TY - JOUR
T1 - Tuning Polarity in WSe2/AlScN FeFETs via Contact Engineering
AU - Kim, Kwan Ho
AU - Song, Seunguk
AU - Kim, Bumho
AU - Musavigharavi, Pariasadat
AU - Trainor, Nicholas
AU - Katti, Keshava
AU - Chen, Chen
AU - Kumari, Shalini
AU - Zheng, Jeffrey
AU - Redwing, Joan M.
AU - Stach, Eric A.
AU - Olsson, Roy H.
AU - Jariwala, Deep
N1 - Publisher Copyright:
© 2024 American Chemical Society.
PY - 2024/2/6
Y1 - 2024/2/6
N2 - Recent advancements in ferroelectric field-effect transistors (FeFETs) using two-dimensional (2D) semiconductor channels and ferroelectric Al0.68Sc0.32N (AlScN) allow high-performance nonvolatile devices with exceptional ON-state currents, large ON/OFF current ratios, and large memory windows (MW). However, previous studies have solely focused on n-type FeFETs, leaving a crucial gap in the development of p-type and ambipolar FeFETs, which are essential for expanding their applicability to a wide range of circuit-level applications. Here, we present a comprehensive demonstration of n-type, p-type, and ambipolar FeFETs on an array scale using AlScN and multilayer/monolayer WSe2. The dominant injected carrier type is modulated through contact engineering at the metal-semiconductor junction, resulting in the realization of all three types of FeFETs. The effect of contact engineering on the carrier injection is further investigated through technology-computer-aided design simulations. Moreover, our 2D WSe2/AlScN FeFETs achieve high electron and hole current densities of ∼20 and ∼10 μA/μm, respectively, with a high ON/OFF ratio surpassing ∼107 and a large MW of >6 V (0.14 V/nm).
AB - Recent advancements in ferroelectric field-effect transistors (FeFETs) using two-dimensional (2D) semiconductor channels and ferroelectric Al0.68Sc0.32N (AlScN) allow high-performance nonvolatile devices with exceptional ON-state currents, large ON/OFF current ratios, and large memory windows (MW). However, previous studies have solely focused on n-type FeFETs, leaving a crucial gap in the development of p-type and ambipolar FeFETs, which are essential for expanding their applicability to a wide range of circuit-level applications. Here, we present a comprehensive demonstration of n-type, p-type, and ambipolar FeFETs on an array scale using AlScN and multilayer/monolayer WSe2. The dominant injected carrier type is modulated through contact engineering at the metal-semiconductor junction, resulting in the realization of all three types of FeFETs. The effect of contact engineering on the carrier injection is further investigated through technology-computer-aided design simulations. Moreover, our 2D WSe2/AlScN FeFETs achieve high electron and hole current densities of ∼20 and ∼10 μA/μm, respectively, with a high ON/OFF ratio surpassing ∼107 and a large MW of >6 V (0.14 V/nm).
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U2 - 10.1021/acsnano.3c09279
DO - 10.1021/acsnano.3c09279
M3 - Article
C2 - 38271989
AN - SCOPUS:85184295031
SN - 1936-0851
VL - 18
SP - 4180
EP - 4188
JO - ACS nano
JF - ACS nano
IS - 5
ER -