Oct 15, 2020 · A planar zigzag-structured nitrogen-doped picene is successfully constructed as the active layer to obtain resistive switching memory devices.

A planar zigzag‐type nitrogen‐doped picene is constructed for nonvolatile flexible memory, which exhibits robust electrical reliability and mechanical stability ...

Experimental and theoretical analysis indicate that the Zn ion could play a vital bridge role in promoting the formation and stabilization of charge ...

The wearable information storage devices have aroused particular attention due to their great promise in smart electronics and healthcare service.

Li Y. et al. Nonvolatile Flexible Memory Based on a Planar Zigzag‐Type Nitrogen‐Doped Picene // Advanced Intelligent Systems. 2020. Vol. 2. No. 12. p. 2000155.

PUMA · Nonvolatile Flexible Memory Based on a Planar Zigzag-Type Nitrogen-Doped Picene.

A planar zigzag‐type nitrogen‐doped picene is constructed for nonvolatile flexible memory, which exhibits robust electrical reliability and mechanical stability ...

Oct 14, 2019 · Here, we reported a redox-gated nonvolatile rewritable memory device using an organometallic small molecule as an active material. By ...

Nonvolatile Flexible Memory Based on a Planar Zigzag-Type Nitrogen-Doped Picene. Adv. Intell. Syst. 2(12): 2000155 (2020). Coauthor Index. FAQ. see FAQ. What is ...

Nonvolatile flexible memory based on a planar zigzag-type nitrogen-doped picene. Adv. Intell. Syst. 2020, 2, 2000155. [Google Scholar] [CrossRef]; Zhao, J ...