Add to ORKGThe realization of adaptive oxides for neuromorphic computing hinges on repeatable and predicable analog changes of electrical resistance, which is fundamentally controlled by the materials in and around the device. This work focuses on filamentary memristors which exhibit a non-volatile change in resistance by modulating the concentration of oxygen vacancies within a small (filamentary) region of an otherwise insulating oxide layer in a metal-insulator-metal (MIM) stack. Under an applied electric field, these devices experience localized temperature rises over 1000 K on picosecond timescales, with drift, diffusion, and thermophoresis causing the migration of oxygen ions and oxygen vacancies. All three of these mechanisms have a strong depe...
An in-depth analysis including both simulation and experimental characterization of resistive random...
In the present work, the effect of reset voltage, filament radius, filament resistivity, and oxide m...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
Memristors are considered as one of the promising candidates for next-generation computation and sto...
In this paper, we report the effect of filament radius and filament resistivity on the ZnO, TiO2, WO...
A methodology to estimate the device temperature in resistive random access memories (RRAMs) is pre...
At the beginning of the 21st century, the quest for finding ever more power efficient, densely packe...
We present data on the filament size and temperature distribution in Hf<sub>0.82</sub>Al<sub>0.18</s...
Hafnium oxide (HfOx)-based memristive devices have tremendous potential as nonvolatile resistive ran...
Resistive random access memory (RRAM) devices represent promising candidates for emerging non-volati...
Hafina based resistive random access memory (RRAM), also known as memristors, are promis...
Resistive random access memory (RRAM) is the most promising candidate for non-volatile memory (NVM) ...
Memristive devices have led to an increased interest in neuromorphic systems. However, different dev...
HfO2 nanostructures are currently considered to be very promising for different applications includ...
The physical principle of redox based resistive switching memory cells is based on ionic and electro...
An in-depth analysis including both simulation and experimental characterization of resistive random...
In the present work, the effect of reset voltage, filament radius, filament resistivity, and oxide m...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
Memristors are considered as one of the promising candidates for next-generation computation and sto...
In this paper, we report the effect of filament radius and filament resistivity on the ZnO, TiO2, WO...
A methodology to estimate the device temperature in resistive random access memories (RRAMs) is pre...
At the beginning of the 21st century, the quest for finding ever more power efficient, densely packe...
We present data on the filament size and temperature distribution in Hf<sub>0.82</sub>Al<sub>0.18</s...
Hafnium oxide (HfOx)-based memristive devices have tremendous potential as nonvolatile resistive ran...
Resistive random access memory (RRAM) devices represent promising candidates for emerging non-volati...
Hafina based resistive random access memory (RRAM), also known as memristors, are promis...
Resistive random access memory (RRAM) is the most promising candidate for non-volatile memory (NVM) ...
Memristive devices have led to an increased interest in neuromorphic systems. However, different dev...
HfO2 nanostructures are currently considered to be very promising for different applications includ...
The physical principle of redox based resistive switching memory cells is based on ionic and electro...
An in-depth analysis including both simulation and experimental characterization of resistive random...
In the present work, the effect of reset voltage, filament radius, filament resistivity, and oxide m...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...