Nghiên cứu biến tính tinh bột bằng một số tác nhân hóa học và ứng dụng - 21


[17]. Amritpal Kaur, Narpinder Singh, Rajarathnam Ezekiel, Navdeep Singh Sodhi, (15 June 2009), "Properties of starches separated from potatoes stored under different conditions", Food Chemistry, Volume 114, Issue 4

, Pages 1396-1404.

[18]. Pingyi Zhang, Roy L. Whistler, James N. BeMiller, Bruce R. Hamaker, (15 March 2005), “Banana starch: production, physicochemical properties, and digestibility—a review”, Carbohydrate Polymers, Volume 59, Issue 4 , Pages 443-458.

[19]. Nguyễn Thanh Tùng (2010), "Biến tính tinh bột bằng vinyl monome và ứng dụng", Luận án tiến sĩ Hóa học, Viện Hóa học-Viện KH&CN Việt nam

[20]. Yokoyama, W., Renner-Nantz, J. J., & Shoemaker, C. F. (1998)., Cereal Chem., 75 (4), 530-535

[21]. W. Berski, A. Ptaszek, P. Ptaszek, R. Ziobro, G. Kowalski, M. Grzesik,

B. Achremowicz, (10 January 2011), “Pasting and rheological properties of oat starch and its derivatives”, Carbohydrate Polymers, Volume 83, Issue 2, Pages 665-671.

[22]. Chanpen Charutigon, Jintana Jitpupakdree, Pimjai Namsree, Vilai Rungsardthong, (May 2008), “Effects of processing conditions and the use of modified starch and monoglyceride on some properties of extruded rice vermicelli” , LWT - Food Science and Technology, Volume 41, Issue 4, Pages 642-651.

[23]. Hồ Sĩ Tráng (2006), Đồng trùng hợp ghép tinh bột tự nhiên với hệ acrylonitril-metyl acrylat, tạp chí khoa học công nghệ, 57, tr129-132.

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[24]. Jaspreet Singh, Lovedeep Kaur, O.J. McCarthy, (January 2007), “Factors influencing the physico-chemical, morphological, thermal and rheological properties of some chemically modified starches for food


Nghiên cứu biến tính tinh bột bằng một số tác nhân hóa học và ứng dụng - 21

applications—A review”, Food Hydrocolloids, Volume 21, Issue 1, Pages 1-22.

[25]. Anne Van Der Borght, Hans Goesaert, Wim S. Veraverbeke, Jan A. Delcour, (May 2005), “Fractionation of wheat and wheat flour into starch and gluten: overview of the main processes and the factors involved”, Journal of Cereal Science, Volume 41, Issue 3, , Pages 221- 237.

[26]. Yukinori Sato, Yoshiko Wada, Atsuko Higo, (September 2010) “Analysis of water layers and the extent of gelatinization for commercial starch products”. Journal of Food Engineering, Volume 100, Issue 2, Pages 201-207.

[27]. Yue Li, Charles F. Shoemaker, Jianguo Ma, Xueran Shen, Fang Zhong, (1 August 2008), “Paste viscosity of rice starches of different amylose content and carboxymethylcellulose formed by dry heating and the physical properties of their films”, Food Chemistry, Volume 109, Issue 3, Pages 616-623.

[28]. Krittalak Chakrabandhu, Rakesh K. Singh, (January 2005), “Rheological properties of coarse food suspensions in tube flow at high temperatures”, Journal of Food Engineering, Volume 66, Issue 1, Pages 117-128.

[29]. Jasim Ahmed, (5 September 2011), ”Applicability of time–temperature superposition principle: Dynamic rheology of mung bean starch blended with sodium chloride and sucrose – Part 2”, Journal of Food Engineering, In Press, Corrected Proof.

[30]. G. K. Adkins, W. Banks Ph.D., C. T. Greenwood Ph. D., A. W. Macgregor Ph. D, (22 OCT 2006), “The Characterization of Starch and its Components Part 1. The Semi-Micro Estimation of Starch and its


Components in Aqueous Solution”, Volume 21, Issue 3, pages 57-61.

[31]. Lê Văn Cát, Cơ sở hóa học và xử lý nước. Nhà xuất bản Thanh Niên. Hà nội, 1999.

[32]. Huỳnh Công Định (1993), Nghiên cứu sản xuất dextrin bằng phương pháp axit và ứng dụng trong sản xuất thuốc trừ sâu và nhang trừ muỗi, Luận văn Thạc sĩ, Trường ĐH K Thành phố Hồ Chí Minh.

[33]. Nguyễn Thị Thu Th y, Xử lý nước cấp sinh hoạt và công nghiệp. Nhà xuất bản Khoa học và Kỹ thuật. Hà nội, 1999.

[34]. Schmorak, T. Hughes, H.J. Chung, Q. Liu, (March 2010), “Composition, molecular structure, properties, and modification of pulse starches: A review” , Food Research International, Volume 43, Issue 2, Pages 399- 413.

[35]. R.F. Tester, X. Qi, J. Karkalas, (30 September 2006), “Hydrolysis of native starches with amylases”, Animal Feed Science and Technology, Volume 130, Issues 1-2, Pages 39-54.

[36]. Stephen O’ rien, Ya-Jane Wang, (10 June 2008), “Susceptibility of annealed starches to hydrolysis by α-amylase and glucoamylase”, Carbohydrate Polymers, Volume 72, Issue 4, Pages 597-607.

[37]. Dilek Kılıç Apar, elma Özbek, (March 2005), “α-Amylase inactivation during rice starch hydrolysis”, Process Biochemistry, Volume 40, Issues 3-4, Pages 1367-1379.

[38]. Steve W. Cui (2005), "Food Carbohydrates: Chemistry, Physical Properties and Applications", CRC Press.

[39]. Hang X., Liu X., Lin W. (200 ), “Synthesis and applied properties of carboxymethyl cornstarch”, J. Appl. Polym. Sci., 8 , pp. 016-3020.

[40]. Calinescu C., Mulhbacher J., Nadeau E., Fairbrother J. M., Mateescu M.


A. (2005), “Carboxymethyl high amylose starch as excipient for Escherichia coli oral formulations”, European Journal of Pharmaceutics and Biopharmaceutics, 60, p. 53-60.

[41]. Huyghebaert N., Snoeck V., Vermeire A., Cox E., Goddeeris B. M., emon J. P. (2005), “Development of an enteric- coated pellet formulation of F4 fimbriae for oral vaccination of suckling piglets against enterotoxigenic Escherichia coli infections”, European Journal of Pharmaceutics and Biopharmaceutics, 59, p. 273-281.

[42]. Jutamas Tatongjai, Namfone Lumdubwong, (2010), “Physicochemical properties and textile utilization of low- and moderate-substituted carboxymethyl rice starches with ,various amylose content”, Carbohydrate Polymers 81, 377–384.

[43]. Lawal O. S., Lechner M. D., Hartmann B., Kulicke W. M. (2007), “Carboxylmethyl cocoyam starch: Synthesis, characterisation and influence of reaction parameters”, Starch, 5 , p. 224-233.

[44]. Stojanovic Z., Jeremic K., Jovanovic S. (2000), “Synthesis of carboxymethyl starch”, Starch, 52, p. 41 -419.

[45]. Stojanovic Z., Jeremic K., Jovanovic S., Lechner M. D. (2005), “A comparison of some methods for the determination of the degree of substitution of carboxymethyl starch”, Starch, 57, p. 7 -.

[46]. Tijsen C. J., Voncken . M., eenackers A. A. C. M. (2001), “Design of a continuous process for the production of highly substituted granular carboxymethyl starch”, Chemical Engineering Science, 56, p. 411-418

[47]. Volkert B., Loth F., Lazik W., Engelhardt J. (2004), “Highly substituted carboxymethyl starch”, Starch, 56, p. 07-314.

[48]. Sangseethong K., Ketsilp S., Sriroth K. (2005), “The role of reaction


parameters on the preparation and properties of carboxymethyl cassava starch”, Starch, 57, p. 84-93.

[49]. Kittipongpatana O. S., Sirithunyalug J., Laenger . (2006), “Preparation and physicochemical properties of sodium carboxymethyl mungbean starches”, Carbohydrate Polymers, 6 , p. 105-112.

[50]. i Y., Liu M., Wu L. and Cui D. (2008), “Synthesis of carboxymethyl potato starch and comparison of optimal reaction conditions from different sources”, Polymer for Advanced Technologies, 1 , p. 1185- 1192.

[51]. Tijsen C. J., Kolk H. J., Stamhuis E. J., Beenackers A. A. C. M. (2001), “An experimental study on the carboxymethylation of granular potato starch in non- aqueous media”, Carbohydrate Polymers, 45, p. 21 -226

[52]. Jia Liu, Jian Ming, Weijin Li, Guohua Zhao, ( 18 May 2011), “Synthesis, characterisation and in vitro digestibility of carboxymethyl potato starch rapidly prepared with microwave-assistance” Food Chemistry, In Press, Corrected Proof.

[53]. Kooijman L. M., Ganzeveld K. J., Manurung R. M., Heeres H. J. (2003), “Experimental studies on the carboxymethylation of arrowroot starch in isopropanol- water media”, Starch, 55, p. 4 5-503.

[54]. M.I. Khalil ., Song X. (2006), “Carboxymethylation of γ- irradiated starch”, J. Appl. Polym. Sci., 101, p. 2210-2215.

[55]. Finkenstadt V. L., Willett J. L. (2005), Reactive extrusion of starch- polyacrylamide graft copolymers: Effects of monomer/starch ratio and moisture content”, Macromol. Chem. Phys., 206, pp. 1648-1652.

[56]. Willett J. L. and Finkenstadt V. L. (200 ), “Preparation of starch-graft- polyacrylamide copolymers by reactive extrusion”, Polymer Engineering


and Science, 43(10), pp. 1666-1674.

[57]. Xie F., Yu L., Liu H., Chen L. (2006), “Starch modification using reactive extrusion”, Starch, 58, pp. 1 1-139.

[58]. Singh R. P., Tripathy T., Karmakar G. P., Rath S. K., Karmakar N. C., Pandey S. R., Kannan K., Jain S. K. and Lan N. T. (2000), "Novel biodegradable locculants based on polysaccharides", Current Science, 78(7), pp. 798-803.

[59]. Güçlü G., Güçlü K., Keleş S. (2007), "Competitive removal of nickel (II), cobalt (II) and zinc (II) ions from aqueous solutions by starch-graft- acrylic acid copolymers", J. Appl. Polym. Sci., 106, pp. 1800-1805.

[60]. Güçlü G., Keleş S. (2007), " emoval of basic dyes from aqueous solutions using starch-graft-acrylic acid copolymers", J. Appl. Polym. Sci., 106, pp. 2422-2426.

[61]. Felton., Kadivar M., Shahedi M. (2009), "Effects of cross-linking and acetylation of oat starch properties", Food Chemistry, 116(3), pp. 709- 713.

[62]. Han J. –A., BeMiller J. N. (2008), "Effects of protein on crosslinking of normal maize, waxy maize, and potato starches", Carbohydrate Polymers, 73, pp. 532-540.

[63]. Varavinit S., Paisanjit W., Tukomane T., Pukkahuta C. (2007), "Effetcs of osmotic pressure on the crosslinking reaction of tapioca starch", Starch, 59, pp. 290-296.

[64]. Gui- Jie M., Peng W., Xiang- Sheng M., Xing Z., Tong Z. (2006), "Crosslinking of corn starch with sodium trimetaphosphate in solid state by microwave irradiation", J. Appl. Polym. Sci., 102, pp. 5854-5860.

[65]. Li B. –j., Wang L. –j., Li D., Chiu Y. L., Zhang Z. –j., Shi J., Chen X.


D., Mao Z. -h. (2009), "Physical properties and loading capacity of starch- based microparticles crosslinked with trisodium trimetaphosphate", Journal of Food Engineering, 92, pp. 255-260.

[66]. Karmakar N. C., Sastry B. S. and Singh R. P. (2002), "Flocculation of chromite ore fines suspension using polysaccharide based graft copolymers", Bull. Mater. Sci., 25(6), pp. 477-478.

[67]. Delval F., Crini G., Bertini S., Filiatre C., Torri G. (2005), "Preparation, characterization and sorption properties of crosslinked starch- based exchangers", Carbohydrate Polymers, 60, pp. 67-75.

[68]. Zhao X. –F., Li Z. –J., Wang L., Lai X. –J. (2008), "Synthesis, characterization, and adsorption capacity of crosslinked starch microspheres with N,N'- methylenebisacrylamide", J. Appl. Polym. Sci., 109, pp. 2571-2575.

[69]. Zhou J., Zhang J., Ma Y., Tong J. (2008), "Surface photo- crosskinking of corn starch sheets", Carbohydrate Polymers, 74, pp. 405-410.

[70]. Huang J., Schols H. A., Klaver R., Jin Z., Voragen A. G. J. (2007), "Acetyl substitution patterns of amylose and amylopectin populations in cowpea starch modified with acetic anhydride and vinyl acetate", Carbohydrate Polymers, 67, pp. 542-550.

[71]. Lawal O. S. (2004), “Composition, physicochemical properties and retrogradation characteristics of native, oxidised, acetylated and acid- thinned new cocoyam (Xanthosoma sagittifolium) starch”, Food Chemistry, 87, p. 205-218.

[72]. Lawal O. S., Adebowale K. O. (2005), “Physicochemical characteristics and thermal properties of chemically modified jack bean (Canavalia ensiformis) starch”, Carbohydrate Polymers, 60, p. 1-341.


[73]. Lawal O. S. (2004), “Succinyl and acetyl starch derivatives of a hybrid maize: physicochemical characteristics and retrogradation properties monitored by differential scanning calorimetry”, Carbohydrate esearch, 339. p. 2673-2682.

[74]. Xu Y., Miladinov V. and Hanna M. A. (2004), “Synthesis and characterization of starch acetates with high substitution”, Cereal Chemistry, 81. p. 735-740.

[75]. Blennow A., Engelsen S. B., Nielsen T. H., Baunsgaard L. and Mikkelsen R. (2002), "Starch phosphorylation: a new front line in starch research", Trends in Plant Science, 7(10), pp. 445-450.

[76]. Nakano T., Salvador A. S., Tamochi J., Sugimoto Y., Ibrahim H. R., Toba Y., Aoe S., Kawakami H. and Aoki T. (2003), "Phosphorylation of starch and dextrin by dry- heating in the presence of phosphate, and their calcium phosphate- solubilizing ability", Nahrung/Food, 47(4), pp. 274- 278.

[77]. Sitohy M. Z., Ramadan M. F. (2001), "Granular properties of different starch phosphate monoesters", Starch, 53, pp. 27-34

[78]. Sung J. H., Park D. P., Park B. J., Choi H. J. and Jhon M. S. (2005), "Phosphorylation of potato starch and its electrorheological suspension", Biomacromolecules, 6, pp. 2182-2188.

[79]. Martín- Martínez E. S., Aguilar- Méndez M. A., Espinosa- Solares T., Pless R. C., Quintana Z. D. (2004), "Starch phosphate produced by extrusion: Physical properties and influence on yogurt stability", Starch, 56, pp. 199-207.

[80]. O'Brien S., Wang Y. -J., Vervaet C., Remon J. P. (2009), "Starch phosphates prepared by reactive extrusion as a sustained release agent",

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