A new technical paper titled “Demonstration of Vertically Stacked ZnO/Te Complementary Field-Effect Transistor” was published by researchers at POSTECH and Mokpo National University.
Abstract
“The complementary field-effect transistor (CFET) structure is a highly area-efficient technology. However, their fabrication entails highly complex integration processes using wafer transfer or recrystallization, which has been limiting further development. In this paper, an alternative method is proposed to realize CFETs using p-type tellurium (Te) (for the lower-level channel) and n-type zinc oxide (ZnO) (for the upper-level channel). Te and ZnO are directly deposited on a 30 × 30 mm2 SiO2/Silicon substrate, using a considerably low-temperature fabrication process (<150 °C). The lower p-type channel exhibits superior mobility exceeding 10 cm2 V−1 s−1 even after the integration of the entire CFET process. The CFET inverter demonstrates a voltage gain >51 at VDD = 4 V and noise margins of 0.36 and 0.45 V at VDD = 1 V. Using the same integration process, functional NAND and NOR logic gates are successfully demonstrated in the vertically integrated CFET structure. The proposed ZnO/Te CFET can be a promising device technology, particularly for 3D and heterojunction integration requiring a low thermal budget.”
Find the technical paper here. April 2025.
Kim, Kiyung, Minjae Kim, Yongsu Lee, Hae‐Won Lee, Jae Hyeon Jun, Jun‐Hyeok Choi, Seongbeen Yoon, Hyeon‐Jun Hwang, and Byoung Hun Lee. “Demonstration of Vertically Stacked ZnO/Te Complementary Field‐Effect Transistor.” Advanced Electronic Materials (2025): 2500031.
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