This review summarizes the most widely used mechanisms in memory devices based on conjugated polymers, such as charge transfer, space charge traps, and filament conduction. In addition, recent studies of conjugated polymers for memory device applications are also reviewed, discussed, and differentiated based on the mechanisms and structural design. Moreover, the electrical conditions of conjugated polymers can be further fine-tuned by careful design and synthesis based on the switching mechanisms. The review also emphasizes and demonstrates the structure-memory properties relationship of donor-acceptor conjugated polymers for advanced memory device applications
SUPRAMOLECULAR SELF-ASSEMBLY OF CONJUGATED POLYMERS FOR ELECTRONIC APPLICATIONS Brynn Charron, Mic...
We found novel organic charge-transfer salts that exhibit reversible resistive memory switching phen...
Macromolecular materials, such as polymers, can be used to make electronic memory cells. This chapte...
This review summarizes the most widely used mechanisms in memory devices based on conjugated polymer...
Conjugated polymers have been used in data-storage devices. A "state" has been written by applying a...
Electronic memory devices, such as memristors, charge trap memory, and floating-gate memory, have be...
Organic molecules and semiconductors have been proposed as active part of a large variety of nonvola...
Since their discovery 50 years ago, conjugated conducting polymers have received increasing attentio...
AbstractAs an emerging area in organic electronics, polymer memories have become an active research ...
MasterVarious alternative polymer containing various electron donor and acceptor groups were studied...
The fully pi-conjugated donor acceptor hybrid polymers Fl-TPA, Fl-TPA-TCNE, and Fl-TPA-TCNQ, which a...
The thesis demonstrates for the first time coexistence of write once read many memory (WORM) with r...
The molecular structure of a conjugated polymer critically impacts its physical and optoelectronic p...
[[abstract]]©2007 Wiley - Charge mobility and charge traps are two important factors that affect per...
The feasibility of employing polymer memory devices as future data-storage units was investigated by...
SUPRAMOLECULAR SELF-ASSEMBLY OF CONJUGATED POLYMERS FOR ELECTRONIC APPLICATIONS Brynn Charron, Mic...
We found novel organic charge-transfer salts that exhibit reversible resistive memory switching phen...
Macromolecular materials, such as polymers, can be used to make electronic memory cells. This chapte...
This review summarizes the most widely used mechanisms in memory devices based on conjugated polymer...
Conjugated polymers have been used in data-storage devices. A "state" has been written by applying a...
Electronic memory devices, such as memristors, charge trap memory, and floating-gate memory, have be...
Organic molecules and semiconductors have been proposed as active part of a large variety of nonvola...
Since their discovery 50 years ago, conjugated conducting polymers have received increasing attentio...
AbstractAs an emerging area in organic electronics, polymer memories have become an active research ...
MasterVarious alternative polymer containing various electron donor and acceptor groups were studied...
The fully pi-conjugated donor acceptor hybrid polymers Fl-TPA, Fl-TPA-TCNE, and Fl-TPA-TCNQ, which a...
The thesis demonstrates for the first time coexistence of write once read many memory (WORM) with r...
The molecular structure of a conjugated polymer critically impacts its physical and optoelectronic p...
[[abstract]]©2007 Wiley - Charge mobility and charge traps are two important factors that affect per...
The feasibility of employing polymer memory devices as future data-storage units was investigated by...
SUPRAMOLECULAR SELF-ASSEMBLY OF CONJUGATED POLYMERS FOR ELECTRONIC APPLICATIONS Brynn Charron, Mic...
We found novel organic charge-transfer salts that exhibit reversible resistive memory switching phen...
Macromolecular materials, such as polymers, can be used to make electronic memory cells. This chapte...