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In this paper, a physical investigation of hybrid molecular/Si memory capacitor structures is proposed, where redox-active molecules act as storage medium. Fc and ZnAB3P porphyrin were grafted on (100) Si with both a direct bond and a chemical linker in order to investigate the electron transfer properties of the molecule/Si system. The chemical structures of the molecular layers were analyzed with...
In this paper we propose an experimental and theoretical analysis of hybrid Ferrocene/Si memory structures. Two main aspects are studied: the influence of the chemical linker length on Ferrocene/Silicon electron transfer rate, and the thermal stability of the hybrid devices. X-Ray Photoelectron Spectroscopy was used to analyse the chemical structure of the molecular layers. Cyclic Voltammetry and...
In this work, a physical and electrical investigation of hybrid molecular/Si memory capacitor structures is proposed, where redox active molecules act as storage medium. Ferrocene molecules were grafted on (100) Silicon either directly or with a chemical linker, in order to investigate the electron transfer properties of the molecule/silicon system. The chemical structures of the molecular layers...
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