A Fully Integrated Ferroelectric Thin‐Film‐Transistor – Influence of Device Scaling on Threshold Voltage Compensation in Displays

Lehninger, David; Ellinger, Martin; Ali, Tarek; Li, Songrui; Mertens, Konstantin; Lederer, Maximilian; Olivio, Ricardo; Kämpfe, Thomas; Hanisch, Norbert; Biedermann, Kati; Rudolph, Matthias; Brackmann, Varvara; Sanctis, Shawn; Jank, Michael P. M.; Seidel, Konrad

doi:10.1002/aelm.202100082

Cited by 32 publications

(53 citation statements)

References 50 publications

(71 reference statements)

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“…Consequently, for mass production, this material system can easier be deposited via atomic layer deposition (by using a precursor ratio of 1:1) [6] or sputtering techniques. [47] ii) The crystallization in the FE phase can be achieved at low process temperatures of 300-400 °C, [13,[48][49][50] which is the lowest among all so far investigated dopants. [51] This is most likely due to the comparatively low crystallization temperature of ZrO 2 compared to other potential metal oxide dopants.…”

Section: Materials System Hzomentioning

confidence: 99%

“…In the literature, many studies can be found that optimize the HZO films with regard to the requirements mentioned above, for example, by using various film thicknesses and dopant concentrations. [13,[49][50][51][96][97][98] The first important parameter that can be tailored to optimize the crystallization temperature and the FE properties are thus the thickness of the HZO films. It is known from the literature that the crystallization temperature increase for ultrathin films (in the range of 5 nm and below) due to the surface energy effect.…”

Section: Ferroelectric Boel Memory Conceptsmentioning

confidence: 99%

“…The electric and stress-coupled effects between the two layers produce FE hysteresis with modulated effect on the coercive Reproduced with permission. [50] Copyright 2021, Wiley. and c) pinched hysteresis loop with finite but small remnant polarization.…”

Section: Antiferroelectric Based Memoriesmentioning

confidence: 99%

Section: Memory‐based Applications Of Fluorite‐structured Materialsmentioning

confidence: 99%

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Fluorite‐Structured Ferroelectric and Antiferroelectric Materials: A Gateway of Miniaturized Electronic Devices

Ali

Lehninger

et al. 2022

Adv Funct Materials

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Ferroelectric (FE) and antiferroelectric (AFE) materials are used for several memory-related and energy-related applications. Perovskite materials (e.g., bulk ceramics) remain the most common materials for many applications. However, due to large deposition thickness, these materials are not appropriate for future miniaturized devices. In 2011, FE and AFE properties were reported in Si-doped HfO 2 thin films. HfO 2 -based FE and AFE materials have several advantages over conventional materials, such as ultrathin deposition thickness (in range of nanometers), compatibility with existing Si semiconductor technology, and suitability for the integration within 3-D nanostructures. Therefore, fluorite-structured materials can be appropriate for miniaturized devices. These fluorite-structured materials are extensively studied for memory and energy-related applications. The first review on this topic was published after four years of discovering the FE and AFE properties in these materials. From the past decade, a lot of research has been reported about the detailed mechanism and application of these materials. This review insightfully discusses the progress in the research of fluorite-structured materials and critically discusses some potential applications. Here some challenges are also discussed, new knowledge is extracted, and promising future research directions of these materials are suggested.

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Section: Materials System Hzomentioning

confidence: 99%

Section: Ferroelectric Boel Memory Conceptsmentioning

confidence: 99%

Section: Antiferroelectric Based Memoriesmentioning

confidence: 99%

Section: Memory‐based Applications Of Fluorite‐structured Materialsmentioning

confidence: 99%

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Fluorite‐Structured Ferroelectric and Antiferroelectric Materials: A Gateway of Miniaturized Electronic Devices

Ali

Lehninger

et al. 2022

Adv Funct Materials

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“…The most promising FE material to meet these requirements is zirconium-doped hafnium oxide (HZO) [4][5][6]. It crystallizes in the FE phase at about 350 °C and over a wide range of doping concentrations [7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Room temperature PVD TiN to improve the ferroelectric properties of HZO films in the BEoL

et al. 2021

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Zirconium-doped hafnium oxide (HZO) crystallizes at low temperatures and is thus ideal to implement ferroelectric (FE) functionalities into the back end of line (BEoL). Therefore, metal-ferroelectric-metal (MFM) capacitors are of great interest. Placed in the BEoL, they can be connected either to the drain- or the gate-contact of a standard logic device to realize different emerging FE-embedded non-volatile memory (eNVM) concepts. However, the low crystallization temperature increases also the risk for a premature crystallization of the HZO films during the growth of the top electrode (TE), in particular, if high-temperature processes like atomic layer deposition (ALD) or chemical vapor deposition (CVD) are used. Herein, the TE is deposited at room temperature via physical vapor deposition (PVD). The impact of different process gas flows on the FE properties of the HZO films is studied by X-ray diffraction and polarization versus electric field measurements. Graphic abstract

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Application of Ferroelectrics

De,

Lederer,

Raffel

et al. 2023

Advanced Ultra Low‐Power Semiconductor Devices

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A Fully Integrated Ferroelectric Thin‐Film‐Transistor – Influence of Device Scaling on Threshold Voltage Compensation in Displays

Cited by 32 publications

References 50 publications

Fluorite‐Structured Ferroelectric and Antiferroelectric Materials: A Gateway of Miniaturized Electronic Devices

Fluorite‐Structured Ferroelectric and Antiferroelectric Materials: A Gateway of Miniaturized Electronic Devices

Room temperature PVD TiN to improve the ferroelectric properties of HZO films in the BEoL

Application of Ferroelectrics

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