Title :
Nanofloating Gate Memory Devices Based on Controlled Metallic Nanoparticle-Embedded InGaZnO TFTs
Author :
Park, Young-Su ; Lee, Sang Yeol ; Lee, Jang-Sik
Author_Institution :
Sch. of Adv. Mater. Eng., Kookmin Univ., Seoul, South Korea
Abstract :
In this letter, InGaZnO thin-film transistor (bottom-gate (n+ Si) and top-contact structure)-based nanofloating gate memory devices were developed. These nonvolatile transistor memory devices contained self-assembled gold nanoparticles (AuNP) and exhibited good programmable memory characteristics according to the programming/erasing operations with large memory windows. The charge trapping in the AuNP charge storage layers was responsible for the memory operations. The good endurance and data retention capability demonstrated by these memory devices make them suitable for nonvolatile memory applications. As this approach was based on the solution-processed controlled AuNP charge trapping layers and the low-temperature synthesized transparent oxide semiconductors, it has the potential for application in low-temperature-processed transparent nonvolatile memory devices.
Keywords :
gallium compounds; indium compounds; nanoelectronics; nanoparticles; random-access storage; thin film transistors; zinc compounds; AuNP charge storage; InGaZnO; charge trapping layers; controlled metallic nanoparticle-embedded InGaZnO TFT; data retention capability; low-temperature synthesized transparent oxide semiconductors; low-temperature-processed transparent nonvolatile memory devices; nonvolatile transistor memory devices; programmable memory characteristics; self-assembled gold nanoparticles; thin-film transistor; top contact nanofloating gate memory devices; Charge carrier processes; Logic gates; Nonvolatile memory; Sputtering; Temperature measurement; Thin film transistors; IGZO TFTs; metallic nanoparticles; nonvolatile memory; thin-film transistors (TFTs);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2010.2063013
