Title :
Copper Contact for 22 nm and Beyond: Device Performance and Reliability Evaluation
Author :
Seo, Soon-Cheon ; Yang, Chih-Chao ; Wang, Miaomiao ; Monsieur, Frederic ; Adam, Lahir ; Johnson, Jeffrey B. ; Horak, Dave ; Fan, Susan ; Cheng, Kangguo ; Stathis, James ; Doris, Bruce
Author_Institution :
Albany NanoTech Res. Center, IBM, Albany, NY, USA
Abstract :
We demonstrate the device performance benefit of Cu contact over W contact using high-κ/metal gate CMOS devices. The ring oscillator (RO) device of Cu contact showed reduction in external resistance, which resulted in an increase in drive current by 5% for both nFET and pFET devices. The delay on the gate-cap-loaded RO improved by 5%-7% with Cu contact. We evaluated device reliability tests for gate dielectric breakdown, positive-bias temperature instability, negative-bias temperature instability, and hot carrier injection on 32- and 22-nm-node devices with Cu contact. The reliability results for the Cu contacts with the reliable barrier layer and good gap fill are comparable to those of W contacts.
Keywords :
copper; electrical contacts; field effect transistors; semiconductor device breakdown; semiconductor device reliability; semiconductor device testing; Cu; copper contact; device performance; device reliability tests; gate dielectric breakdown; high-κ/metal gate CMOS devices; hot carrier injection; nFET devices; negative-bias temperature instability; pFET devices; positive-bias temperature instability; reliability evaluation; ring oscillator device; size 22 nm; size 32 nm; Copper; Human computer interaction; Logic gates; Metallization; Reliability; Resistance; Stress; CVD Ru; Contact reliability; copper contact; external resistance;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2010.2078483
