Keeney et al. Microstructures 2023;3:2023041  https://dx.doi.org/10.20517/microstructures.2023.41  Page 15 of 15

               47.      Whatmore, R. Ferroelectric materials. In: Kasap S, Capper P, editors. Springer handbook of electronic and photonic materials. Springer
                   International Publishing: Cham; 2017. p. 1.   DOI
               48.      Landau L, Lifshitz E. 3 - on the theory of the dispersion of magnetic permeability in ferromagnetic bodies. In: Pitaevski LP editors.
                   Perspectives in theoretical physics. The collected papers of E. M. Lifshitz. Amsterdam:Elsevier; 1992. pp. 51-65.  DOI
               49.     Kittel C. Theory of the structure of ferromagnetic domains in films and small particles. Phys Rev 1946;70:965.  DOI
               50.     Kittel C. Physical theory of ferromagnetic domains. Rev Mod Phys 1949;21:541.  DOI
               51.      Wang  H,  Liu  ZR,  Yoong  HY,  et  al.  Direct  observation  of  room-temperature  out-of-plane  ferroelectricity  and  tunneling
                   electroresistance at the two-dimensional limit. Nat Commun 2018;9:3319.  DOI  PubMed  PMC
               52.      Gradauskaite E, Meier QN, Gray N, et al. Defeating depolarizing fields with artificial flux closure in ultrathin ferroelectrics. arXiv
                   2022:2212;11073.  DOI
               53.      Nam J, Hughes RA, Castellan JP, Gaulin BD, Britten JF, Preston JS. The origin of preferential twinning in YBa Cu O  thin films
                                                                                              2  3  7-δ
                   deposited on the (0 0 1) NdGaO  substrate. J Appl Phys 2005;97:123906.  DOI
                                        3
               54.      Zurbuchen MA, Cahill DG, Schubert J, Jia Y, Schlom DG. Determination of the thermal conductivity tensor of the n = 7 Aurivillius
                   phase Sr Bi Ti O . Appl Phys Lett 2012;101:021904.  DOI
                         4  4  7  24
               55.      Shen XW, Fang YW, Tian BB, Duan CG. Two-dimensional ferroelectric tunnel junction: the case of monolayer in:SnSe/SnSe/
                   Sb:SnSe homostructure. ACS Appl Electron Mater 2019;1:1133-40.  DOI
               56.      Chang K, Liu J, Lin H, et al. Discovery of robust in-plane ferroelectricity in atomic-thick SnTe. Science 2016;353:274-8.  DOI
               57.      Liu J, Chang K, JI SH, Chen X, Fu L. Apparatus and methods for memory using in-plane polarization. Available from: https://www.
                   osti.gov/servlets/purl/1438442 [Last accessed on 11 Oct 2023].
               58.     Shen H, Liu J, Chang K, Fu L. In-plane ferroelectric tunnel junction. Phys Rev Appl 2019;11:024048.  DOI
               59.      Momma K, Izumi F. VESTA 3 for three-dimensional visualization of crystal, volumetric and morphology data. J Appl Crystallogr
                   2011;44:1272-6.  DOI