A Study Of Capping Layers For Sulfur Monolayer Doping On Iii-V Junctions

Recently, high dosage doping on Si multi-gate field effect transistors and III-V planar structures using a self-limiting monolayer doping technique was reported to overcome challenges in scaling nano-sized transistors. The stoichiometry or composition of the capping layer was found to affect the diffusion efficiency of this process. In this work, we study the effect of a capping layer in sulfur monolayer doping on III-V junctions. Various capping temperatures and growth methods were compared. Based on the theoretical and experimental results, we suggest an optimized scheme consisting of a bi-layer capping structure. From Hall measurements and secondary ion mass spectrometry, a SiNx/BeO bi-layer capping, compared to single layer cap, exhibited the best results with a surface sheet resistance of 232 Omega/sq, junction depth of 11 nm, dopant profile abruptness of 3.5 nm/dec, electrically active S concentration of 4.9 x 10(19) /cm(3) (=1.34 x 10(13) /cm(2)), and 3 times higher activation efficiency without significant transient-enhanced dopant diffusion. (C) 2012 American Institute of Physics. [http://dx.doi.org/10.1063/1.4772641]