Your search keyword '"Everaert, J. L."' showing total 2 results

1. Integration of MOCVD SBT Stacked Ferroelectric Capacitors in a 0.35 μm CMOS Technology.

Author

Maes, D., Everaert, J. -L., Goux, L., Lisoni, J. G., Paraschiv, V., Schwitters, M., Haspeslagh, L., Wouters, D. J., Artoni, C., Caputa, C., Casella, P., Corallo, G., Russo, G., Zambrano, R., Monchoix, H., and van Autryve, L.

Subjects

*COMPLEMENTARY metal oxide semiconductors, *ELECTROMAGNETIC induction, *ELECTRONIC equipment, *PIEZOELECTRIC devices, *SOLID state electronics, *ELECTRIC resistors

Abstract

This paper reports on the integration of MOCVD SBT based stacked ferroelectric capacitors in a 0.35 μm CMOS technology for embedded FeRAM, using a ferroelectric capacitor (FeCap) that is scalable to a 3D configuration. The electrical parameters of the CMOS devices with and without FeCap integration are presented. No significant shifts of the CMOS characteristics are noticed after FeCap integration. Also the effects of the CMOS processing on the FeCaps are discussed. There is no degradation of the hysteresis loops of the FeCaps throughout the CMOS back-end-of-line processing, which proves that the integrated encapsulation layer effectively prevents any hydrogen induced damage. Another key element in the successful integration of stacked ferroelectric devices is the conductive oxygen barrier, which protects the plugs from oxidation. A low contact resistance and a high yield are obtained on plug contacts covered by the oxygen barrier. Also damage free etching is a critical issue in FeRAM integration. Excellent results are presented for the etch process to form the contacts to the electrodes. [ABSTRACT FROM AUTHOR]

Published

2004

2. Spacers Alternatives for INTEGRATION OF (3D) STACKED SBT FeCAP s.

Author

Lisoni, J. G., Johnson, J., Everaert, J. L., Paraschiv, V., Boullart, W., Maes, D., Haspeslagh, L., Wouters, D. J., Caputa, C., Casella, P., Zambrano, R., Vecchio, G., Monchoix, H., and van Autryve, L.

Subjects

CAPACITORS, FERROELECTRIC crystals, FERROELECTRICITY, PLATINUM, IRIDIUM, ELECTRODES

Abstract

The thermal and mechanical stability of Ir and Ir\Pt metals spacers deposited on top of Ti(Al)N\Ir\IrO 2 patterned structures has been investigated in pseudo 3D stacked SrBi 2 Ta 2 O 9 (SBT) capacitors. Their stability was compared to standard TEOS spacers. The high compressive stress at the edge of patterned electrodes, as a consequence of the high thermal expansion mismatch between the metals used in the electrode and TEOS, make the system mechanically unstable at the SBT crystallization conditions (700°C for 1 hour). The mechanical problems could be overcome if the same noble metals used in the electrode are incorporated as spacers. However, thermal stability during the SBT crystallization conditions is still an issue. For the case of Ir, surface oxidation decreases the SBT polarization values. In the case of Ir\Pt, Ir diffuses through Pt and oxidizes, leading to unstable patterned structures and to the oxidation of the Ti(Al)N layer. [ABSTRACT FROM AUTHOR]

Published

2003