2020
DOI: 10.1038/s41467-020-15159-2
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A highly CMOS compatible hafnia-based ferroelectric diode

Abstract: Memory devices with high speed and high density are highly desired to address the 'memory wall' issue. Here we demonstrated a highly scalable, three-dimensional stackable ferroelectric diode, with its rectifying polarity modulated by the polarization reversal of Hf 0.5 Zr 0.5 O 2 films. By visualizing the hafnium/zirconium lattice order and oxygen lattice order with atomicresolution spherical aberration-corrected STEM, we revealed the correlation between the spontaneous polarization of Hf 0.5 Zr 0.5 O 2 film a… Show more

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Cited by 190 publications
(107 citation statements)
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“…This offers a plausible solution to bridge the gap between thickness scaling ferroelectric oxides and CMOS technology. [79,130,131] The application of doped-HfO 2 thin films for NC-FET elements have attracted rapidly grown interests in the past few years. [109,132] Compared to P(VDF-TrFE), apart from the fact that doped-HfO 2 is a more silicon CMOS-technology compatible choice, precise thickness control of doped-HfO 2 film and subsequent in-situ buffer dielectric oxides growth could result in stronger dielectric properties, cleaner interface and thus better capacitance matching.…”
Section: Inorganic Ferroelectric Oxides Based 2d Nc-fetsmentioning
confidence: 99%
“…This offers a plausible solution to bridge the gap between thickness scaling ferroelectric oxides and CMOS technology. [79,130,131] The application of doped-HfO 2 thin films for NC-FET elements have attracted rapidly grown interests in the past few years. [109,132] Compared to P(VDF-TrFE), apart from the fact that doped-HfO 2 is a more silicon CMOS-technology compatible choice, precise thickness control of doped-HfO 2 film and subsequent in-situ buffer dielectric oxides growth could result in stronger dielectric properties, cleaner interface and thus better capacitance matching.…”
Section: Inorganic Ferroelectric Oxides Based 2d Nc-fetsmentioning
confidence: 99%
“…[ 3 ] This discovery triggered great interest because it expands the application scope of HfO 2 from passive dielectric layers in FETs to active polar media in nonvolatile ferroelectric memories that have good compatibility with the current complementary metal–oxide–semiconductor (CMOS) integrated circuits. [ 4,5 ] In general, HfO 2 has three crystalline phases, that is, the room‐temperature monoclinic phase (m‐phase, space group: P 2 1 / c ) and the high‐temperature tetragonal (t‐phase, space group: P 4 2 / nmc ) and cubic (c‐phase, space group: Fm true3¯ m ) phases. [ 6 ] But these phases are all centrosymmetric, forbidding ferroelectricity.…”
Section: Figurementioning
confidence: 99%
“…[25] In spite of such good performance, the filamentary RS devices suffer severely from large cycle-tocycle and cell-to-cell variability due to its defect-based mechanism, [26] and thus the mass industrial production is greatly hindered. Besides memristive oxides, other materials and devices such as Li-ion battery electrolytes, [27] 2D materials, [28][29][30][31] perovskites, [32] ionic liquid, [33] ferroelectric materials, [34,35] magnetic devices, [36,37] and even organic polymers [38,39] were reported to have the ability to carry out the neuromorphic computing tasks.…”
Section: Introductionmentioning
confidence: 99%