Interface reactions at TiN/HfSiON gate stacks: Dependence on the electrode structure and deposition method

Abstract: We systematically investigated intrinsic and extrinsic thermal reactions at TiN/HfSiON gate stacks. The formation of an ultrathin TiO2 interlayer was found to be an intrinsic reaction at the metal/insulator interface, but growth of SiO2 underlayers between HfSiON and Si substrates, which determines the electrical thickness of metal-oxide-semiconductor (MOS) devices, depends on the structure and deposition method of the gate electrodes. Physical vapor deposition (PVD) grown TiN electrodes covered with W overlayers exhibited excellent thermal stability at up to 1000°C. Formation of ultrathin TiO2 interlayers reduced gate leakage current (I g), and growth of the oxide underlayer was suppressed by less than a few angstroms even for 1000°C annealing. In contrast, we found that halogen impurities within CVD-grown metal electrodes enhance interface SiO2 growth, resulting in deterioration of equivalent oxide thickness (EOT) versus I g characteristics of the gate stacks. [Copyright &y& Elsevier]