Publications by authors named "Motohiro Mizuno"

As the number of chiral ring molecules in chiral polyrotaxane increases, the number of possible stereoisomers exponentially increases. Consequently, the selective synthesis of a specific stereoisomer becomes much more challenging. To address this problem, we co-crystallized poly(ethylene glycol) and a diastereomeric ring molecule, pillar[5]arene, in the solid state.

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  • Organic dyes are widely used but their leakage into the environment is a global issue due to toxicity and nonbiodegradability, prompting the need for effective removal technologies.
  • This article discusses the synthesis of highly fluorinated conjugated microporous polymers that show promising adsorption properties, with a surface area of up to 1063 m²/g for removing cationic organic dyes from water.
  • The fluorinated polymers demonstrate a strong adsorption capacity of 313 mg/g for crystal violet, outperforming traditional adsorbents and also function as proton channels in lipid membranes.
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  • - Chiral molecular assemblies are studied for their unique physical properties, particularly in spin-selective electron transport, and the research focuses on cation-anion salts of azolium cations with chiral camphorsulfonate and their racemic forms.
  • - The study found that while cations with triazolium showed better proton conductivity and lower activation energy in homochiral forms, imidazolium cations displayed similar conductivity in both homochiral and racemic forms.
  • - The differences in molecular motion were significant: the homochiral triazolium exhibited coupled rotational and translational motion, while its racemic counterpart had steady rotational motion, highlighting how controlling molecular movements in chiral crystals can enhance
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This study investigates the gate-opening closed-to-open-pore structural transition of a porous coordination polymer induced by CO adsorption. Solid-state C NMR examination of adsorbed CO and framework dynamics reveals the surface adsorption state of the closed structure below the transition pressure and an intermediate structure during the transition process.

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We report that a newly developed type of triaryltriazine rotor, which bears bulky silyl moieties on the position of its peripheral phenylene groups, forms a columnar stacked clutch structure in the crystalline phase. The phenylene units of the crystalline rotors display two different and interconvertible correlated molecular motions. It is possible to switch between these intermolecular geared rotational motions via a thermally induced crystal-to-crystal phase transition.

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Topochemical reactions provide selective products based on the molecular position; however, they generally require molecules to be placed in strictly limited orientations and distances, making them less versatile. In this study, we found that by confining -4-styrylpyridine (4-spy) as a reactive substrate in a flexible metal-organic framework (MOF) nanospace, [2+2] cycloadducts can be selectively obtained, even when the distance between two C═C bonds of 4-spy in the crystal is 5.9 Å, which is much larger than the conventionally observed upper limit (4.

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Vapochromic materials that exhibit color/luminescence changes induced by vapor exposure have attracted considerable attention. Herein, we report the grinding- and heating-induced ON-OFF switching of the vapochromic behavior of [Pt(ppyCl)(Clacac)] (; ppyCl = 2-(3-chlorophenyl)-4-chloropyridinato, Clacac = 3-chloroacetylacetonato). formed yellow and orange polymorphs ( and ), and could be converted to , which showed a very similar crystal structure but with a broadened X-ray diffraction pattern compared with that of .

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Utilizing molecular motion is essential for the use of anhydrous superprotonic molecular proton conductors (σ beyond 10  S cm ) as electrolytes in hydrogen fuel cells. However, molecular motion contributing to the improvement of intrinsic proton conduction has been limited and little clarified in relation to the proton conduction mechanism, limiting the development of material design guidelines. Here, a salt with a three-dimensional (3D) hydrogen-bonded (H-bonded) phosphate network with imidazolium cations installed inside was studied, whose components are known to exhibit molecular motions that contribute to proton conduction.

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Confined space provides a reaction platform with altered reaction rate and selectivity compared with a homogeneous solution. In this work, porous phenolic pillar[5]arene crystals were used as a reaction space to promote and perturb equilibrium between lactones and their corresponding polyesters. Immersion of porous pillar[5]arene crystals in liquid lactones induced ring-opening polymerization of δ-valerolactone and ϵ-caprolactone at room temperature because the phenolic hydroxy groups have catalytic activity via hydrogen bonds and the pillar[5]arene cavities prefer linear guests.

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Glassy-state coordination polymers (CPs) are a new class of network-forming glasses. In this work, we constructed glass-forming CPs composed of both anionic and neutral ligands as network formers. With the use of hexafluoro anions (MF) and 1,3-bis(4-pyridyl)propane (bpp), two isostructural CP crystals, [Zn(SiF)(bpp)] () and [Zn(TiF)(bpp)] (), were synthesized.

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Invited for the cover of this issue is mainly the group of Makoto Tadokoro and co-workers at Tokyo University of Science. Other co-workers are Masaki Itoh, Ryota Nishimura, Kensuke Sekiguchi (TUS students), Dr. Norihisa Hoshino (Tohoku Univ.

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Understanding the adsorption and diffusional dynamics of CO in metal-organic frameworks (MOFs) is essential in the application of these materials to CO capture and separation. We show that the dynamics of adsorbed CO is related to the rotational motion of ligands located in the narrow pore windows of a MOF using solid-state nuclear magnetic resonance (NMR) spectroscopy. NMR analyses of local dynamics reveal that CO adsorbed in the pore hinders the rotation of the ligands.

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A new H-bonded crystal [Ru (Him) (Im) ] with three imidazole (Him) and three imidazolate (Im ) groups was prepared to obtain a higher-temperature proton conductor than a Nafion membrane with water driving. The crystal is constructed by complementary N-H⋅⋅⋅N H-bonds between the Ru complexes and has a rare Icy-c* cubic network topology with a twofold interpenetration without crystal anisotropy. The crystals show a proton conductivity of 3.

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Vapochromic Pt(ii) complexes that exhibit color and luminescence changes induced by the presence of vapor molecules have drawn considerable attention because of their potential use as vapor sensors. Generally, the vapochromic responsiveness of Pt(ii)-based complexes is difficult to envisage, because a typical molecular design facilitates the stabilization of a vapor-adsorbed form through weak intermolecular interactions. Herein, we investigate the vapochromic behavior of a Pt(ii) complex with potassium ions, which act as vapor coordination sites, by strongly stabilizing the vapor-adsorbed form.

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Molecular glasses are low-molecular-weight organic compounds that are stable in the amorphous state at room temperature. Herein, we report a state- and water repellency-controllable molecular glass by -alkane guest vapors. We observed that a macrocyclic host compound pillar[5]arene with the CF fluoroalkyl groups changes from the crystalline to the amorphous state (molecular glass) by heating above its melting point and then cooling to room temperature.

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Polypseudorotaxanes constructed from pillar[5]arene rings and polyamide chains were successfully synthesized by interfacial polymerization between diamines and dicarbonyl chlorides in the presence of pillar[5]arene. The dicarbonyl chloride length and the assocation constants of dicarbonyl chloride-pillar[5]arene complexes were important factors in producing polypseudorotaxanes with high cover ratio of pillar[5]arene rings.

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Biomolecules may undergo liquid-liquid phase separation (LLPS) to spatiotemporally compartmentalize and regulate diverse biological processes. Because the number of tools to directly probe LLPS is limited (ie. FRAP, FRET, fluorescence microscopy, fluorescence anisotropy, circular dichroism, etc.

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Article Synopsis
  • - The study investigates the proton conduction mechanisms in anhydrous organic crystalline materials with imidazolium hydrogen succinate (Im-Suc), which are promising for solid electrolytes in fuel cells due to their high proton conductivity above 100 °C.
  • - Quantum chemical calculations were employed to analyze changes in hydrogen bonding and molecular rotation, helping to characterize the local structures essential for effective proton conduction.
  • - Findings indicate that proton transfer between imidazole and succinic acid is a key rate-limiting step in proton transport, revealing that proton conduction operates through a combination of proton transfer and molecular motion in a Grotthuss-type mechanism.
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Invited for the cover of this issue are Tomoki Ogoshi and co-workers at Kyoto University, Kanazawa University and Tokyo University of Agriculture and Technology. The image depicts musical notation to represent hydrogen bond networks and poly(ethylene oxide) chains. Read the full text of the article at 10.

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Poly(ethylene oxide)s (PEOs) are useful polymers with good water solubility, biological compatibility, and commercial availability. PEOs with various end groups were threaded into pillar[5]arene rings in a mixture of water and methanol to afford pseudopolyrotaxanes. Corresponding polyrotaxanes were also constructed by capping COOH-terminated pseudopolyrotaxanes with bulky amines, in which multiple hydrogen bonds involving the pillar[5]arene OH groups were critically important to prevent dethreading.

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Solvents with a wide range of polarities, including poly(dimethylsiloxane) and oligo(dimethylsiloxane), were used to evaluate aromatic donor-acceptor interactions between pyrene and pyromellitic diimide derivatives. The donor-acceptor interactions were stronger in siloxane solvents than in aliphatic solvents, possibly because of the poor solubility of the aromatics in siloxanes.

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Confinement of polymers in nano-spaces can induce unique molecular dynamics and properties. Here we show molecular weight fractionation by the confinement of single polymer chains of poly(ethylene oxide) (PEO) in the one-dimensional (1D) channels of crystalline pillar[5]arene. Pillar[5]arene crystals are activated by heating under reduced pressure.

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State change is a key phenomenon in materials science. We report the first observation of vapor-responsive reversible structural liquid-to-solid and solid-to-structural liquid state changes. We observed that a macrocyclic compound, a pillar[6]arene derivative bearing 12 n-hexyl substituents, is a room temperature structural liquid with unique properties.

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  • The study investigates cellulose nanocrystal films with different structural arrangements using sodium (Na) solid-state NMR spectroscopy.
  • It finds that Na cations are well hydrated and move in confined spaces, with more dynamic behavior in films with disordered structures compared to ordered ones.
  • The research provides detailed insights into the environments of Na within these films and suggests that NMR spectroscopy can effectively characterize the order in nanocellulose samples.
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Host-guest complexation has been mainly investigated in solution, and it is unclear how guest molecules access the assembled structures of host and dynamics of guest molecules in the crystal state. In this study, we studied the uptake, release, and molecular dynamics of n-hexane vapor in the crystal state of pillar[5]arenes bearing different substituents. Pillar[5]arene bearing 10 ethyl groups yielded a crystal structure of herringbone-type 1:1 complexes with n-hexane, whereas pillar[5]arene with 10 allyl groups formed 1:1 complexes featuring a one-dimensional (1D) channel structure.

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