Study of inclusion complexes of cycloamylose with surfactants by isothermal titration calorimetry

“…They are able to do this because they contain a hydrophobic cavity that can accommodate host molecules of specific sizes, shapes, and polarities [67][68][69]. For example, ITC has been used to study the characteristics of inclusion complexes of CDs with small molecule surfactants [70]. The non-polar linear chains of the surfactant molecules were incorporated into the hydrophobic cavities of the CD molecules.…”

Application of ITC in foods: A powerful tool for understanding the gastrointestinal fate of lipophilic compounds

“…They are able to do this because they contain a hydrophobic cavity that can accommodate host molecules of specific sizes, shapes, and polarities [67][68][69]. For example, ITC has been used to study the characteristics of inclusion complexes of CDs with small molecule surfactants [70]. The non-polar linear chains of the surfactant molecules were incorporated into the hydrophobic cavities of the CD molecules.…”

Application of ITC in foods: A powerful tool for understanding the gastrointestinal fate of lipophilic compounds

“…ITC has been extensively employed to academically study the selfassembly of micellar systems [66][67][68][69], drug--surfactant interactions [70][71][72], polymer--surfactant interactions [73,74], ligand binding [75][76][77], enzyme activity [78,79], protein--protein reactions [80,81], lipid--lipid systems [82] and lipid--small molecule interactions [83]. A broader summary of ITC applications from 2010 can be found in Ghai et al [84].…”

Determination of physical and chemical stability in pressurised metered dose inhalers: potential new techniques

“…Different types of interaction are possible viz., between neutral polymer and nonionic surfactant (Feitosa, Wyn Brown, & Hansson, 1996), neutral polymer and anionic surfactant (Dai & Tam, 2001;Dan, Chakraborty, Ghosh, & Moulik, 2007;Griffiths et al, 2004), polyelectrolyte and surfactant of opposite charges (Exerowa, Kashchiev, & Platikanov, 1992;Sokolov, Yeh, Kohkhlov, Grinberg, & Chu, 1998;Tsekov & Ruckenstein, 1993), etc. In this discipline, interaction of biopolymers (polysaccharides, proteins, enzymes and DNA) with amphiphiles and lipids constitute a special category (Chatterjee, Moulik, Majhi, & Sanyal, 2002;Maulik, Dutta, Chattoraj, & Moulik, 1998;Mun, Rho, & Kim, 2009). …”

Interaction of cationic hydroxyethylcellulose (JR400) and cationic hydrophobically modified hydroxyethylcellulose (LM200) with the amino-acid based anionic amphiphile Sodium N-Dodecanoyl Sarcosinate (SDDS) in aqueous medium