Title :
Organic Memory and Electrical Bistability in a Quinone-Based Charge-Transfer Complex
Author :
Rath, Arup K. ; Pal, Amlan J.
Author_Institution :
Dept. of Solid State Phys., Indian Assoc. for the Cultivation of Sci., Kolkata, India
Abstract :
We present an overview of the issues of organic memory devices and discuss the mechanisms involved in conductance switching. To make the memory elements addressable, we introduce nanostructures of a quinone-based charge-transfer complex. The devices based on charge-transfer complexes exhibit electrical bistability. Apart from characterizing complex formation, we study characteristics of memory devices based on the complexes. The mechanism of bistability has been discussed in terms of electroreduction of the quinone derivative with the formation of a percolating network of conducting molecules or channels across the device. Depending on the device architecture, a device may exhibit memory-switching or threshold-switching phenomenon. The former system has displayed read-only and random-access memory applications.
Keywords :
Organic electronics; charge exchange; electrical conductivity; organic semiconductors; percolation; random-access storage; read-only storage; reduction (chemical); switching; charge-transfer complexes; conductance switching; conducting molecule percolating network; electrical bistability; electroreduction; memory-switching phenomenon; quinone derivative; quinone-based charge-transfer complex; random-access memory; read-only memory; threshold-switching phenomenon; Conductivity; FETs; Light emitting diodes; Nanostructures; Organic semiconductors; Photovoltaic systems; Random access memory; Sensor phenomena and characterization; Switches; Voltage; Electrical bistability; organic memory; quinone derivative; random-access memory; read-only memory;
Journal_Title :
Proceedings of the IEEE
DOI :
10.1109/JPROC.2009.2021962
