Effects of temperature on micellar-assisted bimolecular reaction of methylnaphtalene-2-sulphonate with bromide and chloride ions.

Reactivity of methyl naphthalene-2-sulphonate, MeONs, with H2O, Br(-) and Cl(-) in water and in cationic micelles of cetyltrialkylammonium surfactants, n-C16H33N(+)R3X(-), R=Me (CTA(+)), n-Pr (CTPA(+)), X=Br, Cl, CH3SO3, has been investigated in the temperature range 25-45°C. Micellar rate effects were analysed by using the pseudophase treatment, and the second-order rate constants in the micellar pseudophase were evaluated at the various temperatures. Values of these rate constants increase with temperature, and the effect is less important in micelles than in water and more important for chloride than for bromide ions. Micelles lead to an ion behaviour discrimination, whose extent depends on surfactant type and on temperature, with maximum effect in CTPA(+) at 25°C and with bromide being always more reactive than chloride. Quantitative analysis of the temperature effect by the Eyring equation showed that micelles speed up reaction of MeONs with halide ions by decreasing the activation enthalpies, which is partially offset by decreases in the activation entropies. The rate acceleration by increase in surfactant head group size has only enthalpic origin for bromide and only entropic origin for chloride: this different behaviour was rationalised taking into account both solvation of anions and the hydrophobic effect.

Production of nanocrystalline cellulose from lignocellulosic biomass: technology and applications.

The use of renewables materials for industrial applications is becoming impellent due to the increasing demand of alternatives to scarce and unrenewable petroleum supplies. In this regard, nanocrystalline cellulose, NCC, derived from cellulose, the most abundant biopolymer, is one of the most promising materials. NCC has unique features, interesting for the development of new materials: the abundance of the source cellulose, its renewability and environmentally benign nature, its mechanical properties and its nano-scaled dimensions open a wide range of possible properties to be discovered. One of the most promising uses of NCC is in polymer matrix nanocomposites, because it can provide a significant reinforcement. This review provides an overview on this emerging nanomaterial, focusing on extraction procedures, especially from lignocellulosic biomass, and on technological developments and applications of NCC-based materials. Challenges and future opportunities of NCC-based materials will be are discussed as well as obstacles remaining for their large use.

Viscoelastic solutions formed by worm-like micelles of amine oxide surfactant.

Formation and properties of viscoelastic wormlike aqueous micellar solutions of the zwitterionic surfactant p-dodecyloxybenzyldimethylamine oxide (pDoAO) were studied. Semi-dilute aqueous solutions of pDoAO show a sharp increase in viscosity, which exceeds 160 cST for concentrations >50 mM, leading to viscoelastic solutions. Viscoelasticity relates to the surfactant charge type. In fact this viscoelastic system reverses to fluid when acid is added (pH<2), which changes the system to cationic. Under acidic conditions the system resembles solutions of the similar cationic surfactant p-dodecyloxybenzyltrimethylammonium bromide, (pDoTABr) in terms of viscosity. Properties of aqueous solutions of pDoAO were investigated by dynamic light scattering (DLS), rheology and small angle neutron scattering (SANS). Data support the idea that small micelles grow in length (wormlike or threadlike micelles) as surfactant concentration increases and viscoelastic solutions form as micelles become entangled. The micellar diameter as calculated by different techniques is about 5 nm.

Activation and stabilization of alpha-chymotrypsin by cationic additives.

alpha-Chymotrypsin activity was tested with N-glutaryl-l-phenylalanine p-nitroanilide (GPNA) in aqueous media in the presence of synthetic surfactants, which differ in the flexibility of their bulky head groups. Superactivity can be ascribed to the presence of the tributylammonium residue on the surfactant head group, as in p-octyloxybenzyltributylammonium bromide (pOOTBABr), while in the presence of a more rigid moiety, i.e. a cyclic one, no activation was found. A nonmicellizable quaternary ammonium salt, the tetrabutylammonium bromide (TBABr), which has a head group structure very similar to pOOTBABr, not only induces a remarkable superactivation, at a concentration 80-fold higher than pOOTBABr, but also allows the enzyme to retain a high residual activity for long periods of time. The presence of a lipophilic chain, which by interacting with apolar residues on the enzyme surface, probably penetrates into hydrophobic pockets of the protein and causes a rapid inactivation. In 0.4 m TBABr, a 20-fold increase both in kcat and Km values, with respect to buffer alone, was found. The increase of Km could be attributed either to a true decrease in affinity between enzyme and substrate or alternatively to the presence of TBA+ ions near the catalytic region. They could interact with protein residues around the active site and bind to negatively charged GPNA molecules, lowering the local substrate concentration. Spectroscopic experiments (CD and fluorescence) show minor changes of protein conformation in 0.4 m TBABr, while at 1 m a strong modification of both spectra was observed.

Effects of Amine Oxide Surfactants on Reactions of Bromide and Hydroxide Ions with Methylnaphthalene-2-Sulfonate.

The SN2 reaction of Br- with methylnaphthalene-2-sulfonate (MeONs) in water is accelerated by micelles of tetradecyldialkyl amine oxide (alkyl = methyl, n-propyl) and rates increase sharply in HBr due to increased binding of Br- to the protonated amine oxide. Second-order rate constants at the micellar surface are similar to those at surfaces of trialkylammonium and sulfobetaine micelles. The reaction of OH- with MeONs is weakly inhibited by amine oxide micelles, showing that dispersive, as well as coulombic and charge-dipole, forces play a major role in the association of ions with surfaces of micellar aggregates. Copyright 1999 Academic Press.