Synthesis of Saccharide Nonionic Biosurfactants from Coconut Oil and Characterization of Their Interfacial Properties |
Jo, SeonHui
(Department of Chemical and Biochemical Engineering, Dongguk University)
Lee, YeJin (Department of Chemical and Biochemical Engineering, Dongguk University) Park, KiHo (Department of Chemical and Biochemical Engineering, Dongguk University) Lim, JongChoo (Department of Chemical and Biochemical Engineering, Dongguk University) |
1 | W. G. Cutler and E. Kissa, Detergency: Theory and Technology, (Surfactant Science Series, Vol. 20), Marcel Dekker, New York, USA (1987). |
2 | A. M. Schwartz, The physical chemistry of detergency. In: E. Matijevic (ed.), Surface Colloid Science, Vol. 5, 195, Wiley, New York, USA (1972). |
3 | C. A. Miller and P. Neogi, Interfacial Phenomena: Equilibrium and Dynamic Effects, (Surfactant Science Series, Vol. 17), Marcel Dekker, New York, USA (1985). |
4 | S. Vijayakumar and V. Saravanan, Biosurfactants-types, sources and applications. research, Res. J. Microbiol., 10, 181-192 (2015). DOI |
5 | Q. Q. Zhang, B. X. Cai, W. J. Xu, H. Z. Gang, J. F. Liu, S. Z. Yang, and B. Z. Mu, Novel zwitterionic surfactant derived from castor oil and its performance evaluation for oil recovery, Colloids Surf. A, 483, 87-95 (2015). DOI |
6 | Y. K. Yoon and K. S. Choi, Studies on physical behavior of alkyl polyglucosides (I) - lnterfacial activities and detergency, J. Korean Ind. Eng. Chem., 5, 451-456 (1994). |
7 | E. Haba, M. J. Espuny, M. Busquets, and A. Manresa, Screening and production of rhamnolipids by Pseudomonas aeruginosa 47T2 NCIB 40044 from waste frying oils, J. Appl Microbiol., 88, 379-387 (2000). DOI |
8 | Y. Abe, M. Fujiwara, G. Sugihara, and J. D. Kim, Glyco-system amphiphilic substances as new series of surfactants and perspective for their development, KIC News, 7, 3-14 (2004). |
9 | W. Matthies, B. Jackwerth, and H. U. Krachter, Dermatological properties of alkyl polyglycosides. In: K. Hill, W. von Rybinski, and G. Stoll (eds.). Alkyl Polyglucosides, 169-177, VCH, Weinheim, Germany (1997). |
10 | S. M. Lee, J. Y. Lee, H. P. Yu, and J. C. Lim, Synthesis of environment friendly biosurfactants and characterization of interfacial properties for cosmetic and household products formulations, Colloids Surf. A, 461, 1-10 (2017). DOI |
11 | J. C. Lim, M. C. Lee, T. K. Lim, and B. J. Kim, Synthesis of sorbital based nonionic surfactants and characterization of interfacial and adhesive properties for waterborne pressure sensitive adhesives, Colloids Surf. A, 446, 80-89 (2014). DOI |
12 | K. Holmberg, Natural surfactants, Curr. Opin. Colloid Interface Sci., 6, 148-159 (2001). DOI |
13 | C. A. Miller, Antifoaming in aqueous foams, Curr. Opin. Colloid Interface Sci., 13, 177-182 (2008). DOI |
14 | J. C. Lim, J. M. Park, C. J. Park, and B. M. Lee, Synthesis and surface active properties of a gemini-type surfactant linked by a quaternary ammonium group, Colloid Polym. Sci., 291, 855-866 (2013). DOI |
15 | V. Schröder, O. Behrend, and H. Schubert, Effect of dynamic interfacial tension on the emulsification process using microporous, ceramic membranes, J. Colloid Interface Sci., 202, 334-346 (1998). DOI |
16 | S. Souilem, I. Kobayashi, M. A. Neves, L. Jlaiel, H. Isoda, S. Sayadi, and M. Nakajima, Interfacial characteristics and microchannel emulsification of oleuropein-containing triglyceride oil-water systems, Food Res. Int., 62, 467-475 (2014). DOI |
17 | J. C. Lim, E. K. Kang, J. M. Park, H. C. Kang, and B. M. Lee, Syntheses and surface active properties of cationic surfactants having multi ammonium and hydroxyl groups, J. Ind. Eng. Chem., 18, 1406-1411 (2012). DOI |
18 | J. C. Lim and D. W. Chung, Study on the synthesis and characterization of surface activities of hydrophilic derivatives of b-sitosterol, J. Appl. Polym. Sci., 125, 888-895 (2012). DOI |
19 | KS, KSM 2714 Testing method for biodegradability of synthetic detergent (2007). |
20 | H. Zhang, C. A. Miller, P. R. Garrett, and K. H. Raney, Lauryl alcohol and amine oxide as foam stabilizers in the presence of hardness and oily soil, J. Surfactants Deterg., 8, 99-107 (2005). DOI |
21 | D. N. Yea, S. M. Lee, S. H. Jo, H. P. Yu, and J. C. Lim, Preparation of environment friendly amino acid based anionic surfactant and characterization of interfacial properties for detergent products formulation, J. Surfactants Deterg., 21, 541-552 (2018). DOI |
22 | J. C. Lim and D. S. Han, Synthesis of dialkylamidoamine oxide surfactant and characterization of its dual function of detergency and softness, Colloids Surf. A, 389, 166-174 (2011). DOI |
23 | OECD/OCDE 404 Guideline for testing of chemicals: Acute dermal irritation/corrosion (2015). |
24 | H. Zhang, C. A. Miller, P. R. Garrett, and K. H. Raney, Lauryl alcohol and amine oxide as foam stabilizers in the presence of hardness and oily soil, J. Surfactants Deterg., 8, 99-107 (2005). DOI |
25 | OECD/OCDE 405 Guideline for testing of chemicals: Acute eye irritation/corrosion (2012). |
26 | D. W. Chung and J. C. Lim, Study on the effect of structure of polydimethylsiloxane grafted with polyethyleneoxide on surface activities, Colloids Surf. A, 336, 35-40 (2009). DOI |
27 | E. K. Kang, B. M. Lee, H. A. Hwang, and J. C. Lim, A novel cationic surfactant having two quaternary ammonium ions, J. Ind. Eng. Chem., 17, 845-852 (2011). DOI |
28 | J. H. Kay and J. C. Calandra, Interpretation of eye irritation tests, J. Soc. Cosmet. Chem., 13, 281-289 (1962). |
29 | J. C. Lim, Effect of formation of calcium carbonate on foam stability in Neodol 25-3S anionic surfactant systems, J. Ind. Eng. Chem., 15, 257-264 (2009). DOI |
30 | M. Ghosh and L. Godderis, Genotoxicity of ethylene oxide: A review of micronucleus assay results in human population, Mutat. Res., 770, 84-91 (2016). DOI |
31 | United Nations, Globally Harmonized System of Classification and Labelling of Chemicals (GHS), Rev. 5 (2013). |