Spheric aggregates

When micelles are formed just above the cmc, they are spherical aggregates in which surfactant molecules are clustered, tails together, to form a spherical particle. At higher concentrations the amount of excess surfactant is such that the micelles acquire a rod shape or, eventually, even a layer structure. 

Ahphatic amine oxides behave as typical surfactants in aqueous solutions. Below the critical micelle concentration (CMC), dimethyl dodecyl amine oxide exists as single molecules. Above this concentration micellar (spherical) aggregates predorninate in solution. Ahphatic amine oxides are similar to other typical nonionic surfactants in that their CMC decreases with increasing temperature. 

Two unnamed alkaloids have also been deseribed. One was obtained by Bredemann in work on the alkaloids of white hellebore it occurred in the mother liquors from protoveratrine crystallisation and formed spherical aggregates of needles, m.p. 239-241°. The other was isolated by. Jacobs and Craig during a chromatographic analysis of residual, benzene-soluble alkaloids of green hellebore. It is represented by the formula C27H41 (39)04N, crystallises in six-sided platelets or flat needles, sinters about 130°, effervesces at 170-5°, and on further heating solidifies and finally melts at 272-4° it has [a]n ° — 78° (MeOH). 

Micelle (Section 19.5) A spherical aggregate of species such as carboxylate salts of fatty acids that contain a lipophilic end and a hydrophilic end. Micelles containing 50-100 carboxylate salts of fatty acids are soaps. 

Micelles in water are described as spherical aggregates of a surfactant monomer27 30). They somewhat resemble to enzyme proteins in structures and functions, although the details are yet the subjects of recent controversies 29,30). There are numerous studies of micellar models of enzymes 28), but the examples of those of metalloenzymes are very few 31 37). In particular, there are no examples of micellar models of carboxypeptidase or carbonic anhydrase except ours 36,37). 

In many cases, under changing experimental conditions, water-containing reversed micelles evolve, exhibiting a wide range of shapes such as disks, rods, lamellas, and reverse-vesicular aggregates [15,107,108], Nickel and copper bis(2-ethylhexyl) sulfosucci-nate and sodium bis(2-ethylhexyl) phosphate, for example, form rod-shaped droplets at low water contents that convert to more spherical aggregates as the water content is increased [23,92,109,110],... 

Didodecyldimethylammonium bromide forms in the dilute-phase cylindrical reversed micelles in the range 2 < / < 8, showing an abrupt structural change at/ = 10 and forming spherical aggregates at/ > 10 [17],... 

The geometry and surface chemistry of the dendrimer assemblies can be varied through the addition of surfactants. These dendrimer/surfactant aggregates can be tuned to template the formation of the different phases of calcium carbonate [40]. In combination with hexadecyltrimethylammonium bromide (CTAB), small spherical aggregates were formed that induce the formation of vaterite. Over a period of five days, the vaterite was transformed into calcite. The use of the negatively charged surfactant, sodium dodecylsulfonate (SDS), result-... 

Micellar electrokinetic capillary chromatography (MEKC or MECC) is a more versatile technique than CZE due to its ability to separate neutral as well as ionic species. The term chromatography is used because a surfactant added to the buffer solution forms spherical aggregates of molecules... 

Oxygen, substrate and biomass are all transported by diffusion within the liquid phase contained in the aggregate. The modelling of this process is achieved via the use of a finite differencing technique. In this, the spherical aggregate is divided into a number of shells, as seen in Fig. 1. 

Similar investigations have been carried out on water in oil microemulsions. A microemulsion is a clear, transparent, and stable system consisting of essentially monodisperse oil in water (OAV) or water in oU (W/O) droplets with diameters generally in the range of 10-200 nm. Microemulsions are transparent because of their small particle size, they are spherical aggregates of oil or water dispersed in the other liquid, and they are stabilized by an interfacial film of one or more surfactants. 

They demonstrated that the linker length influenced the median diameter of the spherical aggregate that was formed, resulting in good control over the aggregate dimension. 

Spherical aggregates ( 200-A diameter) of these dendrimers were formed in aqueous media, and the dendrimers exhibited a nonzero CMC of 2.02 mM. This... 

There s another example of water-in-oil compartmentation, which can circumvent this problem water-in-oil emulsions. These can be prepared by adding to the oil a small amount of aqueous surfactant solution, with the formation of more or less spherical aggregates (water bubbles) having dimensions in the range of 20-100 p,m in diameter. These systems are generally not thermodynamically stable, and tend to de-nfix with time. However, they can be long-lived enough to permit the observation of chemical reactions and a kinetic study. 

Spherulite formation by geometrical selection may rarely be seen on crystals with isotropic Habitus. Native arsenic. As, occurs in a confeito-like form, and is a type of spherulite grown through the geometrical selection of rhombohedral crystals. Spherical aggregation of calcite crystals with nail-head Habitus is also observed. Semi-spherical aggregates of platy barite crystals known as desert rose are shown in Fig. 8.6. 

Figure 8.6. Semi-spherical aggregate of the platy barite crystals known as desert rose.

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