| Literature DB >> 27977917 |
Jinbum Kim1,2, Seongheum Choi3, Taejin Park1,2, Jinyong Kim3, Chulsung Kim1, Taeho Cha1, Hyangsook Lee3,4, Eunha Lee4, Jung Yeon Won4, Hyung-Ik Lee4, Sangjin Hyun1, Sunjung Kim1, Dongsuk Shin1, Yihwan Kim1, Keewon Kwon2, Hyoungsub Kim3.
Abstract
To synthesize a thermally robust Ni1-xPtxSi film suitable for ultrashallow junctions in advanced metal-oxide-semiconductor field-effect transistors, we used a continuous laser beam to carry out millisecond annealing (MSA) on a preformed Ni-rich silicide film at a local surface temperature above 1000 °C while heating the substrate to initiate a phase transition. The melting and quenching process by this unique high-temperature MSA process formed a Ni1-xPtxSi film with homogeneous Pt distribution across the entire film thickness. After additional substantial thermal treatment up to 800 °C, the noble Ni1-xPtxSi film maintained a low-resistive phase without agglomeration and even exhibited interface flattening with the underlying Si substrate.Entities:
Keywords: Ni; Pt; agglomeration; melting; millisecond annealing; silicide
Year: 2016 PMID: 27977917 DOI: 10.1021/acsami.6b12968
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229