@misc{OssorioVinuesaGarciaetal., author = {Ossorio, {\´O}scar G. and Vinuesa, Guillermo and Garcia, Hector and Sahelices, Benjamin and Due{\~n}as, Salvador and Cast{\´a}n, Helena and P{\´e}rez, Eduardo and Mahadevaiah, Mamathamba Kalishettyhalli and Wenger, Christian}, title = {Performance Assessment of Amorphous HfO2-based RRAM Devices for Neuromorphic Applications}, series = {ECS Transactions}, volume = {102}, journal = {ECS Transactions}, number = {2}, issn = {1938-6737}, doi = {10.1149/10202.0029ecst}, pages = {29 -- 35}, abstract = {The use of thin layers of amorphous hafnium oxide has been shown to be suitable for the manufacture of Resistive Random-Access memories (RRAM). These memories are of great interest because of their simple structure and non-volatile character. They are particularly appealing as they are good candidates for substituting flash memories. In this work, the performance of the MIM structure that takes part of a 4 kbit memory array based on 1-transistor-1-resistance (1T1R) cells was studied in terms of control of intermediate states and cycle durability. DC and small signal experiments were carried out in order to fully characterize the devices, which presented excellent multilevel capabilities and resistive-switching behavior.}, language = {en} } @misc{VinuesaGarciaPerezetal., author = {Vinuesa, Guillermo and Garc{\´i}a, H{\´e}ctor and P{\´e}rez, Eduardo and Wenger, Christian and {\´I}{\~n}iguez de la Torre, Ignacio and Gonz{\´a}lez, Tom{\´a}s and Due{\~n}as, Salvador and Cast{\´a}n, Helena}, title = {On the asymmetry of Resistive Switching Transitions}, series = {Electronics}, volume = {13}, journal = {Electronics}, number = {13}, publisher = {MDPI}, issn = {2079-9292}, doi = {10.3390/electronics13132639}, pages = {11}, abstract = {In this study, the resistive switching phenomena in TiN/Ti/HfO2/Ti metal-insulator-metal stacks is investigated, mainly focusing on the analysis of set and reset transitions. The electrical measurements in a wide temperature range reveal that the switching transitions require less voltage (and thus, less energy) as temperature rises, with the reset process being much more temperature sensitive. The main conduction mechanism in both resistance states is Space-charge-limited Conduction, but the high conductivity state also shows Schottky emission, explaining its temperature dependence. Moreover, the temporal evolution of these transitions reveals clear differences between them, as their current transient response is completely different. While the set is sudden, the reset process development is clearly non-linear, closely resembling a sigmoid function. This asymmetry between switching processes is of extreme importance in the manipulation and control of the multi-level characteristics and has clear implications in the possible applications of resistive switching devices in neuromorphic computing.}, language = {en} }