Conductive Filament Scaling of ${\rm TaO}_{\rm x}$ Bipolar ReRAM for Improving Data Retention Under Low Operation Current

“…1-3 In addition, TaO x as a RRAM switching material have been found to be of commercial interest due to its superior material property as well as memory performance. [3][4][5][6] To fulfill the increasing demand for low cost and higher density memory, the most obvious way to increase the storage capacity is by decreasing the physical size of the device to a nanoscale dimensions, and in RRAM the scalability down to 10 nm has been demonstrated. 7,8 Other interesting approach is to stack the devices 3-dimensionally, for which two feasible architectures of crossbar and vertical RRAM are reported.…”

Resistance controllability and variability improvement in a TaOx-based resistive memory for multilevel storage application

“…1-3 In addition, TaO x as a RRAM switching material have been found to be of commercial interest due to its superior material property as well as memory performance. [3][4][5][6] To fulfill the increasing demand for low cost and higher density memory, the most obvious way to increase the storage capacity is by decreasing the physical size of the device to a nanoscale dimensions, and in RRAM the scalability down to 10 nm has been demonstrated. 7,8 Other interesting approach is to stack the devices 3-dimensionally, for which two feasible architectures of crossbar and vertical RRAM are reported.…”

Resistance controllability and variability improvement in a TaOx-based resistive memory for multilevel storage application

“…4a and b curves 3). At least one work describes the similar forming process named "two-step-forming" allowing to confine the filament diameter due to lower forming impact preventing high current occurrence in the stack [23]. It is worth to note that if the positive polarity is used for forming only irreversible breakdown was observed.…”

Full ALD Ta 2 O 5 -based stacks for resistive random access memory grown with in vacuo XPS monitoring

“…In other words, the size of filaments can influence the I reset for filament-type RRAM. To lower I reset , the size of the conductive filaments must be scaled down [7,25]. In this study, the filaments inside the TaO x films consisted of oxygen vacancies, which is advantageous for reducing I reset [11].…”

Drastic reduction of RRAM reset current via plasma oxidization of TaOx film