(Invited) Ultrathin Ni_1-xPt_x Films as Electrical Contact in CMOS Devices

Abstract: Metal silicide films are likely to continue their function as electrical contact in CMOS devices beyond the 22-nm technology node. For such devices, the thickness of the silicide films is projected in the technology roadmap to be below 10 nm. Nickelbased silicides are among the most competitive choices for this application. For this family of silicides, the latest experimental investigations show that upon identical formation conditions (temperature and time), the phase, crystallinity, morphological stability,… Show more

“…A Nd/Sm co-doped composition Ce 0.9 Sm 0.05 Nd 0.05 O 2-į was also investigated but found to have a similar ionic conductivity as Ce 0.9 Nd 0.1 O 2-į within experimental uncertainty (14). Enhanced ionic conductivity has been observed in the past though for co-doped cerates, as compared to the end members (15)(16)(17)(18).…”

(Invited) Electronic and Ionic Transport in Ce_0.8Pr_xTb_0.2-xO_2-δ and Evaluation of Performance as Oxygen Permeation Membranes

“…A Nd/Sm co-doped composition Ce 0.9 Sm 0.05 Nd 0.05 O 2-į was also investigated but found to have a similar ionic conductivity as Ce 0.9 Nd 0.1 O 2-į within experimental uncertainty (14). Enhanced ionic conductivity has been observed in the past though for co-doped cerates, as compared to the end members (15)(16)(17)(18).…”

(Invited) Electronic and Ionic Transport in Ce_0.8Pr_xTb_0.2-xO_2-δ and Evaluation of Performance as Oxygen Permeation Membranes

Linewidth related resistivities and growth behavior of nickel silicide nanowires by solid state reaction between Ni and electron-beam lithography prepared Si nanowires