期刊
IEEE TRANSACTIONS ON ELECTRON DEVICES
卷 65, 期 10, 页码 4674-4678出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TED.2018.2866168
关键词
Atomic layer deposition (ALD); electrical uniformity; metal nanocrystals (NCs); resistive random access memory (RRAM)
资金
- National Science Foundation of China [51571111, 51721001]
- Jiangsu Province [BK2016230, BK20170645]
- State Key Program for Basic Research of China [2015CB921203]
- Open Project of NLSSM [M30038]
The introduction of metal nanocrystals (NCs) has been confirmed to improve electrical uniformity of oxide-based resistive random access memory (PRAM) devices significantly; however, the current reports do not systematically elucidate the relationship between the size/distribution of NCs and the electrical uniformity of PRAM devices. In this paper, we focused on the impact of metal NCs size and areal density on the resistive switching (RS) performances of oxide PRAM by atomic layer deposition (ALD) based on the experimental results and theoretical calculation. The dependence of ALD cycles of 50-130 during Pt or CoPtx NCs growth on the RS parameters of Al2O3 or HfO(2)memory units has been evaluated systematically. The PRAM embedded Pt or CoPtx NCs shows the trends: with increasing ALD cycles, the forming voltage, set/reset voltage, the resistance in off and on state, and R-OFF/R-ON ratio entirely first decrease, then flatten, and increase later with a minimum value at about 100 cycles. Although all metal NCs with various sizes enhance the electric field strength compared to at the planar region, only metal NCs with proper NCs size and areal density (9 nm/6-10 x 10(11)/cm(2) in this paper) can effectively produce stronger localized electric field at the tip of metal NCs, leading to optimal RS behavior.
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