Memristors have emerged as transformative devices to enable neuromorphic and in‐memory computing, where success requires the identification and development of materials that can overcome challenges in retention and device variability. Here, high‐entropy oxide composed of Zr, Hf, Nb, Ta, Mo, and W oxides is first demonstrated as a switching material for valence change memory. This multielement oxide material provides uniform distribution and higher concentration of oxygen vacancies, limiting the stochastic behavior in resistive switching. (Zr, Hf, Nb, Ta, Mo, W) high‐entropy‐oxide‐based memristors manifest the “cocktail effect,” exhibiting comparable retention with HfO2‐ or Ta2O5‐based memristors while also demonstrating the gradual conducta...
We demonstrate over 1×1010 open-loop switching cycles from a simple memristive device stack of Pt/Ta...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
The investigation of new memory schemes, neural networks, computer systems and many other improved e...
Memristive devices are promising candidates for the next generation non-volatile memory and neuromor...
Memristive devices have attracted tremendous interests because of their highly desirable properties ...
The development of novel materials with coexisting volatile threshold and non-volatile memristive sw...
Memristor,the forth fundamental circuit element, has opened new phase in the realm of thin film semi...
Memristive devices with analog resistive switching characteristics are widely investigated nowadays ...
Inspired by the superb efficiency of biological systems, solid-state neural network systems have att...
The metal-oxide- semiconductor technology (CMOS) has already reached its limits in terms of scaling,...
Reproducible low bias bipolar resistive switching memory in HfZnOx based memristors is reported. The...
This thesis studied an emerging electronic device, the memristor, to gain a fundamental understandin...
To implement artificial neural networks (ANNs) based on memristor devices, it is essential to secure...
The persistent and switchable polarization of ferroelectric materials based on HfO2-based ferroelect...
Hafnium oxide (HfOx)-based memristive devices have tremendous potential as nonvolatile resistive ran...
We demonstrate over 1×1010 open-loop switching cycles from a simple memristive device stack of Pt/Ta...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
The investigation of new memory schemes, neural networks, computer systems and many other improved e...
Memristive devices are promising candidates for the next generation non-volatile memory and neuromor...
Memristive devices have attracted tremendous interests because of their highly desirable properties ...
The development of novel materials with coexisting volatile threshold and non-volatile memristive sw...
Memristor,the forth fundamental circuit element, has opened new phase in the realm of thin film semi...
Memristive devices with analog resistive switching characteristics are widely investigated nowadays ...
Inspired by the superb efficiency of biological systems, solid-state neural network systems have att...
The metal-oxide- semiconductor technology (CMOS) has already reached its limits in terms of scaling,...
Reproducible low bias bipolar resistive switching memory in HfZnOx based memristors is reported. The...
This thesis studied an emerging electronic device, the memristor, to gain a fundamental understandin...
To implement artificial neural networks (ANNs) based on memristor devices, it is essential to secure...
The persistent and switchable polarization of ferroelectric materials based on HfO2-based ferroelect...
Hafnium oxide (HfOx)-based memristive devices have tremendous potential as nonvolatile resistive ran...
We demonstrate over 1×1010 open-loop switching cycles from a simple memristive device stack of Pt/Ta...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
The investigation of new memory schemes, neural networks, computer systems and many other improved e...