Nano- and micro-patterning biotemplated magnetic CoPt arrays.

  • Johanna Galloway (Creator)
  • Scott M Bird (Creator)
  • Jennifer Talbot (Creator)
  • Philippa M. Shepley (Creator)
  • Ruth C. Bradley (Creator)
  • Kevin Critchley (Creator)
  • Osama El-Zubir (Contributor)
  • Dan A. Allwood (Contributor)
  • Graham J. Leggett (Contributor)
  • Joshua J. Miles (Contributor)
  • Sarah Staniland (Contributor)

Dataset

Description

Patterned thin-films of magnetic nanoparticles (MNPs) can be used to make high‑density data storage devices. High coercivity MNPs (e.g. L10 CoPt) are nano-patterned to create this bit-patterned media (BPM). This increases storage capacity by reducing bit size, which is highly desirable in developing smaller recording media for consumer devices . Conventional manufacture of BPM is not environmentally friendly as it uses high temperatures (500˚C) and high vacuum, which requires specialised equipment. To tackle these issues, we have taken inspiration from nature to create patterns of CoPt using a biotemplating peptide under mild conditions. Nano-patterning via interference lithography (IL) and micro-patterning using micro-contact printing (μCP) were used to create a peptide resistant mask onto a gold surface under ambient conditions. We redesigned a biotemplating peptide to self-assemble onto gold surfaces (cgsgktheihspllhk), and mineralised the patterns at 18˚C in water. Ferromagnetic CoPt is biotemplated by the immobilised peptides, and the patterned MNPs maintain stable magnetic domains. This bioinspired study offers an ecological route towards developing biotemplated.
Date made available7 Jun 2016
PublisherUniversity of Leeds

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