Synergic Impacts of CF₄ Plasma Treatment and Post-thermal Annealing on the Nonvolatile Memory Performance of Charge-Trap-Assisted Memory Thin-Film Transistors Using Al–HfO₂ Charge Trap and In–Ga–Zn–O Active Channel Layers

Abstract: Charge-trap-assisted memory thin-film transistors (CTM-TFTs) using the engineered Al-doped HfO 2 (Al:HfO 2 ) CTL and In−Ga−Zn−O channel were fabricated and characterized to investigate the effects of CTL engineering processes including Al doping, CF 4 plasma treatment, and thermal annealing on nonvolatile memory performances. The CTM-TFTs using the Al:HfO 2 CTL treated with CF 4 plasma and postannealing (A4) exhibited a wider memory window of 13.0 V with a gate voltage sweep range of ±20 V and a higher program… Show more

“…To highlight the benefits of the memory device proposed in this research, a comparative analysis was conducted against a reference model composed of layers of 5 nm HfZrO/20 nm SiN/30 nm HfZrO. Silicon nitride (SiN) was chosen due to its proven efficacy as a charge trapping material in charge trap memory (CTM) applications [2,23]. As depicted in Figure 5b, experimental evidence supports that our proposed configuration either matches or exceeds the reference model in terms of functional performance.…”

Uniform Oxide Layer Integration in Amorphous IGZO Thin Film Transistors for Enhanced Multilevel-Cell NAND Memory Performance

“…To highlight the benefits of the memory device proposed in this research, a comparative analysis was conducted against a reference model composed of layers of 5 nm HfZrO/20 nm SiN/30 nm HfZrO. Silicon nitride (SiN) was chosen due to its proven efficacy as a charge trapping material in charge trap memory (CTM) applications [2,23]. As depicted in Figure 5b, experimental evidence supports that our proposed configuration either matches or exceeds the reference model in terms of functional performance.…”

Uniform Oxide Layer Integration in Amorphous IGZO Thin Film Transistors for Enhanced Multilevel-Cell NAND Memory Performance

The Reliability Impact of Bi Doping on the HfO2 Charge-Trapping Layer: A First-Principles Study

A comparative study of thin-film transistors based on mist-CVD deposited InAlZnO with different Al contents