Surface phase behavior of di-n-tetradecyl hydrogen phosphate in Langmuir monolayers at the air–water interface

“…The amphiphile contains double chains, each of which consists of 12 carbons. As a result, the alkyl chains remain untilted or weakly tilted showing uniform brightness all over the domains [32,33]. The presence of fractal domains at all the studied temperatures is related to the slow mobility of the molecules incorporating into the LC domains [33].…”

“…As a result, the alkyl chains remain untilted or weakly tilted showing uniform brightness all over the domains [32,33]. The presence of fractal domains at all the studied temperatures is related to the slow mobility of the molecules incorporating into the LC domains [33]. the DDP monolayer on water shows a cusp point at a critical surface pressure (π c ) of ∼6.2 mN/m and at a critical molecular area (A c ) of ∼0.64 nm 2 /molecule.…”

Interactions of l-arginine with Langmuir monolayers of di-n-dodecyl hydrogen phosphate at the air–water interface

“…The amphiphile contains double chains, each of which consists of 12 carbons. As a result, the alkyl chains remain untilted or weakly tilted showing uniform brightness all over the domains [32,33]. The presence of fractal domains at all the studied temperatures is related to the slow mobility of the molecules incorporating into the LC domains [33].…”

“…As a result, the alkyl chains remain untilted or weakly tilted showing uniform brightness all over the domains [32,33]. The presence of fractal domains at all the studied temperatures is related to the slow mobility of the molecules incorporating into the LC domains [33]. the DDP monolayer on water shows a cusp point at a critical surface pressure (π c ) of ∼6.2 mN/m and at a critical molecular area (A c ) of ∼0.64 nm 2 /molecule.…”

Interactions of l-arginine with Langmuir monolayers of di-n-dodecyl hydrogen phosphate at the air–water interface

Head-group Dependent Domain Morphologies in Langmuir Monolayers