Choi, Su-Hwan Sim, Jae-Min Shin, Jeongmin Ryu, Seong-Hwan Hwang, Taewon Lim, So Young Oh, Hye-Jin Kwag, Jae-Hyeok Lee, Jun-Yeoub Song, Ki-Cheol Lee, Yeonhee Song, Minju Kim, Junghwan Park, Chang-Kyun Song, Yun-Heub Park, Jin-Seong 2025-01-20T02:00:44Z 2025-01-20T02:00:44Z 2025-01-17 2025-05 https://pubs.kist.re.kr/handle/201004/151608 Oxide semiconductors (OSs) are promising materials for NAND flash memory, offering the advantages of high field-effect mobility and superior large-area uniformity but suffering from low thermal stability, trade-off between mobility and stability, and the impossibility of the erase operation. To address these drawbacks, herein a hybrid-channel structure comprising heterostacked poly-Si and In-Ga-O (IGO) is developed. IGO is used as the main channel to achieve thermal stability above 800 degrees C, and the fabrication process is optimized to achieve superior electrical properties (mu FE = 103.66 cm2 V-1 s-1, subtreshold swing = 96 mV decade-1) and reliability (0.07 V positive shift during the positive bias temperature stress of 3 MV cm-1 at 100 degrees C for almost 3 h). Poly-Si is used to generate the gate-induced drain leakage current and enable the erase operation. The developed structure is used to fabricate 2D planar and three-layer stacked 3D NAND flash memories. The superior electrical properties (mu FE = 116.08 cm2 V-1 s-1, Ion = 4.73 mu A mu m-1) and deviations of the hybrid-channel NAND memory are comparable with those of its OS-channel counterpart. The use of the hybrid-channel structure in the NAND memories enables the realization of the erase operation with a large memory window (approximate to 3.60 V). English WILEY Unveiling the Hybrid-Channel (poly-Si/IGO) Structure for 3D NAND Flash Memory for Improving the Cell Current and GIDL-Assisted Erase Operation Article 10.1002/sstr.202400495 1 Small Structures, v.6, no.5 Small Structures 6 5 Y scie scopus 001382768900001 2-s2.0-85212924345 Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary Chemistry Science & Technology - Other Topics Materials Science Article ELECTRON THIN-FILM TRANSISTORS SI FILMS OXIDE MOBILITY PERFORMANCE THRESHOLD atomic layer deposition crystallinity gate-induced drain leakage erase operation hybrid channel (poly-Si/In-Ga-O) 3D NAND flash memories