Designing Morphotropic Phase Composition in BiFeO<sub>3</sub>

Herklotz, Andreas; Rus, Simona; Balke, Nina; Rouleau, Christopher M.; Guo, Er‐Jia; Huon, Amanda; Kc, Santosh; Roth, Robert; Yang, Xu; Vaswani, Chirag; Wang, Jigang; Orth, Peter P.; Scheurer, Mathias S.; Ward, Thomas Z.

doi:10.1021/acs.nanolett.8b04322

Cited by 30 publications

(44 citation statements)

References 36 publications

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“…While the lattice parameter of the BFO/LAO film is already large in the as-grown strain state and increasing moderately with He doping, the lattice of the BFO/LSAT film shows an extraordinary expansion due to the phase transition towards the highly tetragonal T-like BFO polymorph. This response is in perfect agreement with previous work which demonstrated tailoring of morphotropic BFO phases with strain doping [19].…”

Section: Methodssupporting

confidence: 92%

“…As an example, He ion implantation can modify oxygen octahedral rotations in perovskites [18], which can change orbital overlaps and consequently reduce electronic band gaps [35,36]. Similarly, strain doping has been shown to cause a series of structural phase transition in T-BFO that can be linked to a rotation of the polarization vector towards out of plane [19]. Most polar perovskites possess lower electronic band gaps in their tetragonal phase than in their rhombohedral phase.…”

Section: Resultsmentioning

confidence: 99%

“…Previous work demonstrated that low-energy He ion implantation can be used to introduce uniaxial strain in epitaxial oxide thin films [17,18]. Strain doping of BFO films recently showed it is possible to exert continuous control of morphotropic phase composition, i.e., the direct transformation of R-to T films postsynthesis [19]. Uniaxial out-of-plane lattice expansion induced by strain doping thereby offers an excellent opportunity to generate a full array of strain states that are otherwise impossible to achieve by biaxial in-plane strain via standard epitaxy.…”

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confidence: 99%

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Optical response of BiFeO3 films subjected to uniaxial strain

Herklotz

Rus

Sohn

et al. 2019

Phys. Rev. Materials

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The impact of single-axis lattice expansion on the optical response of BiFeO 3 films is examined. Low-energy He implantation is used to tailor morphotropic phases of BiFeO 3 films and study changes in their optical spectra with continuously increasing lattice expansion. He ion implantation of epitaxial rhombohedral (R)and tetragonal (T)-like BiFeO 3 films induces uniaxial out-of-plane strain that, on R-like films, eventually leads to a complete R-T phase transition. This approach allows us to provide insights into the optical response of BiFeO 3 films. Strain doping of T-like films leads to a significant redshift of the optical absorption spectra that is theoretically explained by a lowering of Fe 3d t 2g states. R-like films, on the other hand, show a less-pronounced sensitivity to uniaxial strain and a blueshift of about 250 meV at the strain-induced R-T transition. The results demonstrate that strain doping allows a deeper examination of the optical properties of epitaxial phases that are otherwise impossible to access by standard epitaxy.

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Section: Methodssupporting

confidence: 92%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

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Optical response of BiFeO3 films subjected to uniaxial strain

Herklotz

Rus

Sohn

et al. 2019

Phys. Rev. Materials

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“…4c and 4d) reveals the realization of true T phase (not MC phase) BFO via this proposed method. Although the nearly tetragonal phase on LAO 58 and YSZ 59 substrates by biaxial strain and true T phase on LAO by chemical doping 49 or uniaxial strain [37][38][39] have been reported, here we obtain true T phase BFO using biaxial strain. RSM data of 50 nm-thick BFO on STO, NSO and LSAT (as shown in Fig S4, Fig S5 and Fig S6, respectively) further demonstrate the coexistence of R and T-like phases in agreement with AFM measurements (Fig.…”

Section: Resultscontrasting

confidence: 49%

Strain Engineering of Epitaxial Oxide Heterostructures Beyond Substrate Limitations

Deng

Chen

et al. 2019

SSRN Journal

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“…Due to its nobility, helium implants interstitially, without chemical substitution, thus inducing a "swelling" of the host material's unit cell volume [19]. Helium implantation is customarily achieved by laboratory ion sources [7,[20][21][22][23], similar to those used for wafer processing in semiconductor engineering. Another route-the one chosen in the present work-is to use a helium ion microscope as a way to implant ions locally.…”

Section: Introductionmentioning

confidence: 99%