TY - JOUR
TI - The Role of Interface Defect States in n- and p-Type Ge Metal–Ferroelectric–Semiconductor Structures with Hf0.5Zr0.5O2 Ferroelectric
AU - Boni, G.A.
AU - Istrate, C.M.
AU - Zacharaki, C.
AU - Tsipas, P.
AU - Chaitoglou, S.
AU - Evangelou, E.K.
AU - Dimoulas, A.
AU - Pintilie, I.
AU - Pintilie, L.
JO - Physica Status Solidi (A) - Applications and Materials Science
PY - 2021
VL - 218
TODO - 4
SP - null
PB - Wiley-VCH Verlag
SN - 1862-6300, 1862-6319
TODO - 10.1002/pssa.202000500
TODO - Defects;  Ferroelectricity;  Field effect transistors;  Hafnium oxides;  Iron compounds;  Semiconducting germanium;  Semiconductor doping;  Substrates;  Zirconium compounds, Ferroelectric field effect transistors;  Ferroelectric property;  Interface defect state;  Interface defects;  Non-volatile memory application;  Occupation probability;  Semiconductor industry;  Semiconductor structure, Interface states
TODO - The discovery of ferroelectricity in doped HfO2 represents an excellent opportunity to overcome the obstacles in manufacturing reliable ferroelectric field effect transistors (FeFET) for nonvolatile memory applications, considering that HfO2 is compatible with Si and Ge and it is already used in semiconductor industry. The presence of interface defects may have detrimental effects on the operation of FeFETs, so their role is systematically investigated in this study in correlation with the substrate doping. Metal–ferroelectric–semiconductor (MFS) structures are fabricated by depositing Hf0.5Zr0.5O2 (HZO) layers on n-type Ge substrate. Their electric properties are compared with those of MFS structures obtained by depositing HZO on p-type Ge, to study the influence of the doping. It is found that, although the ferroelectric properties of HZO are similar, the capacitance and impedance of the MFS structures behave differently. For n-Ge, the occupation probability of a large number of low-lying interface defect acceptor states, charges the interface negatively which adversely affects the C–V response of the MFS, albeit without harming the ferroelectric (P–V) hysteresis. Although the interface defects do not harm ferroelectricity, they could inhibit inversion in p-type Ge or accumulation in n-type Ge so they should be taken into account when designing Ge FeFET devices. © 2021 Wiley-VCH GmbH
ER -