Ferroelectricity in hafnium oxide thin films

Böscke, T. S.; Müller, Johannes; Bräuhaus, D.; Schröder, Uwe; Böttger, U.

doi:10.1063/1.3634052

Cited by 2,125 publications

(1,581 citation statements)

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“…This analogy to ferroelectric Si:HfO 2 supports the hypothesis that the structural origin of spontaneous polarization in doped HfO 2 is linked to the stabilization of this particular phase and does not originate from the dopant itself. 5 The anti-ferroelectric like behavior observed for the fully stabilized Si:HfO 2 , however, was not observed in the Y:HfO 2 system within our experimental conditions. Tomida et al 16 clearly distinguished the tetragonal Si:HfO 2 from the cubic Y:HfO 2 system.…”

Section: Resultsmentioning

confidence: 46%

“…reported for TiN=HfO 2 gate stacks 28 ) was identified to be the origin of the orthorhombic, ferroelectric, phase in SiO 2 -doped HfO 2 . 5 The increased P r observed in PMA samples at low YO 1.5 content suggests a larger ferroelectric phase fraction due to the suppressed monoclinic phase. However, even though PDA samples exhibit lower P r , they still show the presence of ferroelectricity, suggesting that the presence of a top electrode ("cap") is preferred, but not mandatory, for the formation of the ferroelectric phase in Y:HfO 2 thin films.…”

Section: Resultsmentioning

confidence: 98%

“…Recently, it has been demonstrated that doping of HfO 2 thin films with SiO 2 5 or ZrO 2 6 does not only stabilizes the tetragonal phase, but can also produce a spontaneous polarization at intermediate doping levels, that results in usable, ferroelectric hysteresis loops in these layers.…”

Section: Introductionmentioning

confidence: 99%

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Ferroelectricity in yttrium-doped hafnium oxide

Müller

Schröder

Böscke³

et al. 2011

Journal of Applied Physics

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599

351

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Structural incommensurate modulation rule in hexagonal Ba(Ti1-xMx)O3-δ (M = Mn, Fe) multiferroics AIP Advances 2, 042129 (2012) Water assisted gate induced temporal surface charge distribution probed by electrostatic force microscopy J. Appl. Phys. 112, 084329 (2012) Influence of target composition and deposition temperature on the domain structure of BiFeO3 thin films AIP Advances 2, 042104 (2012) Nanodomain structures formation during polarization reversal in uniform electric field in strontium barium niobate single crystals J. Appl. Phys. 112, 064117 (2012) The effect of the top electrode interface on the hysteretic behavior of epitaxial ferroelectric Pb(Zr,Ti)O3 thin films with bottom SrRuO3 electrode J. Appl. Phys. 112, 064116 (2012) Additional information on J. Appl. Phys. Structural and electrical evidence for a ferroelectric phase in yttrium doped hafnium oxide thin films is presented. A doping series ranging from 2.3 to 12.3 mol% YO 1.5 in HfO 2 was deposited by a thermal atomic layer deposition process. Grazing incidence X-ray diffraction of the 10 nm thick films revealed an orthorhombic phase close to the stability region of the cubic phase. The potential ferroelectricity of this orthorhombic phase was confirmed by polarization hysteresis measurements on titanium nitride based metal-insulator-metal capacitors. For 5.2 mol% YO 1.5 admixture the remanent polarization peaked at 24 lC=cm 2 with a coercive field of about 1.2 MV=cm. Considering the availability of conformal deposition processes and CMOS-compatibility, ferroelectric Y:HfO 2 implies high scaling potential for future, ferroelectric memories.

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Section: Resultsmentioning

confidence: 46%

Section: Resultsmentioning

confidence: 98%

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Ferroelectricity in yttrium-doped hafnium oxide

Müller

Schröder

Böscke³

et al. 2011

Journal of Applied Physics

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599

351

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“…[10] Properties such as induced ferromagnetism and superconductivity have been observed due to broken symmetries at the interface [11] between a LaAlO3 substrate and a SrTiO3 film. Recently, strain-induced ferroelectric behavior has been observed in ca 10nm thick films of HfO2 [12] and Zr0.5Hf0.5O2 [13] on silicon. The appearance of ferroelectricity in oxide thin films with such simple compositions, when compared with conventional oxide ferroelectrics such as PbZrxTi1-xO3 is particularly interesting, as it offers the possibility for much easier integration of materials with useful active properties such as piezoelectricity, pyroelectricity, switchable polarization etc.…”

Section: Introductionmentioning

confidence: 99%

Interesting Evidence for Template‐Induced Ferroelectric Behavior in Ultra‐Thin Titanium Dioxide Films Grown on (110) Neodymium Gallium Oxide Substrates

Deepak

Miguel

Keeney

et al. 2014

Adv Funct Materials

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This paper reports the first-ever presentation of evidence for room-temperature ferroelectric behavior in anatase-phase titanium dioxide (a-TiO2). It is shown that behaviour strongly indicative of ferroelectric behavior is induced in ultra-thin (20nm to 80nm) biaxially-strained epitaxial films of a-TiO2 deposited by liquid injection chemical vapour deposition onto (110) Submitted to neodymium gallium oxide (NGO) substrates. The structural properties of the films were analyzed by x-ray diffraction and high-resolution transmission electron microscopy, which showed significant orthorhombic strain in films. Possible ferroelectric behavior was probed by piezoresponse force microscopy (PFM). The films on NGO showed a switchable dielectric spontaneous polarization, the ability to retain polarization information written into the film using the PFM tip for extended periods (several hours) and at elevated temperatures (up to 100°C) without significant loss, and the disappearance of the polarization at a temperature between 180 and 200°C, indicative of a Curie temperature within this range. This combination of effects is believed to constitute strong experimental evidence for ferroelectric behavior, which has not hitherto been reported in a-TiO2 and opens up the possibility for a range of new devices and materials applications. A model is presented for the effects of large in-plane strains on the crystal structure of anatase which provides a possible explanation for the experimental observations.

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“…In recent years, hafnium dioxide (HfO 2 ) based insulators have emerged as the primary contenders to replace traditional SiO 2 in a variety of nano-electronic devices ranging from deep-scaled transistors to DRAM 1,2 and non-volatile memory cells. 3,4 Furthermore, thanks to the ferroelectricity property of both doped 5,6 and pure 7 HfO 2 , novel applications including memories 8 and high sub-threshold slope transistors 9 are envisioned. However, the reliability of the dielectric associated with electron trapping appears to be the "show stopper": It has already been shown that the positive bias-temperature instability (PBTI) limits the gate oxide scaling in metal-HfO 2 -Si transistors [10][11][12][13] while in flash cells, electron trapping in the intergate HfO 2 insulator degrades the program/erase window, retention, and endurance.…”

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confidence: 99%

Intrinsic electron traps in atomic-layer deposited HfO2 insulators

Cerbu

Madia

Andreev

et al. 2016

Applied Physics Letters

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Analysis of photodepopulation of electron traps in HfO2 films grown by atomic layer deposition is shown to provide the trap energy distribution across the entire oxide bandgap. The presence is revealed of two kinds of deep electron traps energetically distributed at around Et ≈ 2.0 eV and Et ≈ 3.0 eV below the oxide conduction band. Comparison of the trapped electron energy distributions in HfO2 layers prepared using different precursors or subjected to thermal treatment suggests that these centers are intrinsic in origin. However, the common assumption that these would implicate O vacancies cannot explain the charging behavior of HfO2, suggesting that alternative defect models should be considered.

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Ferroelectricity in hafnium oxide thin films

Cited by 2,125 publications

References 20 publications

Ferroelectricity in yttrium-doped hafnium oxide

Ferroelectricity in yttrium-doped hafnium oxide

Interesting Evidence for Template‐Induced Ferroelectric Behavior in Ultra‐Thin Titanium Dioxide Films Grown on (110) Neodymium Gallium Oxide Substrates

Intrinsic electron traps in atomic-layer deposited HfO2 insulators

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