Recent papers

High-Performance Field Emission from a Carbonized Cork

To broaden the range of application of electron beams, low-power field emitters are needed that are miniature and light. Here, we introduce carbonized cork as a material for field emitters. The light natural cork becomes a graphitic honeycomb upon carbonization, with the honeycomb cell walls 100–200 nm thick and the aspect ratio larger than 100, providing an ideal structure for the field electron emission. Compared to nanocarbon field emitters, the cork emitter produces a high current density and long-term stability with a low turn-on field. The nature of the cork material makes it quite simple to fabricate the emitter. Furthermore, any desired shape of the emitter tailored for the final application can easily be prepared for point, line, or planar emission.

High-Performance Field Emission from a Carbonized Cork. J. S. Lee, H. J. Lee, J. M. Yoo, T. Kim,* and Y. H. Kim,* ACS Appl. Mater. Inter. 9, 43959-43965 (2017). Link