1 Jermendy, G., “Can type 2 diabetes mellitus be considered preventable?”, Diabetes Res. Clin. Pract., 68 (S1), S73-S81 (2005).2 Chiasson, J.L., Josse, R.G., Gomis, R., Hanefeld, M., Karasik, A., Laakso, M., “Acarbose for prevention of type 2 diabetes mellitus: the STOP-NIDDM randomised trial”, Lancet., 359 (9323), 2072-2077 (2002).3 Hong, C., Kim, K.H., Choi, B.T., Choi, G.S., Choi, Y.R., “Process for preparing acarbose with high purity”, U.S. Pat., 6649755 (2003).4 Rodriguez, J.F., De Lucas, A., Carmona, M., “Application of ion exchange to purify acarbose from fermentation broths”, Biochem. Eng. J., 40, (1), 130-137 (2008).5 Lange, P.M., Rauenbusch, E., “Polymers for the purification of acarbose”, U.S. Pat., 4666776 (1987).6 Lange, P.M., Rauenbusch, E., “Process for the purification of acarbose with polymers”, U.S. Pat., 4767850 (1988).7 Lawton, C., “A process for the purification of acarbose”, WO 99/07720 (1998).8 Mihaljevic, K., Azaric, J., Bajic, B., “Acarbose purification process”, U.S. Pat., 6734300 (2004).9 Rauenbusch, E., “Highly pure acarbose”, U.S. Pat., 4904769 (1990).10 Wang, Y.J., Liu, L.L., Wang, Y.S., “Actinoplanes utahensis ZJB-08196 fed-batch fermentation at elevated osmolality for enhancing acarbose production”, Bioresour. Technol., 103 (1), 337-342 (2012).11 Wang, Y.J., Liu, L.L., Feng, Z.H., “Optimization of media composition and culture conditions for acarbose production by Actinoplanes utahensis ZJB-08196”, World J. Microbiol. Biotechnol., 27 (12), 2759-2766 (2011).12 Langmuir, I., “The constitution and fundamental properties of solids and liquids. Part I. solids”, J. Am. Chem. Soc., 38 (11), 2221-2295 (1916).13 Ho, Y.S., Mckay, G., “A comparison of chemisorption kinetic models applied to pollutant removal on various sorbents”, Process Saf. Environ. Prot., 76 (B4), 332-340 (1998).14 Ho, Y.S., McKay, G., “Pseudo-second order model for sorption processes”, Process Biochem., 34 (5), 451-465 (1999).15 Wang, Y.J., Xue, Y.P., Wang, Y.S., “Analysis and determination of anti-diabetes drug acarbose and its structural analogs”, Curr. Pharm. Anal., 7 (1), 12-20 (2011).16 Catena, G.C., Bright, F.V., “Thermodynamic study on the effects of β-cyclodextrin inclusion with anilinonaphthalene sulfonates”, Anal. Chem., 61 (8), 905-909 (1989).17 Brucher, J., Bergstrom, L., “Temperature dependence of linuron sorption to three different agricultural soils”, J. Environ. Qual., 26 (5), 1327-1335 (1997).18 Hall, K.R., Eagleton, L.C., Acrivos, A., “Pore- and solid-diffusion kinetics in fixed-bed adsorption under constant-pattern conditions”, Ind. Eng. Chem. Fundam., 5 (2), 212-223 (1966).19 Robinson-Lora, M.A., Brennan, R.A., “Biosorption of manganese onto chitin and associated proteins during the treatment of mine impacted water”, Chem. Eng. J., 162 (2), 565-572 (2010).20 Hamdaoui, O., Saoudi, F., Chiha, M., “Sorption of malachite green by a novel sorbent, dead leaves of plane tree: Equilibrium and kinetic modeling”, Chem. Eng. J., 143, 73-84 (2008).21 Uslu, H., “Adsorption equilibria of formic acid by weakly basic adsorbent Amberlite IRA-67: Equilibrium, kinetics, thermodynamic”, Chem. Eng. J., 155, 320-325 (2009).22 Liu, Y., Liu, Y.J., “Biosorption isotherms, kinetics and thermodynamics”, Sep. Purif. Technol., 61 (3), 229-242 (2008).23 Wawrzkiewicz, M., Hubicki, Z., “Equilibrium and kinetic studies on the adsorption of acidic dye by the gel anion exchanger”, J. Hazard. Mater., 172, 868-874 (2009).24 Mack, C.L., Wilhelmi, B., Duncan, J.R., “A kinetic study of the recovery of platinum ions from an artificial aqueous solution by immobilized Saccharomyces cerevisiae biomass”, Miner. Eng., 21 (1), 31-37 (2008).25 Renault, F., Morin-Crini, N., Gimbert, F., “Cationized starch-based material as a new ion-exchanger adsorbent for the removal of C.I. Acid Blue 25 from aqueous solutions”, Bioresour. Technol., 99 (16), 7573-7586 (2008).26 Yoon, Y.H., Nelson, J.H., “Breakthrough time and adsorption capacity of respirator cartridges”, Am. Ind. Hyg. Assoc. J., 53 (5), 303-316 (1992).27 Quek, S.Y., Al-Duri, I., “Application of film-pore diffusion model for the adsorption of metal ions on coir in a fixed-bed column”, Chem. Eng. Process., 46 (5), 477-485 (2007).28 Sivakumar, P., Palanisamy, P.N., “Adsorptive removal of reactive and direct dyes using non-conventional adsorbent-column studies”, J. Sci. Ind. Res., 68 (10), 894-899 (2009). |