Memristive nanoscale devices can generate intense fields by the application of relatively low voltages. This peculiar property allows fast, nonvolatile, and low-energy electrical switching as well as the possibility of retaining the internal resistance state according to the history of applied voltage and current. Memristors are predicted to revolutionize the current approaches in computer electronic architecture with their application, for instance, as resistive random access memory and for neuromorphic artificial intelligence. The use of graphene nanostructures for memristive switching systems offers an exciting alternative to other classes of materials, such as transition metal oxide and organic thin film
We report unipolar resistive switching in ultrathin films of chemically produced graphene (reduced g...
Electrically insulating graphene oxide with various oxygen-functional groups is a novel material as ...
Resistive-switching memories are alternative to Si-based ones, which face scaling and high power con...
Memristive nanoscale devices can generate intense fields by the application of relatively low voltag...
Memristive logic-in-memory circuits can provide energy- and cost-efficient computing, which is essen...
A memristor is the memory extension to the concept of resistor. With unique superior properties, mem...
Graphene's superlative electrical and mechanical properties, combined with its compatibility with ex...
Memristors with rich interior dynamics of ion migration are promising for mimicking various biologic...
Abstract Artificial Intelligence (AI) at the edge has become a hot subject of the recent technology-...
This report is the first demonstration of the fabrication of a two-dimensional (2D) nanohybrid-based...
Graphene and related materials (GRMs) are promising candidates for the fabrication of resistive rand...
A resistive switching memory device with SnO2 nanoparticles embedded in a biphenyl-tertracarboxylic ...
Graphene and related materials (GRMs) are promising candidates for the fabrication of resistive rand...
With the ever-increasing demand for low power electronics, neuromorphic computing has garnered huge ...
We report on the development and characterization of a simple two-terminal non-volatile graphene swi...
We report unipolar resistive switching in ultrathin films of chemically produced graphene (reduced g...
Electrically insulating graphene oxide with various oxygen-functional groups is a novel material as ...
Resistive-switching memories are alternative to Si-based ones, which face scaling and high power con...
Memristive nanoscale devices can generate intense fields by the application of relatively low voltag...
Memristive logic-in-memory circuits can provide energy- and cost-efficient computing, which is essen...
A memristor is the memory extension to the concept of resistor. With unique superior properties, mem...
Graphene's superlative electrical and mechanical properties, combined with its compatibility with ex...
Memristors with rich interior dynamics of ion migration are promising for mimicking various biologic...
Abstract Artificial Intelligence (AI) at the edge has become a hot subject of the recent technology-...
This report is the first demonstration of the fabrication of a two-dimensional (2D) nanohybrid-based...
Graphene and related materials (GRMs) are promising candidates for the fabrication of resistive rand...
A resistive switching memory device with SnO2 nanoparticles embedded in a biphenyl-tertracarboxylic ...
Graphene and related materials (GRMs) are promising candidates for the fabrication of resistive rand...
With the ever-increasing demand for low power electronics, neuromorphic computing has garnered huge ...
We report on the development and characterization of a simple two-terminal non-volatile graphene swi...
We report unipolar resistive switching in ultrathin films of chemically produced graphene (reduced g...
Electrically insulating graphene oxide with various oxygen-functional groups is a novel material as ...
Resistive-switching memories are alternative to Si-based ones, which face scaling and high power con...