2022
DOI: 10.1021/acsomega.2c02155
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Asymmetric Assembly of Chiral Lanthanide(III) Tetranuclear Cluster Complexes Using Achiral Mixed Ligands: Single-molecule Magnet Behavior and Magnetic Entropy Change

Abstract: It is challenging to use achiral ligands to spontaneously construct chiral molecular magnets. In this work, two new Ln 4 cluster complexes based on N , N ′-(1,3-propanediyl)bis[ N -[1,1-bis(hydroxymethyl)-2-hydroxyethyl]amine] (H 6 L) have been assembled, which are crystallized in a chiral space group due to the asymmetric distribution of acetate (OAc – ) groups and hexafluo… Show more

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Cited by 10 publications
(13 citation statements)
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“…26 The large C value (28.27 s −1 K −2.14 ) confirms the significant Raman process in D-1. 28,48,51,52 The U eff /k of D-1 (57.5 K) is comparable with those of other Dy 4 complexes derived from the L1 2− ligand. 48,49 The Cole−Cole curves at 5−10 K could be fitted with a generalized Debye model (Figure 4d), 53,54 giving the α values of 0.077−0.185, which are relatively small, suggesting the narrow relaxation time distribution for D-1.…”
Section: ■ Results and Discussionsupporting
confidence: 73%
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“…26 The large C value (28.27 s −1 K −2.14 ) confirms the significant Raman process in D-1. 28,48,51,52 The U eff /k of D-1 (57.5 K) is comparable with those of other Dy 4 complexes derived from the L1 2− ligand. 48,49 The Cole−Cole curves at 5−10 K could be fitted with a generalized Debye model (Figure 4d), 53,54 giving the α values of 0.077−0.185, which are relatively small, suggesting the narrow relaxation time distribution for D-1.…”
Section: ■ Results and Discussionsupporting
confidence: 73%
“…Notably, the χ″−ν plot not only shows a wide peak shape at low temperatures but also a platform shape appears in the high-frequency region as the temperature increases (Figure 4b), indicating the presence of a significant Raman process. 28,51,52 The ln(τ) versus 1/T plot based on the χ″−ν curve peaks at different temperatures is a curve rather than a straight line (Figure 4c), therefore, τ −1 = τ QTM −1 + CT n + τ 0 −1 exp(−U eff /kT), which includes the quantum tunneling effect, the Orbach process, and the Raman process, was used to fit this curve, giving τ QTM = 0.00738 s, n = 2.14, C = 28.27 s −1 K −2.14 , U eff /k = 57.5 K and τ 0 = 1.0 × 10 −6 s. The n value of 2.14 (1 < n < 6) and the τ 0 value of 1.0 × 10 −6 s (10 −6 −10 −11 s) are reasonable. 26 The large C value (28.27 s −1 K −2.14 ) confirms the significant Raman process in D-1.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…Similarly, the construction of chiral SMMs using chiral additives is facile; however, it is a challenge to obtain two enantiomeric complexes via spontaneous resolution utilizing achiral ligands. 35,36 R e c e n t l y , a c h i r a l d i n u c l e a r [ C o I I I ( H 0 . 5 L 1 ) -Dy III (DBM) 2 (H 2 O)](ClO 4 ) 0.5 •3H 2 O SMM, 37 4)), and the different enantiomers (Λ and Δ) are isolated and characterized, respectively.…”
Section: ■ Introductionmentioning
confidence: 99%
“…Currently, new multifunctional crystalline materials with optical, electrical, magnetic, and other properties have been widely used in high-efficiency catalysis, nonlinear optics, high-density information storage, molecular converters, chiral recognition, biomedicine, and so on. ,, Three main methods have been used for the construction of common chiral SMMs: chiral ligands via chirality transmitting, chiral additives via chirality induction, and achiral ligands via spontaneous resolution. Among the available chiral SMMs, most are chiral ligands-based ones, which are easy to synthesize. Similarly, the construction of chiral SMMs using chiral additives is facile; however, it is a challenge to obtain two enantiomeric complexes via spontaneous resolution utilizing achiral ligands. , …”
Section: Introductionmentioning
confidence: 99%
“…Single-molecule magnets (SMMs) are nanomagnets composed of single molecules that exhibit magnetic bistability at the magnetic blocking temperature. , Although much difficult to synthesize than achiral SMMs, chiral SMMs have attracted more and more attention in recent years as a special class of multifunctional molecular materials. They not only have advantages in high-density information storage but also perform well in chirality-induced properties such as ferroelectrics, second-order nonlinear optics, , magnetochiral dichroism (MChD), , magneto-optical Faraday effect, , and circularly polarized luminescence. , Except for very few examples obtained by spontaneous chiral resolution after assembly with achiral ligands, ,, most chiral SMMs derive their chirality directly from bonded chiral ligands or even from the chiral organic molecules participating in the cocrystal . However, it is still difficult to obtain chiral SMMs through the coordination of chiral ligands due to the tendency of chiral molecules to spontaneously form racemates in solution .…”
Section: Introductionmentioning
confidence: 99%