Lanzillo Nicholas A, Simbeck Adam J, Nayak Saroj K
Department of Physics, Applied Physics and Astronomy, Rensselaer Polytechnic Institute, 110 8th Street, Troy, NY 12180, USA. Division of Science, Mathematics and Computing, Bard College, 30 Campus Road, Annandale-on-Hudson, NY 12504, USA.
J Phys Condens Matter. 2015 May 8;27(17):175501. doi: 10.1088/0953-8984/27/17/175501. Epub 2015 Apr 2.
We use first-principles density functional theory to investigate the effect of both tensile and compressive strain on the work functions of various metal dichalcogenide monolayers. We find that for all six species considered, including MoS2, WS2, SnS2, VS2, MoSe2 and MoTe2, that compressive strain of up to 10% decreases the work function continuously by as much as 1.0 eV. Large enough tensile strain is also found to decrease the work function, although in some cases we observe an increase in the work function for intermediate values of tensile strain. This work function modulation is attributed to a weakening of the chalcogenide-metal bonds and an increase in total energy of each system as a function of strain. Values of strain which bring the metal atoms closer together lead to an increase in electrostatic potential energy, which in turn results in an increase in the vacuum potential level. The net effect on the work function can be explained in terms of the balance between the increases in the vacuum potential levels and Fermi energy.
我们使用第一性原理密度泛函理论来研究拉伸应变和压缩应变对各种金属二硫属化物单层功函数的影响。我们发现,对于所考虑的所有六种物质,包括二硫化钼(MoS₂)、二硫化钨(WS₂)、二硫化锡(SnS₂)、二硫化钒(VS₂)、二硒化钼(MoSe₂)和二碲化钼(MoTe₂),高达10%的压缩应变会使功函数持续降低多达1.0电子伏特。我们还发现,足够大的拉伸应变也会降低功函数,不过在某些情况下,我们观察到拉伸应变处于中间值时功函数会增加。这种功函数调制归因于硫属化物 - 金属键的减弱以及每个系统的总能量随应变增加。使金属原子靠得更近的应变值会导致静电势能增加,进而导致真空势能水平升高。对功函数的净效应可以根据真空势能水平和费米能增加之间的平衡来解释。
