Memristors have been proposed for a number of applications from nonvolatile memory to neuromorphic systems. Unlike conventional devices based solely on electron transport, memristors operate on the principle of resistive switching (RS) based on redistribution of ions. To date, a number of experimental and modeling studies have been reported to probe the RS mechanism; however, a complete physical picture that can quantitatively describe the dynamic RS behavior is still missing. Here, we present a quantitative and accurate dynamic switching model that not only fully accounts for the rich RS behaviors in memristors in a unified framework but also provides critical insight for continued device design, optimization, and applications. The propos...
As conventional memory concepts are approaching their physical scaling limits, novel memory device c...
Resistive random-access memory (RRAM) is essential for developing neuromorphic devices, and it is st...
The demand for energy-efficient, fast, and small electronic memories is steadily rising in today's i...
Memristive devices are two-terminal devices that can change their resistance state upon application ...
Developing highly accurate and predictive models of redox-based memristive devices is highly importa...
The memristor and selector devices are the most promising candidates in the research of emerging mem...
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...
The memristor represents the key circuit element for the development of the constitutive blocks of f...
This review addresses resistive switching devices operating according to the bipolar valence change ...
Resistive random-access memory (RRAM) devices have attracted broad interest as promising building bl...
An oxide memristor device changes its internal state according to the history of the applied voltage...
In neuromorphic computing, memristors (or “memory resistors”) have been primarily studied as key ele...
A unified model is proposed to elucidate the resistive switching behavior of metal-oxide-based resis...
Memristive devices are an emerging technology that enables both rich interdisciplinary science and n...
As conventional memory concepts are approaching their physical scaling limits, novel memory device c...
Resistive random-access memory (RRAM) is essential for developing neuromorphic devices, and it is st...
The demand for energy-efficient, fast, and small electronic memories is steadily rising in today's i...
Memristive devices are two-terminal devices that can change their resistance state upon application ...
Developing highly accurate and predictive models of redox-based memristive devices is highly importa...
The memristor and selector devices are the most promising candidates in the research of emerging mem...
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...
The memristor represents the key circuit element for the development of the constitutive blocks of f...
This review addresses resistive switching devices operating according to the bipolar valence change ...
Resistive random-access memory (RRAM) devices have attracted broad interest as promising building bl...
An oxide memristor device changes its internal state according to the history of the applied voltage...
In neuromorphic computing, memristors (or “memory resistors”) have been primarily studied as key ele...
A unified model is proposed to elucidate the resistive switching behavior of metal-oxide-based resis...
Memristive devices are an emerging technology that enables both rich interdisciplinary science and n...
As conventional memory concepts are approaching their physical scaling limits, novel memory device c...
Resistive random-access memory (RRAM) is essential for developing neuromorphic devices, and it is st...
The demand for energy-efficient, fast, and small electronic memories is steadily rising in today's i...