Deep electron traps in HfO2-based metal-oxide-semiconductor capacitors

SALOMONE, L. SAMBUCO; LIPOVETZKY, J.; CARBONETTO, S.H.; GARCÍA INZA, M.A.; REDIN, E.G.; CAMPABADAL, F.; FAIGÓN, A.

THIN SOLID FILMS

ELSEVIER SCIENCE SA

Año: 2016 vol. 600 p. 36 - 42

0040-6090

Hafnium oxide (HfO2) is currently considered to be a good candidate to take part as a component in charge-trapping nonvolatile memories. In this work, the electric field and time dependences of the electron trapping/detrapping processes are studied through a constant capacitance voltage transient technique on metal-oxide-semiconductor capacitors with atomic layer deposited HfO2 as insulating layer. A tunneling-based model is proposed to reproduce the experimental results, obtaining fair agreement between experiments and simulations. From the fitting procedure, a band of defects is identified, located in the first 1.7 nm from the Si/HfO2 interface at an energy level Et = 1.59 eV below the HfO2 conduction band edge with density Nt = 1.36 × 1019 cm- 3. A simplified analytical version of the model is proposed in order to ease the fitting procedure for the low applied voltage case considered in this work.