Literature DB >> 29214263

Contacts to solution-synthesized SnS nanoribbons: dependence of barrier height on metal work function.

Jenifer R Hajzus1, Adam J Biacchi, Son T Le, Curt A Richter, Angela R Hight Walker, Lisa M Porter.   

Abstract

Tin(ii) monosulfide (SnS) is a layered, anisotropic material that is of interest as a two-dimensional semiconductor for opto-electronic, thermoelectric, and piezoelectric applications. In this study, the effect of work function on contact behavior was investigated. Ni/Au, Pd/Au, Cr/Au, and Ti/Au contacts were fabricated onto individual, solution-synthesized, p-type SnS nanoribbons. The lower work function metals (Cr and Ti) formed Schottky contacts, whereas the higher work function metals (Ni and Pd) formed ohmic or semi-ohmic contacts. Of the ohmic contacts, Ni was found to have a lower contact resistance (∼10-4 Ω cm2 or lower) than Pd (∼10-3 Ω cm2 or lower). Both the calculated Schottky barriers (0.39 and 0.50 eV) for Cr and Ti, respectively, and the ohmic behavior for Ni and Pd agree with behavior predicted by Schottky-Mott theory. The results indicate that high work function metals should be considered to form low resistance contacts to SnS multilayers.

Entities:  

Year:  2017        PMID: 29214263      PMCID: PMC5826728          DOI: 10.1039/c7nr07403d

Source DB:  PubMed          Journal:  Nanoscale        ISSN: 2040-3364            Impact factor:   7.790


  35 in total

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