Characterisation of p-type ZnS:Cu transparent conducting films fabricated by high-temperature pulsed laser deposition

Abstract

Copper-doped zinc sulphide (ZnS:Cu) thin films were synthesized through pulsed laser ablation in an inert background gas on stationary and rotating substrates, and a comprehensive opto-electrical characterisation is presented. The CuxZn1-xS films demonstrated comparable conductivity and transparency to other leading p-type transparent conducting materials, with a peak conductivity of 49.0 Scm-1 and a hole mobility of 1.22 cm2V-1s-1 for films alloyed with an x = 0.33 copper content. The most conducting films displayed a transparency of 71.8\% over the visible range at a thickness of 100 nm, and band gaps were found in the range 3.22-3.52 eV, which showed a strong negative correlation with copper content. The effects of sulphur-rich rapid thermal annealing on the synthesized compound are reported, with films reliably displaying an increase in conductivity and carrier mobility. Films grown using a stationary substrate possessed large spatial thickness distributions and displayed sub-band gap absorption, which is discussed with respect to inhomogeneous copper substitution. Films deposited at 450 were found to be in the zincblende phase before and after annealing, with no occurrence of a phase change to wurtzite structure.