Title :
Flexible Nano-Floating-Gate Memory With Channels of Enhancement-Mode Si Nanowires
Author :
Jeon, Youngin ; Myeongwon Lee ; Moon, Taeho ; Kim, Sangsig
Author_Institution :
Dept. of Electr. Eng., Korea Univ., Seoul, South Korea
Abstract :
The electrical characteristics of a flexible nano-floating-gate memory (NFGM) device with a channel made of an enhancement-mode n+-p-n+ Si nanowire (Si-NW) are investigated in this work. The NFGM based on the enhancement-mode Si-NW field-effect transistor is constructed on a plastic substrate with a Pt-nanocrystal floating-gate layer; it exhibits an on-current/off-current ratio of ~107 and a subthreshold swing of 88 mV/dec. The NFGM shows good memory characteristics and mechanical flexibility, such as a threshold voltage shift of 1.85 V, a retention time of up to ~104s, and a stability for up to 1000 bending cycles. The present study demonstrates the promising potential of flexible Si-NW-based nonvolatile memories for future electronics.
Keywords :
flexible electronics; logic gates; nanowires; semiconductor storage; NFGM device; Pt-nanocrystal floating-gate layer; enhancement-mode Si-NW field-effect transistor; enhancement-mode n+-p-n+ Si nanowire; flexible Si-NW-based nonvolatile memories; flexible nano-floating-gate memory; on-current/off-current ratio; plastic substrate; Logic gates; Nanowires; Nonvolatile memory; Plastics; Programming; Silicon; Substrates; Field-effect transistor (FET); Pt; memory; nanocrystal (NC); nonvolatile; plastic substrate; silicon-nanowire (Si-NW) array; top-down approach;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2012.2211879
