Field emission enhancement and microstructural changes of carbon films by single pulse laser irradiation

The effect of single nanosecond laser pulse irradiation on the microstructure and field emission (FE) properties of carbon films is studied. Amorphous carbon films were exposed to a single pulse of a 248 nm Excimer laser with pulse width of 23 ns. Microstructural changes of the films were investigated by Raman spectroscopy, transmission electron microscopy and electron energy loss spectroscopy. FE study was conducted in a parallel plate configuration. It was found that the landscape of the FE properties is not directly correlated to the laser energy in a simple way, whereas low energy laser irradiation (<117 mJ/cm2) leads to a lower emission threshold field due to the formation of sub-nanometer conductive sp2 clusters within the insulating sp3 matrix. A medium energy range (117–362.5 mJ/cm2) would actually reduce field enhancement and increase the threshold field because of the increased size of the same sp2 clusters. Interestingly, a much higher laser energy (>362.5 mJ/cm2) would reverse this effect by forming multiple continuous conductive sp2 channels and thereby reduce the threshold field sharply again.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideResearch highlights► Microstructure of the carbon films was controlled by a single 23 ns laser pulse. ► Formation and the size of sp2 nanoclusters in amorphous matrix control the field emission of low energy laser irradiated carbon films. ► High energy laser irradiation leads to formation of texture in the microstructure of the film which reduces the emission threshold field dramatically.