Artículos de revistas
Negative differential resistance in porous silicon devices at room temperature
Date
2014-12Registration in:
Marín Ramírez, Oscar Alonso; Toranzos, Victor Jose; Urteaga, Raul; Comedi, David Mario; Koropecki, Roberto Roman; Negative differential resistance in porous silicon devices at room temperature; Elsevier; Superlattices And Microstructures; 79; 12-2014; 45-53
0749-6036
CONICET Digital
CONICET
Author
Marín Ramírez, Oscar Alonso
Toranzos, Victor Jose
Urteaga, Raul
Comedi, David Mario
Koropecki, Roberto Roman
Abstract
We report a voltage controlled negative differential resistance (NDR) effect at room temperature in two types of devices based on porous silicon (PS): thermally oxidized porous silicon multilayer with Ag electrodes in a sandwich configuration (Ag/c-Si/PS/ Ag) and porous silicon single layer with Al electrodes in a coplanar configuration (Al/PS/Al). The NDR effect was observed in current– voltage characteristics and showed telegraphic noise. The NDR effects showed a strong dependence with temperature and with the surrounding atmospheric air pressure. The NDR occurrence was attributed to the blocking of conduction channels due to carrier trapping phenomena. We also experimentally demonstrate porous silicon devices exploiting the NDR effect, with potential applications as volatile memory devices.