Blandine Duriez | Researchain

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Featured researches published by Blandine Duriez.

IEEE Transactions on Electron Devices | 2015

Germanium n-Channel Planar FET and FinFET: Gate-Stack and Contact Optimization

Mark Van Dal; Blandine Duriez; Georgios Vellianitis; Gerben Doornbos; Matthias Passlack; Yee-Chia Yeo; Carlos H. Diaz

We demonstrate Ge enhancement-mode nMOS FinFETs fabricated on 300-mm Si wafers, incorporating an optimized gate-stack (interface trap density Dit below 2 × 1011 eV-1 · cm-2), n+-doping (active doping concentration Nact exceeding 1 × 1020 cm-3), and metallization (contact resistivity Pc below 2 × 10-7 Ω · cm2) modules. A new circular transmission line Pc extraction model that captures the parasitic metal resistance is proposed. At a supply voltage VDD of 0.5 V, 40-nm-gate-length FinFET devices achieved an ON-performance ION of 50 μA/μm at an OFF-state current IOFF of 100 nA/μm, a subthreshold swing Ssat of 124 mV/decade, and a peak transconductance gm of 310 μS/μm. The same gate-stack and contacts were deployed on planar devices for comparison. Both FinFET and planar devices in this paper achieved the highest reported gm/Ssat at VDD = 0.5 V to date and the shortest gate lengths for Ge nMOS enhancement-mode transistors.

symposium on vlsi technology | 2010

Multi-V T engineering in highly scaled CMOS bulk and FinFET devices through Ion Implantation into the metal gate stack featuring a 1.0nm EOT high-K oxide

R. Singanamalla; G. Boccardi; Joshua Tseng; J. Petry; Georgios Vellianitis; M. J. H. van Dal; Blandine Duriez; G. Vecchio; C. W. T. Bulle-Lieuwma; J. V. Berkum; R. Lander; M. Müller

We demonstrate multi-VT engineering on both CMOS bulk and FinFET devices through As implantation into a 1.0nm EOT TiN/high-K gate stack within a single metal single dielectric approach. We determine a As implantation process window enabling VT tuning without any device degradation. It is shown that this approach is suitable for multi-VT engineering with aggressively scaled dielectrics and, particularly, for fully depleted 3D device architectures.

The Japan Society of Applied Physics | 2009

Characteristics and Integration Challenges of FinFET-based Devices for (Sub-)22nm Technology Nodes Circuit Applications

A. Veloso; M.J.H. van Dal; Nadine Collaert; A. De Keersgieter; Liesbeth Witters; Rita Rooyackers; A. Redolfi; S. Brus; Ray Duffy; Bartlomiej Jan Pawlak; Georgios Vellianitis; Blandine Duriez; T. Merelle; P. Absil; S. Biesemans; M. Jurczak; T. Hoffmann; Robert Lander

for (Sub-)22nm Technology Nodes Circuit Applications A. Veloso, M. J. H. van Dal, N. Collaert, A. De Keersgieter, L. Witters, R. Rooyackers, A. Redolfi, S. Brus, R. Duffy, B. J. Pawlak, G. Vellianitis, B. Duriez, T. Mérelle, P. P. Absil, S. Biesemans, M. Jurczak, T. Hoffmann, and R. J. P. Lander IMEC, NXP-TSMC Research Center, Kapeldreef 75, B-3001 Leuven, Belgium Tel.: +32-16-28 17 28, Fax: +32-16-28 17 06, Email: [email protected]

Archive | 2015

MOSFETs with channels on nothing and methods for forming the same

Georgios Vellianitis; Mark Van Dal; Blandine Duriez

Archive | 2013

FinFET with Channel Backside Passivation Layer Device and Method

Gerben Doornbos; Mark Van Dal; Georgios Vellianitis; Blandine Duriez; Krishna Kumar Bhuwalka; Richard Kenneth Oxland; Martin Christopher Holland; Yee-Chaung See; Matthias Passlack

Archive | 2016