Epitaxial growth of TiN films on (100) silicon substrates by laser physical vapor deposition

Narayan, J.; Tiwari, P.; Chen, X.; Singh, Jarnail; Chowdhury, R.; Zheleva, T.

doi:10.1063/1.107568

Cited by 275 publications

(126 citation statements)

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“…The interface between the film and the sapphire is sharp and free from any other phase. Due to the large in-plane mismatch (-18%) between the film and the substrate, the epitaxial growth of the film occurs via domain epitaxy where dimensions of the domain become the repeat distance across which matching is maintained [7]. The misfit dislocations were observed at the interface as shown in Fig.4 (b).…”

Section: Results and Disscusionmentioning

confidence: 81%

Pulsed Laser Deposition and Characterization of Zn_1−xMn_xO Films

et al. 2001

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Here we present our results of structural, optical, and magnetic measurements of Znj_ ,MnO thin films. These films were grown epitaxially on (0001) sapphire substrates by using pulsed laser deposition technique. The maximum Mn content (x=0.36) is found to be much higher than allowed by thermal equlibrium limit (x-0.13) due to the non-equilibrium nature of the pulsed laser deposition. All the films investigated here were found to be single phase with <0001> orientation epitaxial relationship. A linear increase in the c-axis lattice constant was observed with increase in Mn concentration. Optical transmittance measurements showed an increase in the insulating band-gap (Eg) with increase in Mn concentration. DC magnetization measurements showed that there is no long range ferromagnetic ordering down to 10 K.

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Section: Results and Disscusionmentioning

confidence: 81%

Pulsed Laser Deposition and Characterization of Zn_1−xMn_xO Films

et al. 2001

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“…As displayed in Fig. 1(b), the ϕ-scan patterns of (111) It should be noted that the epitaxial growth of BST/LSMO/MgO/TiN on Si (100) is possible due to the epitaxial growth of large mismatched system based on the domain matching epitaxy (DME) paradigm, 14,15 e.g., TiN (a = 4.24 A • ) on Si (100) (a = 5.43 A • ) where four lattice constants of TiN match with three of Si (100). According to DME paradigm, in large mismatch systems most of the lattice mismatch strain is relieved almost immediately upon initiation of growth, i.e.…”

Section: Resultsmentioning

confidence: 99%

Exchange bias in Ba0.4Sr0.6TiO3/La0.7Sr0.3MnO3 heterostructures

2017

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This work relates to the integration of the two-layer stack of the proposed multiferroic structure onto silicon substrates. Ba1-xSrxTiO3 is an excellent material for room-temperature voltage-tunable dielectric applications due to its high (ε=6000) dielectric constant. In this study we choose a composition of Ba0.4Sr0.6TiO3 (BST), which is cubic and paraelectric at 300K, and transforms to a ferroelectric tetragonal phase upon cooling through the Curie temperature (TC) at 200K. The main focus of the present work is to study what happens when BST is placed in contact with a room temperature ferromagnetic layer such as La0.7Sr0.3MnO3 (LSMO). In this study, the magnetic properties of a BST (200nm)/LSMO (63nm) heterostructure was compared to that of a single LSMO layer (63nm). Both films were deposited onto MgO/TiN buffered Si (100) using pulsed laser deposition (PLD) and a domain matching epitaxy (DME) paradigm. X-ray diffraction (XRD) measurements showed that these films were of single phase and epitaxial in nature, with an unrelaxed lattice strain of ∼0.2% that was predominately composed of thermal and defect-induced strain. The magnetic measurements showed that the Curie temperature (TC) of LSMO remained unchanged at 350K when the BST was in contact with the LSMO layer. Interestingly, at 4K both the coercive field (Hc) and the exchange bias (HEB) of the BST/LSMO heterostructure as compared to the lone LSMO film increased significantly from 400 to 800 Oe and from 155 to 305 Oe, respectively. These differences were found to disappear above 200 K, the ferroelectric TC of the BST over-layer. This strongly suggests that the observed changes in the magnetic behavior of the heterostructure was the result of stress and/or charge redistributions that resulted when the BST layer transformed from the cubic (paraelectric) to tetragonal (ferroelectric) phase at low temperature.

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“…On the other hand, Narayan et.al [19,20] has showed that a large lattice misfit relative to the substrate can still grow epitaxial layers, which is called 'domain matching epitaxy (DME)', where integral multiples of the lattice constants make a good lattice matching between the substrate and the over-grown layer [21]. DME occurs preferably if the surfaces of the substrate and the film have similar crystal structures (i.e.…”

Section: Introductionmentioning

confidence: 99%

Solid-phase epitaxial growth of (111)-oriented Si film on InGaO3(ZnO)5 buffer layer

Chen

Ishihara

et al. 2010

J Mater Sci: Mater Electron

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In this paper, the (0001) surface of an InGaO 3 (ZnO) 5 (c-IGZO) single-crystal buffer layer was used as a seed layer to control the orientation of a Si film in solidphase heteroepitaxial growth at 950°C. Despite a large lattice misfit of 20%, electron backscattering diffraction (EBSD) and transmission electron microscope (TEM) measurements substantiated that the (111)-oriented Si layers are grown epitaxially on the c-IGZO (0001) surface, which is explained by domain-matched epitaxy. The process can be further developed for low temperature process by utilizing excimer laser annealing to produce highly uniform (111) oriented Si TFT over a large area.

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Epitaxial growth of TiN films on (100) silicon substrates by laser physical vapor deposition

Cited by 275 publications

References 10 publications

Pulsed Laser Deposition and Characterization of Zn_1−xMn_xO Films

Pulsed Laser Deposition and Characterization of Zn_1−xMn_xO Films

Exchange bias in Ba0.4Sr0.6TiO3/La0.7Sr0.3MnO3 heterostructures

Solid-phase epitaxial growth of (111)-oriented Si film on InGaO3(ZnO)5 buffer layer

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Epitaxial growth of TiN films on (100) silicon substrates by laser physical vapor deposition

Cited by 275 publications

References 10 publications

Pulsed Laser Deposition and Characterization of Zn1−xMnxO Films

Pulsed Laser Deposition and Characterization of Zn1−xMnxO Films

Exchange bias in Ba0.4Sr0.6TiO3/La0.7Sr0.3MnO3 heterostructures

Solid-phase epitaxial growth of (111)-oriented Si film on InGaO3(ZnO)5 buffer layer

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Pulsed Laser Deposition and Characterization of Zn_1−xMn_xO Films

Pulsed Laser Deposition and Characterization of Zn_1−xMn_xO Films