14 Randolph T W, Blanch H W, Prausnitz J M, et al.Enzymatic catalysis in a supercritical fluid.Biotechnol Lett, 1985, 7:325-328
[2]
15 Habulin M, ?abeder S, Knez ?.Enzymatic synthesis of sugar fatty acid esters in organic solvent and in supercritical carbon dioxide and their antimicrobial activity.J Supercrit Fluids, 2008, 45:338-345
[3]
16 Dzyuba S V, Bartsch R A.Recent advances in applications of room-temperature ionic liquid/supercritical CO2 systems.Angew Chem Int Ed, 2003, 42:148-150
[4]
17 Lozano P, García-Verdugo E, Piamtongkam R, et al.Bioreactors Based on monolith-supported ionic liquid phase for enzyme catalysis in supercritical carbon dioxide.Adv Synth Catal, 2007, 349:1077-1084
[5]
18 Mesiano A J, Beckman E J, Russell A J.Supercritical biocatalysis.Chem Rev, 1999, 99:623-634
[6]
19 Lozano P, Avellaneda A, Pascual R, et al.Stability of immobilized α-chymotrypsin in supercritical carbon dioxide.Biotechnol Lett, 1996, 18:1345-1350
[7]
20 Lozano P, De Diego T, Carrié D, et al.Synthesis of glycidyl esters catalyzed by lipases in ionic liquids and supercritical carbon dioxide.J Mol Catal A Chem, 2004, 214:113-119
[8]
1 Mulligan C N, Wang S.Remediation of a heavy metal-contaminated soil by a rhamnolipid foam.Eng Geol, 2006, 85:75-81
[9]
2 Kitamoto D, Isoda H, Nakahara T.Functions and potential applications of glycolipid biosurfactants—From energy-saving materials to gene delivery carriers.J Bioscie Bioeng, 2002, 94:187-201
[10]
3 Gumel A M, Annuar M S M, Heidelberg T, et al.Lipase mediated synthesis of sugar fatty acid esters.Process Biochem, 2011, 46:2079-2090
[11]
4 Randhawa K K S, Rahman P K S M.Rhamnolipid biosurfactants—Past, present, and future scenario of global market.Frontiers Microbiol, 2014, 5:454
[12]
5 Therisod M, Klibanov A M.Facile enzymatic preparation of monoacylated sugars in pyridine.J Am Chem Soc, 1986, 108:5638-5640
[13]
6 Riva S, Chopineau J, Kieboom A P G, et al.Protease-catalyzed regioselective esterification of sugars and related compounds in anhydrous dimethylformamide.J Am Chem Soc, 1988, 110:584-589
[14]
7 Flores M V, Naraghi K, Engasser J M, et al.Influence of glucose solubility and dissolution rate on the kinetics of lipase catalyzed synthesis of glucose laurate in 2-methyl 2-butanol.Biotechnol Bioeng, 2002, 78:815-821
[15]
8 Degn P, Zimmermann W.Optimization of carbohydrate fatty acid ester synthesis in organic media by a lipase from Candida antarctica.Biotechnol Bioeng, 2001, 74:483-491
[16]
9 Zhao H, Malhotra S V.Applications of ionic liquids in organic synthesis.Aldrichim Acta, 2002, 35:75-83
[17]
10 Park S, Kazlauskas R J.Improved preparation and use of room-temperature ionic liquids in lipase-catalyzed enantio-and regioselective acylations.J Org Chem, 2001, 66:8395-8401
[18]
11 Ganske F, Bornscheuer U T.Lipase-catalyzed glucose fatty acid ester synthesis in ionic liquids.Org Lett, 2005, 7:3097-3098
[19]
12 Ha S H, Hiep N M, Lee S H, et al.Optimization of lipase-catalyzed glucose ester synthesis in ionic liquids.Bioprocess Biosyst Eng, 2010, 33:63-70
[20]
13 Lozano P, Garcia-Verdugo E, V Luis S, et al.(Bio) catalytic continuous flow processes in scCO2 and/or ILs:Towards sustainable(bio) catalytic synthetic platforms.Current Org Synth, 2011, 8:810-823
