We present the influence of positional isomerism on the crystal structure of fluorobenzylammonium copper(II) chloride perovskites ACuCl by incorporating , -, and -fluorine substitution in the benzylamine structure. Two-dimensional (2D) polar ferromagnet (3-FbaH)CuCl (3-FbaH = 3-fluorobenzylammonium) is successfully obtained, which crystallizes in a polar orthorhombic space group 2 at room temperature. In contrast, both (2-FbaH)CuCl (2-FbaH = 2-fluorobenzylammonium) and (4-FbaH)CuCl (4-FbaH = 4-fluorobenzylammonium) crystallize in centrosymmetric space groups 2/ and at room temperature, respectively, displaying significant differences in crystal structures. These differences indicate that the position of the fluorine atom is a driver for the polar behavior in (3-FbaH)CuCl. Preliminary magnetic measurements confirm that these three perovskites possess dominant ferromagnetic interactions within the inorganic [CuCl] layers. Therefore, (3-FbaH)CuCl is a polar ferromagnet, with potential as a type I multiferroic. This work is expected to promote further development of high-performance 2D copper(II) halide perovskite multiferroic materials.
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