\u3cp\u3eOrganic molecules and semiconductors have been proposed as active part of a large variety of nonvolatile memory devices, including resistors, diodes and transistors. In this review, we focus on electrically reprogrammable nonvolatile memories. We classify several possible devices according to their operation principle and critically review the role of the π-conjugated materials in the device operation. We propose specifications for applications for organic nonvolatile memory and review the state of the art with respect to these target specifications. Conclusions are drawn regarding further work on materials and device architectures.\u3c/p\u3
We demonstrate the modification of the memory effect in organic memory devices by adjusting the thic...
Recently, organic nonvolatile memory devices have attracted considerable attention due to their low ...
The performance of redox-gated organic nonvolatile memory (NVM) based on conducting polymers was inv...
Organic molecules and semiconductors have been proposed as active part of a large variety of nonvola...
The possibility of developing fully organic electronic circuits is critically dependent on the abili...
Abstract– – In this paper the ongoing research and development activities on future nonvolatile memo...
We report for the first time organic n-type nonvolatile memory transistors based on a fullerene (C_)...
The primary aim in the memory devices is to produce structures that exhibit two distinct states when...
This review summarizes the most widely used mechanisms in memory devices based on conjugated polymer...
Resistive switching in nonvolatile, two terminal organic memories can be due to the presence of a na...
The organic resistance memories are promising for future flexible applications.In this paper the mai...
We found novel organic charge-transfer salts that exhibit reversible resistive memory switching phen...
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...
A new device architecture for fast organic transistor memory is developed, based on a vertical organ...
We demonstrate the modification of the memory effect in organic memory devices by adjusting the thic...
Recently, organic nonvolatile memory devices have attracted considerable attention due to their low ...
The performance of redox-gated organic nonvolatile memory (NVM) based on conducting polymers was inv...
Organic molecules and semiconductors have been proposed as active part of a large variety of nonvola...
The possibility of developing fully organic electronic circuits is critically dependent on the abili...
Abstract– – In this paper the ongoing research and development activities on future nonvolatile memo...
We report for the first time organic n-type nonvolatile memory transistors based on a fullerene (C_)...
The primary aim in the memory devices is to produce structures that exhibit two distinct states when...
This review summarizes the most widely used mechanisms in memory devices based on conjugated polymer...
Resistive switching in nonvolatile, two terminal organic memories can be due to the presence of a na...
The organic resistance memories are promising for future flexible applications.In this paper the mai...
We found novel organic charge-transfer salts that exhibit reversible resistive memory switching phen...
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...
A new device architecture for fast organic transistor memory is developed, based on a vertical organ...
We demonstrate the modification of the memory effect in organic memory devices by adjusting the thic...
Recently, organic nonvolatile memory devices have attracted considerable attention due to their low ...
The performance of redox-gated organic nonvolatile memory (NVM) based on conducting polymers was inv...