sun, Xiang Zhao, Zhanghua Zeng, Yue Shen, Fei Gao, Guoqiang Liu, and Haixin Cui
Scientific Reports, 2017, Volume 7, Number 1
[16]
Priscila Milani, Débora França, Aline Gambaro Balieiro, and Roselena Faez
Polímeros, 2017, Number 0
[17]
LOVANE KLEIN FAGUNDES, UBIRAJARA RUSSI NUNES, OSMAR DAMIAN PRESTES, TIÉLE STUKER FERNANDES, EDUARDO JOSÉ LUDWIG, and NATHÁLIA SAIBT
Revista Caatinga, 2017, Volume 30, Number 4, Page 920
[19]
Mayra González-Hurtado, Jacques Rieumont-Briones, Laura M. Castro-González, Inti Zumeta-Dube, and Annia Galano
Chemical Papers, 2017
[20]
Bruno D. Mattos, Blaise L. Tardy, Washington L.E. Magalhães, and Orlando J. Rojas
Journal of Controlled Release, 2017, Volume 262, Page 139
[21]
Run Ying Dai, Sheng Yong You, Li Min Lu, Qian Liu, Zhong Xiu Li, Ling Wei, Xi Gen Huang, and Zhi Yong Yang
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, Volume 530, Page 13
[22]
Jorge Omar Werdin González, Emiliano Nicolás Jesser, Cristhian Alan Yeguerman, Adriana Alicia Ferrero, and Beatriz Fernández Band
Environmental Science and Pollution Research, 2017, Volume 24, Number 20, Page 17006
[23]
Chen Fan, Mingcheng Guo, You Liang, Hongqiang Dong, Guanglong Ding, Wenbing Zhang, Gang Tang, Jiale Yang, Dandan Kong, and Yongsong Cao
Carbohydrate Polymers, 2017, Volume 172, Page 322
[24]
Baoxia Liu, Yan Wang, Fei Yang, Haixin Cui, and Decheng Wu
Journal of Agricultural and Food Chemistry, 2017
[25]
Kauê Muller Custódio, Joice Guilherme de Oliveira, Diego Moterle, Karine Modolon Zepon, Josiane Somariva Prophiro, and Luiz Alberto Kanis
Revista da Sociedade Brasileira de Medicina Tropical, 2016, Volume 49, Number 6, Page 687
[26]
Sónia M. Rodrigues, Philip Demokritou, Nick Dokoozlian, Christine Ogilvie Hendren, Barbara Karn, Meagan S. Mauter, Omowunmi A. Sadik, Maximilian Safarpour, Jason M. Unrine, Josh Viers, Paul Welle, Jason C. White, Mark R. Wiesner, and Gregory V. Lowry
Environ. Sci.: Nano, 2017, Volume 4, Number 4, Page 767
[27]
Halley Caixeta Oliveira, Renata Stolf-Moreira, Cláudia Bueno Reis Martinez, Renato Grillo, Marcelo Bispo de Jesus, Leonardo Fernandes Fraceto, and Maya Dimova Lambreva
PLOS ONE, 2015, Volume 10, Number 7, Page e0132971
[28]
Pan PAN, Hui-min JIANG, Jian-feng ZHANG, Jun-cheng YANG, Shu-shan LI, Lian LIU, Shui-qin ZHANG, and Mei LEI
Journal of Integrative Agriculture, 2016, Volume 15, Number 12, Page 2855
[29]
Bruno D. Mattos, Orlando J. Rojas, and Washington L.E. Magalhães
Journal of Cleaner Production, 2017, Volume 142, Page 4206
[30]
Neha Khandelwal, Ranjit S. Barbole, Shashwat S. Banerjee, Govind P. Chate, Ankush V. Biradar, Jayant J. Khandare, and Ashok P. Giri
Journal of Environmental Management, 2016, Volume 184, Page 157
[32]
S. N. M. Yusoff, A. Kamari, and N. F. A. Aljafree
International Journal of Environmental Science and Technology, 2016, Volume 13, Number 12, Page 2977
[33]
Małgorzata Włodarczyk and Hanna Siwek
Bulletin of Environmental Contamination and Toxicology, 2016, Volume 97, Number 4, Page 582
[34]
Aili Wang and Brian J. Edwards
International Journal of Heat and Mass Transfer, 2016, Volume 103, Page 997
[35]
S H Zeng, P P Duan, M X Shen, Y J Xue, and Z Y Wang
IOP Conference Series: Materials Science and Engineering, 2016, Volume 137, Page 012003
[36]
Jorge Werdin González, Cristhian Yeguerman, Diego Marcovecchio, Claudio Delrieux, Adriana Ferrero, and Beatriz Fernández Band
Ecotoxicology and Environmental Safety, 2016, Volume 130, Page 11
[37]
Baoxia Liu, Yan Wang, Fei Yang, Xing Wang, Hong Shen, Haixin Cui, and Decheng Wu
Colloids and Surfaces B: Biointerfaces, 2016, Volume 144, Page 38
[38]
Xiaohui Xu, Xiaoyu Su, Bo Bai, Honglun Wang, and Yourui Suo
RSC Adv., 2016, Volume 6, Number 36, Page 29880
[39]
Mei Li, Mandla A. Tshabalala, and Gisela Buschle-Diller
Journal of Materials Science, 2016, Volume 51, Number 9, Page 4609
[40]
Baljit Singh, D. K. Sharma, Sunil Negi, and Abhishek Dhiman
International Journal of Plastics Technology, 2015, Volume 19, Number 2, Page 263
[41]
Tatiana G. Volova, Natalia O. Zhila, Olga N. Vinogradova, Elena D. Nikolaeva, Evgeniy G. Kiselev, Anna A. Shumilova, Anna M. Shershneva, and Ekaterina I. Shishatskaya
Journal of Environmental Science and Health, Part B, 2016, Volume 51, Number 2, Page 113
[42]
Alicea N. Meredith, Bryan Harper, and Stacey L. Harper
Environment International, 2016, Volume 86, Page 68
[43]
Carlos Gregorio Bareras-Urbina, Benjamín Ramírez-Wong, Guadalupe Amanda López-Ahumada, Silvia Elena Burruel-Ibarra, Oliviert Martínez-Cruz, José Agustín Tapia-Hernández, and Francisco Rodríguez Félix
International Journal of Food Properties, 2016, Volume 19, Number 9, Page 1912
[44]
Dan Li, Baoxia Liu, Fei Yang, Xing Wang, Hong Shen, and Decheng Wu
Carbohydrate Polymers, 2016, Volume 136, Page 341
[45]
Zhiyan Yu, Xin Sun, Haixia Song, Wenqian Wang, Zhao Ye, Liyan Shi, and Kaikai Ding
Materials Sciences and Applications, 2015, Volume 06, Number 06, Page 591
[46]
Jhones Luiz de Oliveira, Estefânia Vangelie Ramos Campos, Camila Morais Gonçalves da Silva, Tatiane Pasquoto, Renata Lima, and Leonardo Fernandes Fraceto
Journal of Agricultural and Food Chemistry, 2015, Volume 63, Number 2, Page 422
[47]
Estefânia Vangelie Ramos Campos, Jhones Luiz de Oliveira, Leonardo Fernandes Fraceto, and Baljit Singh
Agronomy for Sustainable Development, 2015, Volume 35, Number 1, Page 47
[48]
Manuel Fernández-Pérez, Matilde Villafranca-Sánchez, Francisco Flores-Céspedes, and Isabel Daza-Fernández
Journal of Applied Polymer Science, 2015, Volume 132, Number 6, Page n/a

Comments (0)

Please log in or register to comment.
Log in