One-dimensional and two-dimensional liquid chromatography of sulphonated lignins.

One- and two-dimensional separation methods have been developed for the analysis of lignosulphonates and sulphonated kraft lignins. The evaluated sulphonated lignins are all used as dispersants in agrochemical formulations, where some give rise to physical instabilities of formulations. It is of interest to identify the properties of the sulphonated lignins that determine the formulation characteristics. Tetrapentylammonium bromide has been used as an ion-pair reagent in a gradient-elution reversed-phase liquid-chromatographic (IP-RPLC) method, as well as in aqueous size-exclusion chromatography (SEC). Clear differences in the size distribution were observed between different batches of sulphonated lignins. The RPLC and SEC methods were combined in a comprehensive two-dimensional liquid chromatography system. The retention times in the two dimensions were highly correlated. Therefore, the full potential of comprehensive two-dimensional liquid chromatography was not yet realized. However, the results did reveal that retention in IP-RPLC was not determined by the degree of sulphonation of similar-size molecules. Rather, molecules were separated according to size and the degree of sulphonation appears to be approximately constant. The information obtained in this study represents a significant step towards meaningful correlations between the requirements of surfactants within an agrochemical formulation and structural parameters, such as the size and the degree of sulphonation of lignin oligomers.

Synthesis and characterisation of cationically modified phospholipid polymers.

Phospholipid-like copolymers based on 2-(methacryloyloxyethyl) phosphorylcholine were synthesised using monomer-starved free radical polymerisation methods and incorporating cationic charge in the form of the choline methacrylate monomer in amounts varying from 0 to 30 wt%, together with a 5 wt% silyl cross-linking agent in order to render them water-insoluble once thermally cured. Characterisation using a variety of techniques including nuclear magnetic resonance spectroscopy, high-pressure liquid chromatography and gel permeation chromatography showed the cationic monomer did not interfere with the polymerisation and that the desired amount of charge had been incorporated. Gravimetric and differential scanning calorimetry methods were used to evaluate the water contents of polymer membranes cured at 70 degrees C, which was seen to increase with increasing cation content, producing materials with water contents ranging from 50% to 98%. Surface plasmon resonance indicated that the coatings swelled rapidly in water, the rate and extent of swelling increasing with increasing cation level. Dynamic contact angle showed that coatings of all the polymers possessed a hydrophobic surface when dry in air, characteristic of the alkyl chains expressed at the surface (>100 degrees advancing angle). Rearrangement of the hydrophilic groups to the surface occurred once wet, to produce highly wettable surfaces with a decrease in advancing angle with increasing cation content. Atomic force microscopy showed all polymer films to be smooth with no features in topographical or phase imaging. Mechanical properties of the dry films were also unaffected by the increase in cation content.