Nanoscale engineering of low-fouling surfaces through polydopamine immobilisation of zwitterionic peptides

J Cui; Y Ju; K Liang; H Ejima; S Lörcher; KT Gause; JJ Richardson; F Caruso

Journal article

Nanoscale engineering of low-fouling surfaces through polydopamine immobilisation of zwitterionic peptides

J Cui, Y Ju, K Liang, H Ejima, S Lörcher, KT Gause, JJ Richardson, F Caruso

Soft Matter | ROYAL SOC CHEMISTRY | Published : 2014

DOI: 10.1039/c3sm53056f

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Abstract

We report a versatile approach for the design of substrate-independent low-fouling surfaces via mussel-inspired immobilisation of zwitterionic peptides. Using mussel-inspired polydopamine (PDA) coatings, zwitterionic glutamic acid- and lysine-based peptides were immobilised on various substrates, including noble metals, metal oxides, polymers, and semiconductors. The variation of surface chemistry and surface wettability upon surface treatment was monitored with X-ray photoelectron spectroscopy (XPS) and water contact angle measurements. Following peptide immobilisation, the surfaces became more hydrophilic due to the strong surface hydration compared with PDA-coated surfaces. The peptide-fu..

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University of Melbourne Researchers

Frank Caruso Author

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Funding Acknowledgements

This work was supported by the Australian Research Council under the Australian Laureate Fellowship (F. C., 120100030) and Discovery Project (F. C., 130101846) schemes. J.C. is the recipient of an Australian Research Council Super Science Fellowship (FS110200025). Dr Xiaofei Duan (Surface and Chemical Analysis Network in The University of Melbourne) is thanked for the help of XPS analysis and contact angle measurements.