Effective Schottky barrier lowering of Ni silicide/p-Si(100) using an ytterbium confinement structure for high performance n-type MOSFETs

Abstract: Effective Schottky barrier lowering of Ni silicide/p-Si(100) using an ytterbium confinement structure for high performance n-type MOSFETs Author links open overlay panelKeng-HuiShen a Szu-HungChen b Wei-TingLiu a Bao-HsienWu a Lih-JuannChen a Show more https://doi.org/10.1016/j.matdes.2016.11.084 Get rights and content Highlights • The insertion of Ti layer effectively suppresses Yb out-diffusion and prevents the Yb from oxidation during silicidation. • Yb atoms are confined by the inserted Ti layer and react … Show more

“…The segregated dopants result in a strong energy band bending, which shifts the Fermi level toward the band edge. For the alloying method, Ni alloying with metals of different work functions is used to tune the SBH [43] . Essentially, these methods can work synergistically instead of independently to deepen the Fermi level.…”

Advanced process and electron device technology

“…The segregated dopants result in a strong energy band bending, which shifts the Fermi level toward the band edge. For the alloying method, Ni alloying with metals of different work functions is used to tune the SBH [43] . Essentially, these methods can work synergistically instead of independently to deepen the Fermi level.…”

Advanced process and electron device technology

Effect of deposition temperature on thermal stabilities of copper–carbon films in barrier-less Cu metallization

Engineering cationic defects in transparent tin oxide superlattices