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1. Growth mode and strain effect on relaxor ferroelectric domains in epitaxial 0.67Pb(Mg _1/3 Nb _2/3 )O ₃ –0.33PbTiO ₃ /SrRuO ₃ heterostructures

   https://doi.org/10.1039/D0RA10107A  

   Belhadi, Jamal; Gabor, Urška; Uršič, Hana; Daneu, Nina; Kim, Jieun; Tian, Zishen; Koster, Gertjan; Martin, Lane W.; Spreitzer, Matjaž (January 2021, RSC Advances)

   null (Ed.)

   Controlling the growth of complex relaxor ferroelectric thin films and understanding the relationship between biaxial strain–structural domain characteristics are desirable for designing materials with a high electromechanical response. For this purpose, epitaxial thin films free of extended defects and secondary phases are urgently needed. Here, we used optimized growth parameters and target compositions to obtain epitaxial (40–45 nm) 0.67Pb(Mg 1/3 Nb 2/3 )O 3 –0.33PbTiO 3 /(20 nm) SrRuO 3 (PMN–33PT/SRO) heterostructures using pulsed-laser deposition (PLD) on singly terminated SrTiO 3 (STO) and ReScO 3 (RSO) substrates with Re = Dy, Tb, Gd, Sm, and Nd. In situ reflection high-energy electron diffraction (RHEED) and high-resolution X-ray diffraction (HR-XRD) analysis confirmed high-quality and single-phase thin films with smooth 2D surfaces. High-resolution scanning transmission electron microscopy (HR-STEM) revealed sharp interfaces and homogeneous strain further confirming the epitaxial cube-on-cube growth mode of the PMN–33PT/SRO heterostructures. The combined XRD reciprocal space maps (RSMs) and piezoresponse force microscopy (PFM) analysis revealed that the domain structure of the PMN–33PT heterostructures is sensitive to the applied compressive strain. From the RSM patterns, an evolution from a butterfly-shaped diffraction pattern for mildly strained PMN–33PT layers, which is evidence of stabilization of relaxor domains, to disc-shaped diffraction patterns for high compressive strains with a highly distorted tetragonal structure, is observed. The PFM amplitude and phase of the PMN–33PT thin films confirmed the relaxor-like for a strain state below ∼1.13%, while for higher compressive strain (∼1.9%) the irregularly shaped and poled ferroelectric domains were observed. Interestingly, the PFM phase hysteresis loops of the PMN–33PT heterostructures grown on the SSO substrates (strain state of ∼0.8%) exhibited an enhanced coercive field which is about two times larger than that of the thin films grown on GSO and NSO substrates. The obtained results show that epitaxial strain engineering could serve as an effective approach for tailoring and enhancing the functional properties in relaxor ferroelectrics. 

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2. Observation of spatially resolved Rashba states on the surface of CH ₃ NH ₃ PbBr ₃ single crystals

   https://doi.org/10.1063/5.0053884  

   Huang, Zhengjie; Vardeny, Shai R.; Wang, Tonghui; Ahmad, Zeeshan; Chanana, Ashish; Vetter, Eric; Yang, Shijia; Liu, Xiaojie; Galli, Giulia; Amassian, Aram; et al (September 2021, Applied Physics Reviews)

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3. Metalorganic chemical vapor deposition of (100) β-Ga ₂ O ₃ on on-axis Ga ₂ O ₃ substrates

   https://doi.org/10.1116/6.0002179  

   Meng, Lingyu; Bhuiyan, A F; Feng, Zixuan; Huang, Hsien-Lien; Hwang, Jinwoo; Zhao, Hongping (December 2022, Journal of Vacuum Science & Technology A)

   Metalorganic chemical vapor deposition (MOCVD) growths of β-Ga 2 O 3 on on-axis (100) Ga 2 O 3 substrates are comprehensively investigated. Key MOCVD growth parameters including growth temperature, pressure, group VI/III molar flow rate ratio, and carrier gas flow rate are mapped. The dependence of the growth conditions is correlated with surface morphology, growth rate, and electron transport properties of the MOCVD grown (100) β-Ga 2 O 3 thin films. Lower shroud gas (argon) flow is found to enhance the surface smoothness with higher room temperature (RT) electron Hall mobility. The growth rate of the films decreases but with an increase of electron mobility as the VI/III molar flow rate ratio increases. Although no significant variation on the surface morphologies is observed at different growth temperatures, the general trend of electron Hall mobilities are found to increase with increasing growth temperature. The growth rates reduce significantly with uniform surface morphologies as the chamber pressure increases. By tuning the silane flow rate, the controllable carrier concentration of (100) β-Ga 2 O 3 thin films between low-10 17  cm −3 and low-10 18  cm −3 was achieved. Under optimized growth condition, an (100) β-Ga 2 O 3 thin film with RMS roughness value of 1.64 nm and a RT mobility of 24 cm 2 /Vs at a carrier concentration of 7.0 × 10 17  cm −3 are demonstrated. The mobilities are primarily limited by the twin lamellae and stacking faults defects generated from the growth interface. Atomic resolution scanning transmission electron microscopy reveals the formation of twin boundary defects in the films, resulting in the degradation of crystalline quality. Results from this work provide fundamental understanding of the MOCVD epitaxy of (100) β-Ga 2 O 3 on on-axis Ga 2 O 3 substrates and the dependence of the material properties on growth conditions. The limitation of electron transport properties of the (100) β-Ga 2 O 3 thin films below 25 cm 2 /Vs is attributed to the formation of incoherent boundaries (twin lamellae) and stacking faults grown along the on-axis (100) crystal orientation. 

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4. MOCVD Growth of β-Ga ₂ O ₃ on (001) Ga ₂ O ₃ Substrates

   https://doi.org/10.1021/acs.cgd.4c00060  

   Meng, Lingyu; Yu, Dongsu; Huang, Hsien-Lien; Chae, Chris; Hwang, Jinwoo; Zhao, Hongping (May 2024, Crystal Growth & Design)
5. Effect of Au/HfS ₃ interfacial interactions on properties of HfS ₃ -based devices

   https://doi.org/10.1039/d2cp01254e  

   Dhingra, Archit; Lipatov, Alexey; Loes, Michael J.; Abourahma, Jehad; Pink, Maren; Sinitskii, Alexander; Dowben, Peter A. (June 2022, Physical Chemistry Chemical Physics)

   X-ray photoemission spectroscopy (XPS) has been used to examine the interaction between Au and HfS 3 at the Au/HfS 3 interface. XPS measurements reveal dissociative chemisorption of O 2 , leading to the formation of an oxide of Hf at the surface of HfS 3 . This surface hafnium oxide, along with the weakly chemisorbed molecular species, such as O 2 and H 2 O, are likely responsible for the observed p-type characteristics of HfS 3 reported elsewhere. HfS 3 devices exhibit n-type behaviour if measured in vacuum but turn p-type in air. Au thickness-dependent XPS measurements provide clear evidence of band bending as the S 2p and Hf 4f core-level peak binding energies for Au/HfS 3 are found to be shifted to higher binding energies. This band bending implies formation of a Schottky-barrier at the Au/HfS 3 interface, which explains the low measured charge carrier mobilities of HfS 3 -based devices. The transistor measurements presented herein also indicate the existence of a Schottky barrier, consistent with the XPS core-level binding energy shifts, and show that the bulk of HfS 3 is n-type. 

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