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- Williams, Paul M., et al. Show all 4 Authors
- Water research 2012 v.46 no.1 pp. 33-42
- bioprocessing; cations; fabrics; heavy metals; methylene blue; pH; paper pulp; pharmaceutical industry; sodium chloride; textile industry; wastewater
- ... The present study demonstrates the high potential for the application of a novel self assembled positively charged nanofiltration membrane, PA6DT-C, in processes such as the recovery of valuable cationic macromolecules in the bioprocess and pharmaceutical industries or removal of multi-valent cations such as dyes and heavy metals in the paper and pulp, textiles, nuclear, and automotive industries. ...
- Williams, Paul M., et al. Show all 9 Authors
- Biomaterials 2012 v.33 no.1 pp. 163-170
- DNA damage; biocompatibility; drugs; fever; genotoxicity; humans; iron oxides; magnetic resonance imaging; nanomedicine; nanoparticles; therapeutics
- ... Ultrafine superparamagnetic iron oxide nanoparticles (USPION) hold great potential for revolutionising biomedical applications such as MRI, localised hyperthermia, and targeted drug delivery. Though evidence is increasing regarding the influence of nanoparticle physico-chemical features on toxicity, data however, is lacking that assesses a range of such characteristics in parallel. We show that ir ...