Chemistry Reference
In-Depth Information
4. Dey RK, Tiwary GS, Patnaik T, Jha U (2011) Controlled release of 5-aminosalicylic acid
from a new pH responsive polymer derived from tamarind seed polysaccharide, acrylic acid,
and polyamidoamine. Polym Bull 66:583-598
5. Coviello T, Matricardi P, Marianecci C, Alhaique F (2007) Polysaccharide hydrogels for
modified release formulations. J Control Release 119:5-24
6. Sen G, Pal S (2009) Microwave initiated synthesis of polyacrylamide grafted
carboxymethylstarch (CMG-g-PAM): application as a novel matrix for sustained drug
release. Int J Biol Macromol 45:48-55
7. Giri A, Ghosh T, Panda AB, Pal S, Bandyopadhyay A (2012) Tailoring carboxymethyl
guargum hydrogel with nanosilica for sustained transdermal release of diclofenac sodium.
Carbohydr Polym 87:1532-1538
8. Vijan V, Kaity S, Biswas S, Isaac J, Ghosh A (2012) Microwave assisted synthesis and
characterization of acrylamide grafted gellan, application in drug delivery. Carbohydr Polym
90:496-506
9. Rana V, Rai P, Tiwari AK, Singh RS, Kennedy JF, Knill CJ (2011) Modified gums:
approaches and applications in drug delivery. Carbohydr Polym 83:1031-1047
10. Mundargi RC, Patil SA, Aminabhavi TM (2007) Evaluation of acrylamide-grafted-xanthan
gum copolymer matrix tablets for oral controlled delivery of antihypertensive drugs.
Carbohydr Polym 69:130-141
11. Deshmukh SR, Singh RP (1987) Drag reduction effectiveness, shear stability and biodegra-
dation resistance on guar gum-based graft copolymers. J Appl Polym Sci 33:1963-1975
12. Pal S, Mal D, Singh RP (2007) Synthesis and characterization of cationic guar gum: a high
performance flocculating agent. J Appl Polym Sci 105:3240-3245
13. Singh RP, Pal S, Mal D (2006) A high performance flocculating agent and viscosifier based
on cationic guar gum. Macromol Symp 242:227-234
14. Singh V, Tiwari A, Tripathy DN, Sanghi R (2004) Microwave assisted synthesis of guar-g-
polyacrylamide. Carbohydr Polym 58:1-6
15. Pal S (2009) Carboxymethyl guar: its synthesis and macromolecular characterization. J Appl
Polym Sci 111:2630-2636
16. Brostow W, Lobland HEL, Reddy T, Singh RP (2007) Lowering mechanical degradation of
drag reducers in turbulent flow. J Mater Res 22:56-60
17. Wang L, Zhang LM (2009) Viscoelastic characterization of a new guar gum derivative
containing anionic carboxymethyl and cationic 2-hydroxy-3-(trimethylammonio) propyl
substituents. Ind Crops Prod 29:524-529
18. Singh RP, Nayak BR, Biswal DR, Tripathy T, Banik K (2003) Biobased polymeric
flocculants for industrial effluent treatment. Mater Res Innovat 7:331-340
19. Ghosh S, Sen G, Jha U, Pal S (2010) Novel biodegradable polymeric flocculant based on
polyacrylamide grafted tamarind kernel polysaccharide. Biores Tech 101:9638-9644
20. Singh RP, Pal S, Krishnamoorthy S, Adhikary P, Ali SK (2009) High-technology materials
based on modified polysaccharides. Pure Appl Chem 81:525-547
21. Stannett SV (1981) Grafting. Radiat Phys Chem 18:215-222
22. Schwab E, Stannett V, Rakowitz DH, Magrane JK (1962) Paper grafted with vinyl monomers
using the ceric ion method. Tappi 45:390-400
23. Duke FR, Forist AA (1949) The theory and kinetics of specific oxidation III. The cerate-2-3-
butanediol reaction in nitric acid solution. J Am Chem Soc 71:2790-2792
24. Duke FR, Bremer RF (1951) The theory and kinetics of specific oxidation IV. The cerate 2,
s-butanediol reactions in perchlorate solutions. J Am Chem Soc 73:5179-5181
25. Mino G, Kaizarman S (1958) A new method for the preparation of graft copolymers.
Polymerization initiated by ceric ion redox systems. J Polym Sci Part A: Polym Chem
31:242-243
26. Iwakura Y, Kurosaki T, Imai Y (1965) Graft copolymerization onto cellulose by the ceric ion
method. J Polym Sci Part A: Polym Chem 3:1185-1193
