Data Storage Studies on Nanowire Transistors with Self-Assembled Porphyrin Molecules

Citations Over TimeTop 10% of 2004 papers

Abstract

Detailed memory studies have been carried out based on In2O3 nanowires coated with self-assembled monolayers of porphyrins. Devices with redox-active Co-chelated porphyrin coatings exhibited prominent memory effects, where the bit was represented by the charge stored in the molecules and the nanowire conductance was used as the readout. These devices exhibited reliable operation with on/off ratios of ∼104 and were electronically programmable and erasable. Temperature-dependent retention measurements revealed a thermal activation behavior with a barrier of 264 meV. While devices with Co-porphyrin coatings showed efficient memory operation, analogous protio porphyrin coated nanowire devices exhibited no memory effects. A largely metal-centered oxidation (e.g., Co2+/3+) appears to be important for achieving a memory effect in these devices. Our results have convincingly established a direct correlation between the molecular structure and the observed memory effect, and further in-depth studies may eventually lead to systems useful for practical applications.

Related Papers

• → Synthesis of porphyrin-2,3,12,13- and -2,3,7,8-tetraones: building blocks for the synthesis of extended porphyrin arrays(1995)101 cited
• → Fused porphyrin-imidazole systems: new building blocks for synthesis of porphyrin arrays(1999)55 cited
• → Stabilization of Langmuir monolayer of hydrophobic thiocholesterol molecules(2008)8 cited
• Absorption of light in InP nanowire arrays(2014)
• [UV-Vis spectroscopic characterization of LB films of hydroxyl-substituted porphyrin derivatives].(1999)