The effect of fluorine substituents on the crystal structure and spin crossover behavior of the cation [Mn^III(3,5-diHal-sal₂323)]⁺ complex family with BPh₄ anions

Abstract: The mononuclear Mn(III) cation spin-crossover complexes with Schiff base ligands 3,5-diF-sal2323 and 3,5-Br,F-sal2323 have been synthesized: [Mn(3,5-diF-sal2323)]BPh4 (1) and two polymorphic modifications (2 and 3) of [Mn(3,5-Br,F-sal2323)]BPh4. Their crystal structure...

“…73 Our detailed studies on [Mn(X-sal 2 -323)](ReO 4 ) (X = 5 Cl, 1 ; X = 5 Br, 2 ; X = 3,5 Cl, 3 ; X = 3,5 Br, 4 ; and X = 5 NO 2 , 5 ) confirm the significant impact of the ligand substituent on the spin-state switching behavior of the manganese( iii ) center in a MnN 4 O 2 coordination environment, where the cooperative effect coming from the solid-state structural features plays a very important role. In addition, our comprehensive findings along with the similar manganese( iii ) complexes having an isostructural [Mn(X-sal 2 -323)] + unit with various counter anions (BPh 4 − , ClO 4 − , NO 3 − , PF 6 − , TCNQ 1.5 − , OTf − , NTf 2 − , and ReCl 6 − ) 57–87 (Tables S12–S17†) allow us to conclude the immense effect of the ReO 4 − counter anion on the spin-state switching feature of manganese( iii ) complexes in a MnN 4 O 2 coordination environment.…”

“…54–56 Since then, many research groups including us have been exploring spin-state switching of the manganese( iii ) system in MnN 4 O 2 based on N 4 O 2 hexadentate Schiff base ligands. 57–87…”

Spin-state switching: chemical modulation and the impact of intermolecular interactions in manganese(iii) complexes

“…73 Our detailed studies on [Mn(X-sal 2 -323)](ReO 4 ) (X = 5 Cl, 1 ; X = 5 Br, 2 ; X = 3,5 Cl, 3 ; X = 3,5 Br, 4 ; and X = 5 NO 2 , 5 ) confirm the significant impact of the ligand substituent on the spin-state switching behavior of the manganese( iii ) center in a MnN 4 O 2 coordination environment, where the cooperative effect coming from the solid-state structural features plays a very important role. In addition, our comprehensive findings along with the similar manganese( iii ) complexes having an isostructural [Mn(X-sal 2 -323)] + unit with various counter anions (BPh 4 − , ClO 4 − , NO 3 − , PF 6 − , TCNQ 1.5 − , OTf − , NTf 2 − , and ReCl 6 − ) 57–87 (Tables S12–S17†) allow us to conclude the immense effect of the ReO 4 − counter anion on the spin-state switching feature of manganese( iii ) complexes in a MnN 4 O 2 coordination environment.…”

“…54–56 Since then, many research groups including us have been exploring spin-state switching of the manganese( iii ) system in MnN 4 O 2 based on N 4 O 2 hexadentate Schiff base ligands. 57–87…”

Spin-state switching: chemical modulation and the impact of intermolecular interactions in manganese(iii) complexes

“…There are a few exceptions to this: [Mn­(3-NO 2 -sal-323)]­BPh 4 ·2MeCN, [Mn­(3,5-diCl-sal-323)]­BPh 4 , , [Mn­(3,5-diBr-sal-323)]­BPh 4 , [Mn­(3,5-Br,X-sal-323)]­BPh 4 , , and [Mn­(3-OMe-5-NO 2 -sal 2 -323)]­NTf 2 ( 6b ). All of these exhibit more than one unique Mn 3+ site in the crystal structure as well as sterically demanding substituents on the ligand and also contain a large counterion.…”

Compressed and Expanded Lattices - Barriers to Spin-State Switching in Mn³⁺ Complexes

“…Subject to these factors, SCO may become synergistic, and the octahedral configuration of the corresponding complexes will be distorted. 13,26,[30][31][32][33][34][35][36] The SCO might be associated with crystallographic phase transition, and in turn, the detailed SCO study has clarified phase-transition modes like stepwise and hysteretic.…”

“…When introducing two F or F and Br in positions 3 and 5 of the phenolate nucleus, [Mn(3,5-diF-sal-N-1,5,8,12)]BPh 4 and two polymorphic modifications [Mn(3,5-F,Br-sal-N-1,5,8,12)]-BPh 4 (monoclinic and triclinic) show different magnetic properties. 34 Monoclinic complexes [Mn(3,5-diF-sal-N-1,5,8,12)]BPh 4 and [Mn(3,5-F,Br-sal-N-1,5,8,12)]BPh 4 undergo a slow and complete SCO. However, triclinic [Mn(3,5-F,Br-sal-N-1,5,8,12)]BPh 4 stays in a HS state within 2-300 K. These results showed that different ligand substituents produced different ligand field strength and intermolecular interactions, which affected the synergistic effect and SCO behavior.…”

Probing the effect of substituents and solvent on [Mn(R-sal-N-1,5,8,12)]BPh₄: a systematic investigation of SCO properties