Porous ZnO nanonetworks grown by molecular beam epitaxy

Plasma-assisted molecular beam epitaxy was employed to create porous nanonetworks of ZnO directly on GaN epilayers without the use of catalysts or templates. Detailed analysis of scanning electron microscopy (SEM) images of both as-grown and etched samples reveals that the typical porous nanonetwork structure is multilayered, and suggests that dislocations originating at the GaN/sapphire heterointerface and/or defects characterizing an unusually rough GaN surface are responsible. The pore size distribution of the nanonetwork was measured using nuclear magnetic resonance (NMR) cryoporometry. A bimodal pore size distribution centred at 4 nm and 70 nm, respectively, was observed, consistent with the existence of small nanoscale pores in the bulk of the sample, and large open pores on the surface of the porous nanonetwork as observed by SEM.