Christina Persson scite author profile

Cationic and anionic polystyrene latices have been coated with uniform layers of zirconium compounds by ageing, at elevated temperatures, dispersions of the polymer colloid in the presence of aqueous solutions of zirconium sulphate, formamide, urea, and poly(vinylpyrro1idone). The thickness of the deposited layers could be altered by suitable adjustment of the reactant concentrations. It is suggested that the mechanism fob the formation of the coating shell is based on heterocoagulation between the latex and in situ precipitated inorganic particles. Hollow colloidal spheres of zirconium compounds were obtained by calcination of the so-coated polystyrene latices at elevated temperatures in air.

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High‐performance liquid chromatography analysis of rubber allergens in protective gloves used in health care

Bergendorff

Persson

Hansson

2006

Contact Dermatitis

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A high-performance liquid chromatography (HPLC) method developed for analysis of zinc dithiocarbamates was validated and used to perform a survey of disposable medical gloves used in southern Sweden. The gloves were extracted with acetone at room temperature for 10 min by shaking. The extracts were injected into a polyether ether ketone lined HPLC column, and peaks were analysed by a diode-array detector. The survey shows that of 19 gloves analysed, 10 contained zinc diethyldithiocarbamate (0.070-3.5 mg/g), 3 contained zinc pentamethylenedithiocarbamate (1.0-4.3 mg/g), 4 contained zinc dibutyldithiocarbamate (0.9-1.1 mg/g), and 2 contained 2-mercaptobenzothiazole (0.005-0.008 mg/g). None of them contained thiurams.

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Chemical changes in rubber allergens during vulcanization

et al. 2007

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Allergic contact dermatitis to rubber is caused by residues of chemicals used in manufacturing a rubber product. Several different additives are used to achieve a final product of the desired characteristics. Accelerators such as thiurams, dithiocarbamates, and mercaptobenzothiazoles are often among the additives responsible for allergic reactions recognized by dermatologists. The chemistry of the vulcanization process is complicated; as it occurs at an elevated temperature with a mixture of reactive chemicals, the compositions of the initial and final products differ. This paper investigates the changes in composition of common allergens during vulcanization, doing so by chemically analysing various rubber formulations at different stages of the process. Major changes were found in which added chemicals were consumed and new ones produced. An important observation is that thiuram disulfides rarely appear in the final rubber although they may have been used as additives. Instead, thiurams are often converted to dithiocarbamates or to products formed by addition to mercaptobenzothiazole structures, if these have been used together with thiurams as accelerators.

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