TY - JOUR
AU - De Gendt, Stefan
AB - The downscaling of high-/metal gate transistor devices requires thin-film deposition processes that deliver not only an outstanding high- oxide quality, but also a strict interfacial oxide thickness control in the sub-1 nm thickness range. To study the impact of atomic layer deposition (ALD) process conditions and chemistry on the  quality and interfacial oxide thickness, we have used tetrakis[ethylmethylamino]hafnium (TEMAH) as a metal precursor and  and  as oxidants. The deposition temperature ranged from 285 up to , where TEMAH decomposition plays a role in the growth mechanism. Physical characterization and Pt dot capacitor devices have been used to study the impact of the oxidant and process conditions on the equivalent oxide thickness and gate leakage current of 2–4 nm thin  films. By combining X-ray reflectometry and ellipsometry, we evaluated the Si/high- interfacial oxide layer thickness. Time-of-flight secondary-ion mass spectroscopy was used to determine the C impurity levels. Both the interfacial oxide layer thickness and the C impurity level in the  stacks are strongly dependent on the oxidant. The temperature dependence of the C impurity level is opposite for  and . Furthermore,  regrowth was found for the  process.
TI - Impact of Precursor Chemistry and Process Conditions  on the Scalability of ALD  HfO2 Gate Dielectrics
JF - Journal of the Electrochemical Society
DO - 10.1149/1.3258664
DA - 2009-11-20
UR - https://www.deepdyve.com/lp/iop-publishing/impact-of-precursor-chemistry-and-process-conditions-on-the-rcJvWv9GBm
SP - G26
EP - G31
VL - 157
IS - 1
DP - DeepDyve
ER -