Title :
Formation and characterization of ultra-thin Ni silicides on strained and unstrained silicon
Author :
Knoll, L. ; Zhao, Q.T. ; Habicht, S. ; Urban, C. ; Bourdelle, K.K. ; Mantl, S.
Author_Institution :
Inst. of Bio- & Nanosystems (IBN1-IT), Forschungszentrum Julich, Jülich, Germany
Abstract :
Ultra thin Ni-silicides were formed on silicon-on-insulator (SOI) and biaxially tensile strained Si-on-insulator (SSOI) substrates. Epitaxial NiSi2 layers were formed with a 3 nm Ni layer at T > 400°C, while a polycrystalline NiSi layer was with a 5 nm thick Ni layer. The NiSi2 layer quality advances with increasing temperature. A very thin Pt interlayer, to incorporate Pt into NiSi, forming Ni1-xPtxSi, improves the thermal stability, the interface roughness and lowers the contact resistivity. The Schottky barrier heights (SBH) of these silicides were measured on n-Si(100). Ni1-xPtxSi shows the highest SBH. The SBH of NiSi2 layers decreases by improving the layer interface. Surprisingly, the contact resistivity of epitaxial NiSi2 is about one order of magnitude lower than that of NiSi on both, As and B doped SOI and SSOI, The lowest value of 7 × 10-8 Ω cm2 was measured on B doped SSOI.
Keywords :
Schottky barriers; epitaxial layers; interface roughness; nickel alloys; platinum alloys; silicon alloys; silicon-on-insulator; thermal stability; NiPtSi; Schottky barrier heights; biaxially tensile strained Si-on-insulator substrates; contact resistivity; epitaxial layers; interface roughness; layer interface; polycrystalline layer; silicon-on-insulator; size 5 nm; thermal stability; ultra-thin Ni silicides; unstrained silicon; Capacitive sensors; Conductivity; Morphology; Nickel; Schottky barriers; Silicides; Silicon; Temperature; Thermal resistance; Thermal stability;
Conference_Titel :
Junction Technology (IWJT), 2010 International Workshop on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-5866-0
DOI :
10.1109/IWJT.2010.5474990
