Chemistry Reference
In-Depth Information
79. Cheng Y, Brown KM, Prudhome RK (2002) Preparation and characterization of molecular
weight fractions of guar galactomannans using acid and enzymatic hydrolysis. Int J Biol
Macromol 31:29-35
80. Picout DR, Murphy SBR, Errington N, Harding SE (2001) Pressure cell assisted solution
characterization of polysaccharides.1. Guar gum. Biomacromolecules 2:1301-1309
81. Dragunski DC, Pawlicka A, Carlos S (2001) Preparation and characterization of starch
grafted with toluene poly(propylene oxide) diisocyanate. Mater Res 4(2):77-81, 1516-1439
82. Athawale VD, Lele V (2000) Thermal studies on granular maize starch and its graft
copolymers with vinyl monomers. Starch/St¨rke 52:205-213
83. Wang XL, Yang KK, Wang YZ, Chen DQ, Chen SC (2004) Crystallization and morphology
of starch-g-poly(1,4-dioxan-2-one) copolymers. Polymer 45:7961-7968
84. Gupta B, Anjum N (2001) Development of membranes by radiation grafting of acrylamide
into polyethylene films: characterization and thermal investigations. J Appl Polym Sci
82:2629
85. Jyothi AN, Sreekumar J, Moorthy SN (2010) Response surface methodology for the optimi-
zation and characterization of cassava starch-graft-poly(acrylamide). Starch/St
¨
rke 62:18-27
86. Kennedy JF, Cabral JMS, Sa´-Correia I, White CA (1987) Starch biomass: a chemical
feedstock for enzyme and fermentation process. In: Galliard T (ed) Starch: properties and
potential, vol 13. Wiley, New York, NY, p 123
87. Abraham J, Pillai VNR (1996) Membrane-encapsulated controlled-release urea fertilizers
basedon acrylamide copolymers. J Appl Polym Sci 60:2347-2351
88. Renken A, Hunkeler D (1999) Effect of the surfactant blend composition on the properties of
polymerizing acrylamide-based inverse-emulsions: characterization by small-angle neutron
scattering and quasi-elastic light scattering. Polymer 40:3545-3554
89. Goin J (1991) Water soluble polymers. CEH Marketing research report 582.0000 D-E.
August, SRI International
90. Hunkeler D, Hernandez-Barajas J (1996) A concise review of the influence of synthesis and
technological factors on the structure and properties of polyacrylamides. In: Industrial water
soluble polymers. ACS symposium series, p 11-27
91. Karmakar GP, Singh RP (1996) Synthesis and application of polymeric flocculants for the
treatment of paper mill effluents. In: Advances in Chemical Engineering, Allied Publishers,
New Delhi, p 201
92. Karmakar GP, Singh RP (1996) Synthesis and characterisation of starch-g-acrylamide
copolymers for improved oil recovery. In: International Symposium on Oilfield Chemistry,
Houston, Texas, 18-21 February 1997
93. Karmakar NC, Sastry BS, Singh RP (2002) Flocculation of chromite ore fines suspension
using polysaccharide based graft copolymers. Bull Mater Sci 25(6):477-478
94. Sharma BR, Dhuldhoya NC, Merchant UC (2006) Flocculants - an ecofriendlya pproach.
J Polym Environ 14:196-202
95. Deshmukh SR, Singh RP (1986) Drag reduction characteristics of graft copolymers of
xanthangum and polyacrylamide. J Appl Polym Sci 32:6163
96. Fanta GF, Burr RC, Russel CR, Rist RE (1970) Graft copolymers of starch and poly
(2-hydroxy-3-methycryloxy propyl trimethyl ammonium chloride) preparation and testing
as flocculating agents. J Appl Polym Sci 14:2601
97. Fanta GF, Burr RC, Russell CR, Rist CE (1970) Graft copolymers of starch and poly
(2-hydroxy-3-methacryloyloxypropyltrimethylammonium chloride): preparation and testing
as flocculating agents. J Appl Polym Sci 14:2601-2607
98. Deshmukh SR (1986) Turbulent drag reduction effectiveness, shear stability and biodegrad-
ability of graft copolymers. Ph.D. Thesis, IIT, Kharagpur, India
99. Karmakar GP (1994) Flocculation and rheological properties of grafted polysaccharides.
Ph.D. Thesis, IIT, Kharagpur, India
