Add to ORKGThe central goal of crystal engineering is to control material function via rational design of structure. A particularly successful realisation of this paradigm is hybrid improper ferroelectricity in layered perovskite materials, where layering and cooperative octahedral tilts combine to break inversion symmetry. However, in the parent family of inorganic ABX3 perovskites, symmetry prevents hybrid coupling to polar distortions. Here, we use group-theoretical analysis to uncover a profound enhancement of the number of improper ferroelectric coupling schemes available to molecular perovskites. This enhancement arises because molecular substitution diversifies the range of distortions possible. Not only do our insights rationalise the emergenc...
We introduce columnar shifts—collective rigid-body translations—as a structural degree of freedom re...
We introduce columnar shifts—collective rigid-body translations—as a structural degree of freedom re...
While nature provides a plethora of perovskite materials, only a few exhibit large ferroelectricity ...
The central goal of crystal engineering is to control material function via rational design of struc...
The central goal of crystal engineering is to control material function via rational design of struc...
peer reviewedABO3 perovskites have fascinated solid-state chemists and physicists for decades becaus...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
Recent work on layered perovskites has established the group theoretical guidelines under which a co...
N. A. B. was supported by The Welch Foundation under Grant. No. F-1803. J. M. R. acknowledges suppor...
We use a combination of symmetry arguments and first-principles calculations to explore the connecti...
Perovskite oxides are functionally and structurally very diverse materials largely due to their abu...
Geometric ferroelectrics are called as improper ferroelectrics where geometric structural constraint...
Herein we highlight the ability to tune the structural chemistry of A-site deficient perovskite mate...
Crystalline materials that combine electrical polarization and magnetization could be advantageous i...
We introduce columnar shifts—collective rigid-body translations—as a structural degree of freedom re...
We introduce columnar shifts—collective rigid-body translations—as a structural degree of freedom re...
While nature provides a plethora of perovskite materials, only a few exhibit large ferroelectricity ...
The central goal of crystal engineering is to control material function via rational design of struc...
The central goal of crystal engineering is to control material function via rational design of struc...
peer reviewedABO3 perovskites have fascinated solid-state chemists and physicists for decades becaus...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
Recent work on layered perovskites has established the group theoretical guidelines under which a co...
N. A. B. was supported by The Welch Foundation under Grant. No. F-1803. J. M. R. acknowledges suppor...
We use a combination of symmetry arguments and first-principles calculations to explore the connecti...
Perovskite oxides are functionally and structurally very diverse materials largely due to their abu...
Geometric ferroelectrics are called as improper ferroelectrics where geometric structural constraint...
Herein we highlight the ability to tune the structural chemistry of A-site deficient perovskite mate...
Crystalline materials that combine electrical polarization and magnetization could be advantageous i...
We introduce columnar shifts—collective rigid-body translations—as a structural degree of freedom re...
We introduce columnar shifts—collective rigid-body translations—as a structural degree of freedom re...
While nature provides a plethora of perovskite materials, only a few exhibit large ferroelectricity ...