Title :
High performance sub-430°C epitaxial silicon PIN selector for 3D RRAM
Author :
Mandapati, R. ; Shrivastava, S. ; Das, Biswajit ; Sushama ; Ostwal, V. ; Schulze, J. ; Ganguly, Utsav
Author_Institution :
Indian Inst. of Technol., Mumbai, Mumbai, India
Abstract :
The high performance of Si based selection devices is constrained by the high processing temperature requirement (>700°C) for 3D storage memory application. Many high performance Si based selection devices have been demonstrated. Epitaxial [1] and poly PN junction diodes [2-3] have been demonstrated for unipolar RRAM while epitaxial NPN punch-through diodes [4] has been developed for bipolar RRAM as summarized in Table 1. However, Si based selection devices require high temperature (>700°C) epitaxy, CVD, or crystallization. The main challenges for low temperature process are (i) high dopant activation for on-current density (ii) low defects for low off-current. In this paper, we demonstrate that sub-430°C temperature Si diodes by Si MBE with excellent performance. 3D stacking by various strategies e.g. lateral epitaxial overgrowth on seed hole [5], is enabled by back-end compatible temperature of epitaxy.
Keywords :
elemental semiconductors; epitaxial growth; p-i-n diodes; random-access storage; silicon; 3D RRAM; 3D stacking; 3D storage memory application; CVD; MBE; NPN punch-through diodes; Si; bipolar RRAM; crystallization; dopant activation; high temperature epitaxy; lateral epitaxial overgrowth; low off-current; on-current density low defects; seed hole; sub-epitaxial silicon PIN selector; temperature 430 degC; unipolar RRAM; Doping; Epitaxial growth; Fabrication; Performance evaluation; Silicon; Temperature measurement; Three-dimensional displays;
Conference_Titel :
Device Research Conference (DRC), 2014 72nd Annual
Conference_Location :
Santa Barbara, CA
Print_ISBN :
978-1-4799-5405-6
DOI :
10.1109/DRC.2014.6872387
