Passa al contenuto
Merck
  • Upgrading Electroresistive Memory from Binary to Ternary Through Single-Atom Substitution in the Molecular Design.

Upgrading Electroresistive Memory from Binary to Ternary Through Single-Atom Substitution in the Molecular Design.

Chemistry, an Asian journal (2016-10-27)
Xue-Feng Cheng, Er-Bo Shi, Xiang Hou, Shu-Gang Xia, Jing-Hui He, Qing-Feng Xu, Hua Li, Na-Jun Li, Dong-Yun Chen, Jian-Mei Lu
ABSTRACT

Herein, two molecules based on urea and thiourea, which differ by only a single atom, were designed, successfully synthesized, and fabricated into resistive random-access memory devices (RRAM). The urea-based molecule showed binary write-once-read-many (WORM) storage behavior, whereas the thiourea-based molecule demonstrated ternary storage behavior. Atomic-force microscopy (AFM) and X-ray diffraction (XRD) patterns show that both molecules have smooth morphology and ordered layer-by-layer lamellar packing, which is beneficial for charge transportation and, consequently, device performance. Additionally, the optical and electrochemical properties indicate that the thiourea-based molecule has a lower bandgap and may be polarized by trapped charges, thus the formation of a continuous conductive channel and electric switching occurs at lower bias voltage, which results in ternary WORM behavior. This study, together with our previous work on single-atom substitution, may be useful to tune and improve device performance in the future design of organic memory.

MATERIALI
N° Catalogo
Marchio
Descrizione del prodotto

Sigma-Aldrich
4-Cyanophenyl isocyanate, 97%