Incorporating yttrium into a GeO interfacial layer with HfO2-based gate stack on Ge

Chen-Han Chou, Yu Hong Lu, Yi He Tsai, An Shih Shih, Wen Kuan Yeh, Chao Hsin Chien*


研究成果: Article同行評審

7 引文 斯高帕斯(Scopus)


In this study, we employed the electrical and material properties of various interfacial layers (ILs) such as GeO and YGeO on a Ge substrate. First, capacitors using various ILs with HfO2-based gate stacks were developed. The capacitor using YGeO IL exhibited a low interface state density (Dit) of 2.5 × 1011 eV-1cm-2 and an equivalent oxide thickness of 1.8 nm. Next, a reliability test for constant voltage stress was conducted for further studying the YGeO ILs. The capacitors with YGeO ILs presented higher immunity for Dit degradation. Further, to understand the material properties of various ILs, a simple experiment on capping a Si chip on GeO or YGeO/Ge samples through high-temperature annealing was conducted. We observed that Ge and GeO vapors can be absorbed by Si and detected through X-ray photoelectron spectroscopy (XPS). XPS spectra of Si chips capped on GeO IL presented obvious features of Ge and GeO through annealing at 500°C; however, the XPS spectra of Si chips capped on YGeO IL presented no features, indicating that YGeO ILs had higher thermal stability than GeO ILs. To further analyze the HfO2-based gate stacks with various ILs, Ge diffusion into a high-κ HfO2 layer was investigated through angle-resolved XPS. We observed that YGeO ILs with HfO2-based gate stacks can reduce Ge diffusion into a HfO2 layer.

頁(從 - 到)N15-N19
期刊ECS Journal of Solid State Science and Technology
出版狀態Published - 19 1月 2018


深入研究「Incorporating yttrium into a GeO interfacial layer with HfO2-based gate stack on Ge」主題。共同形成了獨特的指紋。