Output details
15 - General Engineering
University of Durham
A versatile nanopatterning technique based on controlled undercutting and liftoff
The work is applicable to a wide selection of inorganic materials and can create 100-nm sized structures over wafer-sized areas using only conventional microfabrication processes rather than sophisticated tools. The reviewers ranked this paper in the top 15% worldwide. The main findings of the work form a core aspect of an EU FP7 Initial Training Network NanoEmbrace, funded by the European commission and involving 10 academic institutions and 8 industrial partners. These results were also advantaged to secure the award of the prestigious Senior Research fellowship from the Royal Academy of Engineering/Leverhulme Trust for 2013-14.