Coadsorption of Tb^III–Porphyrin Double-decker Single-molecule Magnets in a Porous Molecular Network: Toward Controlled Alignment of Single-molecule Magnets on a Carbon Surface

Abstract: A self-assembled monolayer of a mixture of radical 2,3,7,8,12,13,17,18-octaethylporphyrin 8,9 In studies of nanocarbon/SMM composites, spin valve effects are important, and the magnetic state of SMMs on nanocarbon materials can be detected by electrical signals. Here, we report the first successful detection of the magnetic states of SMMs on a 2D surface. Research into nanocarbon/SMM composites is of great interest for technological applications of SMMs, such as high-density data storage. In this context, c… Show more

“…51,52 Tb III -porphyrin double-decker complexes have an important feature: they are present in three forms, i.e., protonated, anionic, and radical forms (Schemes 1 and S1 †), and the electronic and magnetic properties of these forms can be switched as reversible interconversion between these forms is possible. 48,51 Although the supramolecular structures of lanthanidetetraazolic-based double-decker complexes on at nanocarbon surfaces, i.e., HOPG, have been extensively studied, 45,46,[53][54][55][56][57][58] the self-assembly of arrays on the curved carbon surfaces of SWNTs has not been reported yet, and it remains difficult to predict and understand the structures. However, some attempts have been made to reveal the chemistry needed to bridge the carbon nanotubes and double-decker domains.…”

Supramolecular structures of terbium(iii) porphyrin double-decker complexes on a single-walled carbon nanotube surface

“…51,52 Tb III -porphyrin double-decker complexes have an important feature: they are present in three forms, i.e., protonated, anionic, and radical forms (Schemes 1 and S1 †), and the electronic and magnetic properties of these forms can be switched as reversible interconversion between these forms is possible. 48,51 Although the supramolecular structures of lanthanidetetraazolic-based double-decker complexes on at nanocarbon surfaces, i.e., HOPG, have been extensively studied, 45,46,[53][54][55][56][57][58] the self-assembly of arrays on the curved carbon surfaces of SWNTs has not been reported yet, and it remains difficult to predict and understand the structures. However, some attempts have been made to reveal the chemistry needed to bridge the carbon nanotubes and double-decker domains.…”

Supramolecular structures of terbium(iii) porphyrin double-decker complexes on a single-walled carbon nanotube surface

“…The selfassembly of molecules using weak intermolecular interactions enables the construction of well-ordered and clean molecular nanosheet. 22 Similarly, coadsorption of lanthanoid phthalocyaninato double-decker complexes (Tb 3+ , Dy 3+ and Ho 3+ complexes behave as SMM 3,23 ) and the supramolecular network 24 is an alternative method to construct SMM nanosheets. However, it is difficult to predict the resultant structures and achieve large surface coverage while controlling the number of layers.…”

Construction of a two-dimensional metal–organic framework with perpendicular magnetic anisotropy composed of single-molecule magnets

“…[35,36] Recently,weh ave investigated the SMM behavioro ft erbium bis(porphyrinato) double-decker complexes and their self-assembly on surfaces, with the aim of achieving SMM-based molecular devices. [37][38][39][40] They exhibit unique reversible ON/OFF switching of the SMM behaviorb yp rotonation/deprotonation. [37,38] The protonated form does not exhibit SMM behavior at any temperature range, whereas both the anion and radical forms exhibit SMM behavior.A ttachment of ap roton to one of the eight nitrogen atoms of the ligand significantly decreases the symmetry of the coordination geometry aroundt he terbium ion, [37,41] which leads to the disappearance of SMM properties for the protonated form.…”

“…Recently, we have investigated the SMM behavior of terbium bis(porphyrinato) double‐decker complexes and their self‐assembly on surfaces, with the aim of achieving SMM‐based molecular devices . They exhibit unique reversible ON/OFF switching of the SMM behavior by protonation/deprotonation .…”

Redox‐Driven Symmetry Change for Terbium(III) Bis(porphyrinato) Double‐Decker Complexes by the Azimuthal Rotation of the Porphyrin Macrocycles