Add to ORKGWe demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nanowire (NW) FET where the NW channel is coated with FE nanoparticles. A single device exhibits excellent memory characteristics with the large modulation in channel conductance between ON and OFF states exceeding 10(4), a long retention time of over 4 × 10(4) s, and multibit memory storage ability. Our findings provide a viable way to create new functional high-density nonvolatile memory devices compatible with simple processing techniques at low temperature for flexible devices made on plastic substrates
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
\u3cp\u3eFerroelectric materials are important components of sensors, actuators and non-volatile mem...
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
We demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nan...
We demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nan...
We demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nan...
We demonstrated the nonvolatile memory functionality of ZnO nanowire field effect transistors (FETs)...
We successfully fabricated ferroelectric-gate field effect transistor (FEFET)-based nonvolatile memo...
We successfully fabricated ferroelectric-gate field effect transistor (FEFET)-based nonvolatile memo...
In this study, non-volatile memory effect was characterized using the single-transistor-based memory...
The resistive switching behavior of metal-oxide-metal nanoscale devices is a fascinating phenomenon ...
A mixture of ZnO nanoparticles and polymethylmethacrylate was used as an active layer in a nonvolati...
We demonstrate nonvolatile resistive switching in single crystalline ZnO nanowires with high ON/OFF ...
Additional resources and features associated with this article are available within the HTML version
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
\u3cp\u3eFerroelectric materials are important components of sensors, actuators and non-volatile mem...
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
We demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nan...
We demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nan...
We demonstrate a room temperature processed ferroelectric (FE) nonvolatile memory based on a ZnO nan...
We demonstrated the nonvolatile memory functionality of ZnO nanowire field effect transistors (FETs)...
We successfully fabricated ferroelectric-gate field effect transistor (FEFET)-based nonvolatile memo...
We successfully fabricated ferroelectric-gate field effect transistor (FEFET)-based nonvolatile memo...
In this study, non-volatile memory effect was characterized using the single-transistor-based memory...
The resistive switching behavior of metal-oxide-metal nanoscale devices is a fascinating phenomenon ...
A mixture of ZnO nanoparticles and polymethylmethacrylate was used as an active layer in a nonvolati...
We demonstrate nonvolatile resistive switching in single crystalline ZnO nanowires with high ON/OFF ...
Additional resources and features associated with this article are available within the HTML version
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...
\u3cp\u3eFerroelectric materials are important components of sensors, actuators and non-volatile mem...
A memory functionality is a prerequisite for many applications of electronic devices. Organic nonvol...