Search

Your search keyword '"*ROTAXANES"' showing total 1,259 results
Start Over "*ROTAXANES" Publisher american chemical society
1,259 results on '"*ROTAXANES"'

53. Mesomorphic [2]rotaxanes: sheltering ionic cores with interlocking components.

Author

Suhan ND, Loeb SJ, and Eichhorn SH

Subjects
Crystallography, X-Ray, Ions chemical synthesis, Ions chemistry, Models, Molecular, Molecular Structure, Particle Size, Pyridinium Compounds chemistry, Rotaxanes chemical synthesis, Surface Properties, Temperature, Rotaxanes chemistry
Abstract

Two types of liquid crystalline [2]rotaxanes based on a conventional tetracatenar motif (a rod-shaped molecule with two side chains at each end) have been prepared. Dicationic compounds with ester stoppers and tetracationic materials with pyridinium stoppers are compared to each other and their dumbbell shaped analogs. Since the ionic core contributes about 70% to the overall length and molecular weight of the molecules, sheltering the ionic cores with an interlocked neutral macrocycle has considerable effect on the mesomorphism and thermal stability of the materials. The influence of the sheltering macrocycle, the numbers of charges on the core and the size and nature of the side chains (aliphatic vs siloxane) were probed. [2]Rotaxanes with linear side chains and minimum ratios of chain-to-core volumes of about 0.35 and 0.30 for tetra- and dicationic compounds, respectively, display smectic liquid crystal phases. Larger ratios increase the temperature range of the smectic A phases beyond the decomposition temperatures; a disadvantage for processing because no stable isotropic liquid phase is available. The change from tetra- to dicationic [2]rotaxanes increased not only the fluidity of their smectic A phases but also their thermal and chemical stability. Branched side chains (2-hexyldecyl) disfavor the formation of lamellar mesophases and, instead, induce higher ordered soft crystal phases. No liquid crystal phases but soft crystal phases are observed for the analogous di- and tetracationic compounds without an ion sheltering interlocked macrocycle (dumbbells).

Published
2013
Full Text
View/download PDF

55. Polymeric rotaxanes.

Author

Harada A, Hashidzume A, Yamaguchi H, and Takashima Y

Subjects
Macromolecular Substances chemical synthesis, Macromolecular Substances chemistry, Polymers chemical synthesis, Polymers chemistry, Rotaxanes chemical synthesis, Rotaxanes chemistry
Published
2009
Full Text
View/download PDF

56. Redox-responsive reverse vesicles self-assembled by pseudo[2]rotaxanes for tunable dye release.

Author

Zhang KD, Zhou TY, Zhao X, Jiang XK, and Li ZT

Subjects
Molecular Structure, Oxidation-Reduction, Rotaxanes chemistry, Coloring Agents chemistry, Rotaxanes chemical synthesis
Abstract

Reverse vesicles exhibiting functions similar to those of normal vesicles have been constructed through the self-assembly of TTF/CBPQT(4+)-based pseudo[2]rotaxanes in a nonpolar solvent. The ends of the threads of the pseudo[2]rotaxanes are attached with a Fréchet-type G-3 dendron and a hydrogen-bonded arylamide foldamer. These vesicles exhibit a response to redox. By exploiting the dynamic feature-spontaneously slow disassociation of the pseudorotaxanes-the sustained release of dyes embedded in the reverse vesicles has been demonstrated, which can be further tuned by changing the solvent polarity.

Published
2012
Full Text
View/download PDF

57. Synthesis of polyyne rotaxanes.

Author

Movsisyan LD, Kondratuk DV, Franz M, Thompson AL, Tykwinski RR, and Anderson HL

Subjects
Models, Molecular, Molecular Structure, Polyynes chemistry, Rotaxanes chemistry, Polyynes chemical synthesis, Rotaxanes chemical synthesis
Abstract

Active-metal templating has been used to synthesize rotaxanes consisting of a phenanthroline-based macrocycle threaded around a C8, C12, or C20 polyyne chain. The crystal structure of the C12 rotaxane has been determined. In the rhenium(I) carbonyl complex of this rotaxane, with Re(CO)(3)Cl coordinated to the phenanthroline macrocycle, the proximity of the polyyne chain quenches the luminescence of the rhenium. These rotaxanes offer a new approach to controlling the environment and interactions of a polyyne chain.

Published
2012
Full Text
View/download PDF

58. Rotaxanes and biofunctionalized pseudorotaxanes via thiol-maleimide click chemistry.

Author

Choudhary U and Northrop BH

Subjects
Catalysis, Click Chemistry, Models, Molecular, Molecular Structure, Rotaxanes chemistry, Maleimides chemistry, Rotaxanes chemical synthesis, Sulfhydryl Compounds chemistry
Abstract

Base-catalyzed thiol-maleimide click chemistry has been applied to the synthesis of neutral donor-acceptor [2]rotaxanes in good yield. This method is extended further to the synthesis of a glutathione-functionalized [2]pseudorotaxane, a precursor to integrated conjugates of interlocked molecules with proteins and enzymes., (© 2012 American Chemical Society)

Published
2012
Full Text
View/download PDF

59. Cucurbit[8]uril rotaxanes.

Author

Ramalingam V and Urbach AR

Subjects
Models, Molecular, Molecular Structure, Rotaxanes chemistry, Stereoisomerism, Bridged-Ring Compounds chemistry, Imidazoles chemistry, Rotaxanes chemical synthesis
Abstract

The synthesis of [2]rotaxanes, each comprising a viologen core threaded through a cucurbit[8]uril (Q8, Figure 1) macrocycle and stoppered by tetraphenylmethane groups, and their binding to second guests as inclusion complexes in organic and aqueous media are described. Stoppering was observed to have little effect on binding. Chemical modification of the threaded guest was used to control solubility and binding characteristics, thus demonstrating a novel approach to making artificial receptors with readily modifiable properties., (© 2011 American Chemical Society)

Published
2011
Full Text
View/download PDF

60. Enantioselective Anion Recognition by Chiral Halogen-Bonding [2]Rotaxanes.

Author

Lim, Jason Y. C., Marques, Igor, Felix, Vitor, and Beer, Paul D.

Subjects
*ROTAXANES, *HALOGENS, *ENANTIOSELECTIVE catalysis, *ANIONS, *MOLECULAR dynamics, *CHIRALITY, *MACROCYCLIC compounds
Abstract

The application of chiral interlocked host molecules for discrimination of guest enantiomers has been largely overlooked, which is surprising given their unique three-dimensional binding cavities capable of guest encapsulation. Herein, we combined the stringent linear geometric interaction constraints of halogen bonding (XB), the noncovalent interaction between an electrophilic halogen atom and a Lewis base, with highly preorganized and conformationally restricted chiral cavities of [2]rotaxanes to achieve enantioselective anion recognition. Representing the first detailed investigation of the use of chiral XB rotaxanes for this purpose, extensive 1H NMR binding studies and molecular dynamics (MD) simulation experiments revealed that the chiral rotaxane cavity significantly enhances enantiodiscrimination compared to the non-interlocked free axle and macrocycle components. Furthermore, by examining the enantioselectivities of a family of structurally similar XB [2]rotaxanes containing different combinations of chiral and achiral macrocycle and axle components, the dominant influence of the chiral macrocycle in our rotaxane design for determining the effectiveness of chiral discrimination is demonstrated. MD simulations reveal the crucial geometric roles played by the XB interactions in orientating the bound enantiomeric anion guests for chiral selectivity, as well as the critical importance of the anions' hydration shells in governing binding affinity and enantiodiscrimination. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

61. Porphyrin-Polyyne [3]- and [5]Rotaxanes.

Author

Kohn, Daniel R., Movsisyan, Levon D., Thompson, Amber L., and Anderson, Harry L.

Subjects
*PORPHYRINS, *ROTAXANES, *DIPYRROMETHANES, *CRYSTAL structure, *CHEMICAL synthesis, *PHENANTHROLINE
Abstract

Porphyrin-polyyne [3]- and [5]rotaxanes have been synthesized by condensing aldehyde-rotaxanes with pyrrole or dipyrromethane. The crystal structure of a [3]rotaxane shows that the macrocycles adopt compact conformations, holding the hexaynes near the porphyrin core, and that the phenanthroline units form intermolecular π-stacked dimers in the solid. Fluorescence spectra reveal singlet excited-state energy transfer from the threaded hexayne to the porphyrin, from the phenanthroline to the porphyrin, and from the phenanthroline to the hexayne. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

62. Foldaxanes: Rotaxane-like Architectures from Foldamers.

Author

Koehler V, Roy A, Huc I, and Ferrand Y

Subjects
Rotaxanes chemistry
Abstract

Mechanically interlocked molecules such as rotaxanes and catenanes contain free-moving components that cannot dissociate and have enabled the investigation and control of various translational and rotational molecular motions. The architecture of pseudo-rotaxanes and of some kinetically labile rotaxanes is comparable to that of rotaxanes but their components are reversibly associated and not irreversibly interlocked. In other words, pseudo-rotaxanes may fall apart. This Account focuses on a peculiar family of rotaxane-like architectures termed foldaxanes.Foldaxanes consist of a helically folded oligomer wound around a rod-like dumbbell-shaped guest. Winding of the helix around the rod thus entails an unwinding-rewinding process that creates a kinetic barrier. It follows that foldaxanes, albeit reversibly assembled, have significant lifetimes and may not fall apart while defined molecular motions are triggered. Foldaxanes based on helically folded aromatic oligoamide hosts and oligo(alkyl carbamate) guests can be designed rationally through the inclusion of complementary binding motifs on the rod and at the inner rim of the helix so that helix length and rod length match. Single helical foldaxanes (bimolecular species) and double helical foldaxanes (trimolecular species) have thus been produced as well as poly[ n ]foldaxanes, in which several helices bind to long rods with multiple binding stations. When the binding stations differ and are organized in a certain sequence, a complementary sequence of different stacked helices, each matching with their binding station, can be assembled, thus reproducing in an artificial system a sort of translation process.Foldaxane helix handedness may be controlled by stereogenic centers on the rod-like guest. Handedness can also be transmitted from helix to helix in polyfoldaxanes. Foldaxane formation has drastic consequences for the rod properties, including its stiffening and the restriction of the mobility of a macrocycle already interlocked on the rod. Fast translation (without dissociation) of helices along rod-like guests has been demonstrated. Because of the helical nature of the hosts, translation may be accompanied by rotation in various sorts of screw-like motions. The possibility, on longer time scales, for the helix to dissociate from and reassociate to the rod has allowed for the design of complex, kinetically controlled supramolecular pathways of a helix on a rod. Furthermore, the design of helices with a directionality, that is, with two distinct termini, that bind to nonsymmetrical rod-like guests in a defined orientation makes it possible to also control the orientation of molecular motion. Altogether, foldaxanes constitute a distinct and full-of-potential family of rotaxane-like architectures that possess designer structures and allow orchestration of the time scales of various supramolecular events.

Published
2022
Full Text
View/download PDF

63. Marked Sensitivity of Ultimate Elongation to Loading Axiality in Polyrotaxane Gels with Largely Slidable Cross Links.

Author

Aoyama T, Kato K, and Urayama K

Subjects
Gels, Rotaxanes
Abstract

Polyrotaxane (PR) gels with low ring densities have figure-of-eight cross links that can slide along network strands. The slidable cross links have a unique ability to increase the network strand length between adjacent cross links in the loading direction via chain supply from the stress-free direction, thereby enhancing the ultimate elongation (λ m ) of the gels. We reveal that this enhancement of λ m due to the slidable cross links is pronounced specifically in uniaxial stretching, while it is considerably modest in biaxial stretching. The sensitivity of λ m to loading axiality becomes larger as the ring densities decrease. The corresponding difference in λ m is markedly larger for the PR gels with low ring densities than that for the networks with fixed cross links. The exceptional sensitivity of λ m to loading axiality unveils a previously unidentified aspect of the chain-supply mechanism based on slidable cross links.

Published
2022
Full Text
View/download PDF

64. Fluorescence Quenching by Redox Molecular Pumping.

Author

Li X, David AHG, Zhang L, Song B, Jiao Y, Sluysmans D, Qiu Y, Wu Y, Zhao X, Feng Y, Mosca L, and Stoddart JF

Subjects
Biophysical Phenomena, Fluorescence, Fluorescent Dyes, Oxidation-Reduction, Rotaxanes chemistry
Abstract

Artificial molecular pumps (AMPs), inspired by the active cellular transport exhibited in biological systems, enable cargoes to undergo unidirectional motion, courtesy of molecular ratchet mechanisms in the presence of energy sources. Significant progress has been achieved, using alternatively radical interactions and Coulombic repulsive forces to create working AMPs. In an attempt to widen the range of these AMPs, we have explored the effect of molecular pumping on the photophysical properties of a collecting chain on a dumbbell incorporating a centrally located pyrene fluorophore and two terminal pumping cassettes. The AMP discussed here sequesters two tetracationic cyclophanes from the solution, generating a [3]rotaxane in which the fluorescence of the dumbbell is quenched. The research reported in this Article demonstrates that the use of pumping cassettes allows us to generate the [3]rotaxane in which the photophysical properties of fluorophores can be modified in a manner that cannot be achieved with a mixture of the dumbbell and ring components of the rotaxane on account of their weak binding in solution.

Published
2022
Full Text
View/download PDF

65. Fracture Behavior of Polyrotaxane-Toughened Poly(Methyl Methacrylate).

Author

Molero G, Liu C, Zhu Z, Chen Q, Peterson SR, Kolluru PV, Sue HJ, Uenuma S, Mayumi K, and Ito K

Subjects
Microscopy, Atomic Force, Polymers chemistry, Polymethyl Methacrylate chemistry, Rotaxanes chemistry
Abstract

The fracture behavior of polyrotaxane (PR)-modified poly(methyl methacrylate) (PMMA) was investigated. PR is a supramolecule with rings threaded onto a linear backbone chain, which is capped by bulky end groups to prevent the rings from de-threading. The ring structure is α-cyclodextrin (CD), and it can be functionalized to enhance its affinity with the hosting polymer matrix. Adding only 1 wt % of PR containing methacrylate functional groups (mPR) at the terminal of some of the polycaprolactone-grafted chains on CD promotes massive crazing, resulting in a significant improvement in fracture toughness while maintaining the modulus and transparency of the PMMA matrix. Dynamic mechanical analysis and atomic force microscopy studies reveal that mPR strongly interact with PMMA, leading to higher molecular mobility and enhanced molecular cooperativity during deformation. This molecular cooperativity may be responsible for the formation of massive crazing in a PMMA matrix, which leads to greatly improved fracture toughness.

Published
2022
Full Text
View/download PDF

66. Synthesis and investigation of host-[2]rotaxanes that bind metal cations.

Author

Wang X, Zhu J, and Smithrud DB

Subjects
Binding Sites, Cations chemistry, Molecular Structure, Rotaxanes chemistry, Stereoisomerism, Potassium chemistry, Rotaxanes chemical synthesis, Sodium chemistry
Abstract

Materials that bind metal cations are highly sought after for new devices. In this report, we show that rotaxanes can transfer metal cations with picrate, perchlorate, or chloride counterions from an aqueous solution into chloroform. The rotaxanes contain a dibenzyl-24-crown-8 ether as the wheel with either a benzyl-18-crown-6 ether (CEBG-R1-3) or a 3,5-dimethylbenzyl moiety (ArBG-R) as one blocking group. Alkali and alkaline picrate salts were efficiently extracted from an aqueous solution, presented in the millimolar range, into chloroform. Large association constants were derived for the complexes in chloroform, especially for the divalent cation Mg(2+). Switching the counterion to chloride greatly diminished the amount of salt extracted. To explore the transfer mechanism of the rotaxanes, a comparison was made in the amount of NaClO(4), KClO(4), NaCl, and KCl extracted by CEBG-R1, ArBG-R, benzyl-18-crown-6 ether (B18C6), and two model compounds, which were used to represent the crown-ether blocking group and the axle of a rotaxane. Two-dimensional NMR analysis was performed on the rotaxane-cation complexes in CDCl(3). We found that the host rotaxanes transfer the perchlorate salts poorly when compared to B18C6, but they transfer chloride salts from 1 M salt solutions, whereas B18C6 does not. The transfer of chloride salts appears to rely on an allosteric type relationship between the binding of the chloride ion and metal cation to a rotaxane. Accordingly, when chloride binds to the dialkylammonium ion of the axle, the wheel moves along the axle and forms a binding site for a metal cation. In this report we demonstrate that host rotaxanes can bind metal cations, change their geometries upon cation and anion association, and operate through allosteric mechanisms, making them promising candidates for molecular devices.

Published
2010
Full Text
View/download PDF

67. Sequence isomerism in [3]rotaxanes.

Author

Fuller AM, Leigh DA, and Lusby PJ

Subjects
Cyclization, Molecular Structure, Organometallic Compounds chemical synthesis, Organometallic Compounds chemistry, Palladium chemistry, Rotaxanes chemical synthesis, Stereoisomerism, Rotaxanes chemistry
Abstract

We describe a strategy for assembling different macrocycles onto a nonsymmetrical rotaxane thread in a precise sequence. If the macrocycles are small and rigid enough so that they cannot pass each other then the sequence is maintained mechanically, affording stereoisomerism in a manner reminiscent of atropisomerism. The method is exemplified through the synthesis of a pair of [3]rotaxane diastereomers that are constitutionally identical other than for the sequence of the different macrocycles on the thread. The synthesis features the iterative binding of different palladium(II) pyridine-2,6-dicarboxamide complexes to a pyridine ligand on the thread followed by their macrocyclization by ring-closing olefin metathesis. Removal of the palladium(II) from the first rotaxane formed frees the pyridine site to coordinate to a second, different, palladium(II) pyridine-2,6-dicarboxamide unit which, following macrocyclization, provides a multiring rotaxane of predetermined macrocycle sequence.

Published
2010
Full Text
View/download PDF

68. Efficient one-pot synthesis of rotaxanes bearing electron donors and [60]fullerene.

Author

Megiatto JD Jr, Spencer R, and Schuster DI

Subjects
Copper chemistry, Magnetic Resonance Spectroscopy, Porphyrins chemistry, Rotaxanes chemistry, Static Electricity, Fullerenes chemistry, Rotaxanes chemical synthesis
Abstract

An easy one-pot procedure to synthesize rotaxanes bearing electron donors and C(60) is described. The straightforward strategy, based on copper(I)-templated synthesis and "click" chemistry, proved to be very efficient and versatile, allowing the preparation of porphyrin- and ferrocene-stoppered fullerene-rotaxanes in high yields. As revealed by NMR analysis and computational studies, the highly flexible porphyrin-fullerene rotaxane can assume different conformations, which are most likely driven by attractive interactions between porphyrin and fullerene moieties.

Published
2009
Full Text
View/download PDF

69. Squaraine rotaxanes with boat conformation macrocycles.

Author

Fu N, Baumes JM, Arunkumar E, Noll BC, and Smith BD

Subjects
Carbon chemistry, Crystallography, X-Ray methods, Fluorescent Dyes chemistry, Magnetic Resonance Spectroscopy, Models, Chemical, Molecular Conformation, Molecular Structure, Oscillometry, Photochemistry methods, Pyridines chemistry, Rotaxanes chemistry, Cyclobutanes chemistry, Phenols chemistry, Rotaxanes chemical synthesis
Abstract

Mechanical encapsulation of fluorescent, deep-red bis(anilino)squaraine dyes inside Leigh-type tetralactam macrocycles produces interlocked squaraine rotaxanes. The surrounding macrocycles are flexible and undergo rapid exchange of chair and boat conformations in solution. A series of X-ray crystal structures show how the rotaxane co-conformational exchange process involves simultaneous lateral oscillation of the macrocycle about the center of the encapsulated squaraine thread. Rotaxane macrocycles with 1,4-phenylene sidewalls and 2,6-pyridine dicarboxamide bridging units are more likely to adopt boat conformations in the solid state than analogous squaraine rotaxane systems with isophthalamide-containing macrocycles. A truncated squaraine dye, with a secondary amine attached directly to the central C(4)O(2) core, is less electrophilic than the extended bis(anilino)squaraine analogue, but it is still susceptible to chemical and photochemical bleaching. Its stability is greatly enhanced when it is encapsulated as an interlocked squaraine rotaxane. An X-ray crystal structure of this truncated squaraine rotaxane shows the macrocycle in a boat conformation, and NMR studies indicate that the boat is maintained in solution. Encapsulation as a rotaxane increases the dye's brightness by a factor of 6. The encapsulation process appears to constrain the dye and reduce deformation of the chromophore from planarity. This study shows how mechanical encapsulation as a rotaxane can be used as a rational design parameter to fine-tune the chemical and photochemical properties of squaraine dyes.

Published
2009
Full Text
View/download PDF

70. Using photoresponsive end-closing and end-opening reactions for the synthesis and disassembly of [2]rotaxanes: implications for dynamic covalent chemistry.

Author

Tokunaga Y, Akasaka K, Hashimoto N, Yamanaka S, Hisada K, Shimomura Y, and Kakuchi S

Subjects
Hydrogen Bonding, Isomerism, Organic Chemistry Phenomena, Photochemical Processes, Rotaxanes chemistry, Solvents, Stilbenes chemistry, Rotaxanes chemical synthesis
Abstract

We have synthesized two [2]rotaxanes, each possessing a (Z)-alpha-methylstilbene unit as one of its stoppers, in good yield through the photoisomerization of terminal (E)-alpha-methylstilbene units of dialkylammonium salts in the presence of the crown ether dibenzo[24]crown-8 (DB24C8). The synthesis relies on the formation of pseudorotaxane intermediates through hydrogen bond-guided self-assembly and subsequent end-closing photoisomerization. An (E)-alpha-methylstilbene unit is not sufficiently bulky to prevent dissociation of the DB24C8 unit, whereas a (Z)-alpha-methylstilbene unit acts as a true stopper. We also synthesized these [2]rotaxanes from the (Z)-alpha-methylstilbene-terminated axle-like salts though thermodynamic covalent chemistry by taking advantage of the reversibility of the photoisomerization. To dissociate the components of the [2]rotaxanes, we performed the reverse end-opening process under UV irradiation (i.e., Z-to-E isomerization of the alpha-methylstilbene termini) in a polar solvent. These rotaxanes are stable at room temperature, but dissociate slowly to their two components at elevated temperatures.

Published
2009
Full Text
View/download PDF

71. Synthesis and photophysical investigation of squaraine rotaxanes by "clicked capping".

Author

Gassensmith JJ, Barr L, Baumes JM, Paek A, Nguyen A, and Smith BD

Subjects
Cyclobutanes chemical synthesis, Lactams, Macrocyclic chemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Phenols chemical synthesis, Photochemistry, Rotaxanes chemical synthesis, Spectrometry, Fluorescence, Cyclobutanes chemistry, Phenols chemistry, Rotaxanes chemistry
Abstract

Pseudorotaxane complexes of squaraine dyes and tetralactam macrocycles are converted into permanently interlocked rotaxane structures using copper-catalyzed and copper-free cycloaddition reactions with bulky stopper groups. The photophysical properties of the encapsulated squaraine depend on the structure of the macrocycle. In one case, squaraine rotaxanes are produced in near-quantitative yields and with intense near-IR fluorescence. In another case, squaraine fluorescence is greatly diminished upon macrocyclic encapsulation but the signal can be restored by dye displacement with anions.

Published
2008
Full Text
View/download PDF

72. Molecular fibers and wires in solid-state and solution self-assemblies of cyclodextrin [2]rotaxanes.

Author

Maniam S, Cieslinski MM, Lincoln SF, Onagi H, Steel PJ, Willis AC, and Easton CJ

Subjects
Aniline Compounds chemistry, Crystallography, X-Ray, Cyclodextrins chemistry, Dicarboxylic Acids chemistry, Models, Molecular, Molecular Structure, Rotaxanes chemistry, Cyclodextrins chemical synthesis, Rotaxanes chemical synthesis
Abstract

Cyclodextrin [2]rotaxanes have been prepared by coupling dimethylanilines with dicarboxylic acids using DMT-MM, in aqueous solutions of alpha-cyclodextrin, and the example illustrated shows unusual fluorescence emission and other spectroscopic behavior characteristic of the formation of molecular wires in solution, similar to the fibers observed in the solid state.

Published
2008
Full Text
View/download PDF

73. A very efficient synthesis of a mannosyl orthoester [2]rotaxane and mannosidic [2]rotaxanes.

Author

Coutrot F, Busseron E, and Montero JL

Subjects
Glycosides chemistry, Glycosylation, Mannosides chemistry, Molecular Structure, Rotaxanes chemistry, Mannosides chemical synthesis, Rotaxanes chemical synthesis
Abstract

The direct preparation of mannosyl[2]rotaxane derivatives by O-glycosylation from tetra-O-acetyl-alpha-D-mannosyltrichloroacetimidate and a tert-butylanilinium alcohol in the presence of dibenzo-24-crown-8 is described. The method appears to be very efficient and allows for the preparation of either orthoester or mannosyl rotaxane derivatives, depending on reaction conditions.

Published
2008
Full Text
View/download PDF

74. Bistable [c2] Daisy Chain Rotaxanes as Reversible Muscle-like Actuators in Mechanically Active Gels.

Author

Goujon, Antoine, Lang, Thomas, Mariani, Giacomo, Moulin, Emilie, Fuks, Gad, Raya, Jesus, Buhler, Eric, and Giuseppone, Nicolas

Subjects
*ROTAXANES, *MOLECULAR machinery (Technology), *POLYMERS, *POLYMERIZATION, *PROTON transfer reactions, *NEUTRON scattering
Abstract

The implementation of molecular machines in polymer science is of high interest to transfer mechanical motions from nanoscale to macroscale in order to access new kinds of active devices and materials. Toward this objective, thermodynamic and topological aspects need to be explored for reaching efficient systems capable of producing a useful work. In this paper we describe the branched polymerization of pH-sensitive bistable [c2] daisy chain rotaxanes by using copper(I)- catalyzed Huisgen 1,3-dipolar cycloaddition ("click chemistry"). With this cross-linked topology, the corresponding materials in the form of chemical gels can be contracted and expanded over a large variation of volume (∼50%) by changing the protonation state of the system. HR-MAS 1H NMR and neutron scattering experiments reveal that this macroscopic response of the gels results from the synchronized actuation of the mechanical bonds at the molecular level. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

75. Cyclodextrin rotaxanes and polyrotaxanes.

Author

Wenz G, Han BH, and Müller A

Subjects
Crystallography, X-Ray, Hydrogen-Ion Concentration, Models, Chemical, Models, Molecular, Molecular Structure, Particle Size, Polymers chemical synthesis, Rotaxanes chemical synthesis, Sensitivity and Specificity, Cyclodextrins chemistry, Polymers chemistry, Rotaxanes chemistry
Published
2006
Full Text
View/download PDF

76. Rotaxanes of cyclic peptides.

Author

Aucagne V, Leigh DA, Lock JS, and Thomson AR

Subjects
Nuclear Magnetic Resonance, Biomolecular, Peptides, Cyclic chemistry, Rotaxanes chemistry, Peptides, Cyclic chemical synthesis, Rotaxanes chemical synthesis
Abstract

The synthesis of rotaxanes derived from the synthetic peptide macrocycles cyclo(l-ProGly)4 and cyclo(l-ProGly)5 and diammonium threads is described. [2]Rotaxanes are formed in good yields (56-63%), despite the disruption of internal amide-amide hydrogen bonding in the macrocycles.

Published
2006
Full Text
View/download PDF

77. Fourfold [2]rotaxanes based on calix[4]arenes.

Author

Gaeta C, Vysotsky MO, Bogdan A, and Böhmer V

Subjects
Calixarenes chemical synthesis, Crystallography, X-Ray, Magnetic Resonance Spectroscopy methods, Models, Molecular, Molecular Structure, Phenols chemical synthesis, Rotaxanes chemistry, Calixarenes chemistry, Phenols chemistry, Rotaxanes chemical synthesis
Abstract

Tetraurea calix[4]arenes with four loops form exclusively heterodimers with open-chain urea calix[4]arenes when they are dissolved in aprotic solvents. These assemblies can be considered as pseudorotaxanes. If open-chain tetraureas ending with maleic imide functions are used, their Diels-Alder reaction with 1,4,5,8-tetrapentoxyanthracene leads to tetra[2]rotaxanes which cannot be split into the single calixarene parts by hydrogen bond breaking solvents.

Published
2005
Full Text
View/download PDF

78. Optimization of Anisotropic Crystalline Structure of Molecular Necklace-like Polyrotaxane for Tough Piezoelectric Elastomer.

Author

Seo J, Kim B, Kim MS, and Seo JH

Subjects
Anisotropy, Elastomers chemistry, Polyethylene Glycols chemistry, Rotaxanes chemistry
Abstract

While piezoelectric materials are applied in various fields, they generally exhibit poor mechanical toughness. To increase the applicability of these, their mechanical properties need to be improved. In this study, a tough piezoelectric polyrotaxane (PRX) elastomer was developed by blending PRX samples of two different lengths, formed using 10K and 35K poly(ethylene glycol), to align dipole moments for optimization of the piezoelectricity characteristics. The effects of the blending ratio on the crystalline structure of the obtained PRX elastomer were investigated by X-ray diffraction analysis and transmission electron microscopy. In addition, the ferroelectric and piezoelectric properties of the PRX elastomer were evaluated based on its polarization hysteresis loop and voltage generation characteristics, respectively. The PRX elastomer formed by using a ratio of 3:1 (ePR10k 75 35k 25 ) exhibited a long-range-ordered anisotropic crystalline structure, resulting in a large polarization ( P r ) value. As a result, ePR10k 75 35k 25 showed greatly enhanced piezosensitivity against the mechanical vibrations generated by respiratory signals.

Published
2021
Full Text
View/download PDF

79. Mechanically Interlocked Profragrances for the Controlled Release of Scents.

Author

Lopez-Sanchez J, Alajarin M, Pastor A, and Berna J

Subjects
Delayed-Action Preparations, Odorants, Rotaxanes
Abstract

The synthesis of a series of interlocked profragrances and the study of the controlled release of the corresponding scents are reported. The structures of the profragrances are based on a [2]pseudorotaxane scaffold with a fumaramate thread derived from perfumery alcohols and a tetrabenzylamido ring. The delivery of the scents was accomplished by sequential thermal dethreading and further enzymatic hydrolysis. Alternatively, the dethreading can be achieved by increasing the polarity of the solvent or photochemical isomerization. The temperature of dethreading can be modulated by the steric demand of the ends of the thread, which allows the selection of different precursor structures depending on the desired rates of delivery. The inputs and outputs for the controlled release of the interlocked profragrances correspond to those of YES or AND logic gates.

Published
2021
Full Text
View/download PDF

80. Novel porphyrin-fullerene assemblies: from rotaxanes to catenanes.

Author

Schuster DI, Li K, Guldi DM, and Ramey J

Subjects
Models, Molecular, Molecular Structure, Oxidation-Reduction, Photochemistry, Rotaxanes chemical synthesis, Catenanes chemical synthesis, Fullerenes chemistry, Porphyrins chemistry, Rotaxanes chemistry
Abstract

[reaction: see text] Titration of porphyrin-fullerene rotaxanes with DABCO or 4,4'-bipyridine led to photo- and redoxactive catenanic architectures, which upon photoexcitation undergo a sequence of short-range energy and electron transfer events to give a long-lived charge-separated radical-pair state.

Published
2004
Full Text
View/download PDF

85. Triply Threaded [4]Rotaxanes.

Author

Danon, Jonathan J., Leigh, David A., McGonigal, Paul R., Ward, John W., and Jhenyi Wu

Subjects
*NICKEL catalysts, *ROTAXANES synthesis, *MACROCYCLIC compound synthesis, *COUPLING reactions (Chemistry), *NUCLEAR magnetic resonance spectroscopy
Abstract

[4]Rotaxanes featuring three axles threaded through a single ring have been prepared through active metal template synthesis. Nickel-catalyzed sp³--sp³ homocouplings of alkyl bromide "half-threads" through 37- and 38-membered 2,2':6',2"-terpyridyl macrocycles generate triply threaded [4]rotaxanes in up to 11% yield. An analogous 39-membered macrocycle produced no rotaxane products under similar conditions. The constitutions of the [4]rotaxanes were determined by NMR spectroscopy and mass spectrometry. Doubly threaded [3]rotaxanes were also obtained from the reactions but no [2]rotaxanes were isolated, suggesting that upon demetalation the axle of a singly threaded rotaxane can slip through a macrocycle that is sufficiently large to three threads. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

86. Synthesis, Photophysics, and Langmuir Films of Polyfluorene/Permodified Cyclodextrin Polyrotaxanes.

Author

El Haitami A, Resmerita AM, Fichet O, Cantin S, Aubert PH, and Farcas A

Subjects
Microscopy, Surface Properties, Water, Cyclodextrins, Rotaxanes
Abstract

In the present study, we investigated the effect of permodified 2,3,6-tri- O -trimethylsilyl β- and γ-cyclodextrin (TMS·β-CD, TMS·γ-CD) encapsulation on the optical, electrochemical, morphological, and supramolecular arrangements of a poly[2,7'-(9,9-dioctylfluorene- alt -2',7-fluorene)] PF copolymer. For this purpose, the photophysical properties and Langmuir monolayer formation of PF·TMS·β-CD and PF·TMS·γ-CD polyrotaxanes were investigated and compared with those of the reference PF . Surface pressure-area isotherms and Brewster angle microscopy studies indicated the capability of both polyrotaxanes to organize into larger and homogeneous 2D supramolecular assemblies at the air-water interface. The obtained results suggest that the presence of the surrounding TMS·β-CD and TMS·γ-CD macrocycles on the PF backbones leads to changes in the conformation and hydrophobicity of the film surfaces. Our investigation offers a method to assess the impact of TMS-CD encapsulation on the control of 2D monolayer formation, with particular attention on the generation of stable PF monolayers for organic electronic devices.

Published
2021
Full Text
View/download PDF

87. Terminal Structure of Triethylene Glycol-Tethered Chains on β-Cyclodextrin-Threaded Polyrotaxanes Dominates Temperature Responsivity and Biointeractions.

Author

Ohashi M, Tamura A, and Yui N

Subjects
Attention, Humans, Polyethylene Glycols, Temperature, Rotaxanes, beta-Cyclodextrins
Abstract

Pharmacological and biomedical applications of cyclodextrin (CD)-threaded polyrotaxanes (PRXs) have gained increasing attention. We had previously investigated the therapeutic effects of oligo(ethylene glycol) (OEG)-modified β-CD PRXs in congenital metabolic disorders. Although the chemical modification of PRXs is crucial for these applications, the influences of the chemical structure of OEG modified on PRXs were not completely understood. The current study focuses on the terminal group structures of triethylene glycol (TEG)-tethered chains, wherein three series of TEG-tethered PRXs (TEG-PRXs) with various TEG terminal group structures (hydroxy, methoxy, and ethoxy) were synthesized to investigate their physicochemical properties and biointeractions. The methoxy and ethoxy-terminated TEG-PRXs exhibited temperature-dependent phase transitions in phosphate buffer saline and formed coacervate droplets above their cloud points. A comprehensive analysis revealed that the hydrophobicity of the terminal group structures of the TEG-tethered chains played a dominant role in exhibiting temperature-dependent phase transition. Furthermore, the hydrophobicity of the terminal group structures of TEG-tethered chains on PRXs also affected the interactions with lipids and proteins, with the hydrophobic ethoxy-terminated TEG-tethered chains showing the highest interactions. However, in normal human skin fibroblasts, the moderately hydrophobic methoxy-terminated TEG-modified PRXs showed the highest intracellular uptake levels. As a result, we concluded that methoxy-terminated TEG is a suitable chemical modification for the biomedical applications of PRXs due to the negligible temperature responsivity around physiological temperature and significant intracellular uptake levels. The findings of this study shall contribute significantly to the rational design of PRXs and CD-based materials for future pharmacological and biomedical applications.

Published
2021
Full Text
View/download PDF

88. A Self-Regulating DNA Rotaxane Linear Actuator Driven by Chemical Energy.

Author

Yu Z, Centola M, Valero J, Matthies M, Šulc P, and Famulok M

Subjects
DNA chemistry, DNA-Directed RNA Polymerases chemistry, Kinetics, Models, Molecular, Rotaxanes chemistry, Viral Proteins chemistry, DNA metabolism, DNA-Directed RNA Polymerases metabolism, Rotaxanes metabolism, Thermodynamics, Viral Proteins metabolism
Abstract

Nature-inspired molecular machines can exert mechanical forces by controlling and varying the distance between two molecular subunits in response to different inputs. Here, we present an automated molecular linear actuator composed of T7 RNA polymerase (T7RNAP) and a DNA [2]rotaxane. A T7 promoter region and terminator sequences are introduced into the rotaxane axle to achieve automated and iterative binding and detachment of T7RNAP in a self-controlled fashion. Transcription by T7RNAP is exploited to control the release of the macrocycle from a single-stranded (ss) region in the T7 promoter to switch back and forth from a static state (hybridized macrocycle) to a dynamic state (movable macrocycle). During transcription, the T7RNAP keeps restricting the movement range on the axle available for the interlocked macrocycle and prevents its return to the promotor region. Since this range is continuously depleted as T7RNAP moves along, a directional and active movement of the macrocycle occurs. When it reaches the transcription terminator, the polymerase detaches, and the system can reset as the macrocycle moves back to hybridize again to the ss-promoter docking site. The hybridization is required for the initiation of a new transcription cycle. The rotaxane actuator runs autonomously and repeats these self-controlled cycles of transcription and movement as long as NTP-fuel is available.

Published
2021
Full Text
View/download PDF

89. Development of Pseudorotaxanes and Rotaxanes: From Synthesis to Stimuli-Responsive Motions to Applications.

Author

Min Xue, Yong Yang, Xiaodong Chi, Xuzhou Yan, and Feihe Huang

Subjects
*ROTAXANES, *ROTAXANES synthesis, *CYCLODEXTRINS, *CALIXARENES, *DYES & dyeing, *METAL-organic frameworks
Abstract

The article discusses in pseudorotaxanes and rotaxanes. Topics include synthesis of rotaxanes based on various macrocycles such as cyclodextrins and calixarenes; molecular mobility of pseudorotaxanes based on stimuli response; and their applications such as protection of dyes and unstable species and use in metal-organic framework.

Published
2015
Full Text
View/download PDF

90. Threading the Needle: Fluorescent Poly-pseudo-rotaxanes for Size-Exclusion Sensing.

Author

Willis-Fox, Niamh, Belger, Christian, Fennell, Jr., John F., Evans, Rachel C., and Swager, Timothy M.

Subjects
*FLUORESCENCE, *ROTAXANES, *MACROCYCLIC compounds, *DIPOLE-dipole interactions, *MICROENCAPSULATION, *ELECTROCHEMICAL sensors
Abstract

Poly-pseudo-rotaxanes have been formed through the threading of cucurbit[n]urils (CB[n]) onto the cationic electron-poor poly(pyridyl vinylene), PPyV. The threading of CB[n] onto the PPyV backbone is confirmed by a broadening and upfield shift in the PPyV 1H NMR signals. Encapsulation of PPyV within the CB[n] macrocycles produces dramatic fluorescence enhancements with improved solubility. The threading ability of the CB[n] on the PPyV backbone is governed by the dimensions of the particular CB[n] portal, which grows with increasing number of methylene-bridged glycoluril repeat units. CB[5] is too small to thread onto the PPyV backbone. The portal of CB[6] requires extra time, suggesting high preorganization and/or macrocycle deformation are required to thread onto PPyV. Alternatively, the portal of CB[8] appears to be large enough such that it does not have sufficiently large dipole-dipole interactions with the PPyV chain to promote a strong threading equilibrium. However, we find that the portal of CB[7] is optimal for the threading of PPyV. The PPyV-CB[n] system was further exploited to demonstrate a dual-action sensor platform, combining the PL-responsive behavior demonstrated by PPyV toward electron-rich analytes with the size-exclusion properties imparted by volume of the respective CB[n] cavities. Thin films of PPyV-CB[7] were found to display reversible photoluminescence quenching when exposed to vapors of the biologically relevant molecule indole, which is recovered under ambient conditions, suggesting prospects for new size-exclusion based selective sensory schemes for volatile electron-rich analytes. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

91. Factor Analysis of Conformations and NMR Signals of Rotaxanes: AIMD and Polarizable MD Simulations.

Author

Pingying Liu, Wei Li, Zigui Kan, Hui Sun, and Jing Ma

Subjects
*ROTAXANES, *NUCLEAR magnetic resonance, *HYDROGEN bonding, *MOLECULAR dynamics, *AB initio quantum chemistry methods, *FACTOR analysis
Abstract

The interlocked (rod | ring) structures of pseudorotaxanes and [2]rotaxanes are usually maintained by the complex hydrogen-bonding (H-bonding) network between the rod and ring. Ab initio molecular dynamics (AIMD) using generalized energy-based fragmentation approach and polarizable force field (polar FF)-based molecular dynamics (MD) simulations were performed to investigate the conformational changes of mechanically interlocked systems and to obtain the ensemble-averaged NMR chemical shifts. Factor analysis (FA) demonstrates that the ring H-donor (2,6 pyridinedicarboxamide group) plays an important role in the ring-rod recognition. In comparison to the conventional fixed-charge force field, the polarization effect is crucial to account for the H-bonding interactions in supramolecular systems. In the hybrid scheme, the polar FF-based MD simulations are used to generate different initial states for the AIMD simulations, which are able to give better prediction of ensemble-averaged NMR signals for chemically equivalent amide protons. The magnitude of the deshielding shift of NMR signal is correlated with the length of hydrogen bond. The polar FF model with variable charges shows that the dipole-dipole interactions between the flexible diethylene glycol chain of ring and polar solvents induce the upfield shifts of NMR signals of rod H-donors and the directional distribution of the neighboring CH3CN solvents. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

92. Dethreading of Tetraalkylsuccinamide-Based [2]Rotaxanes for Preparing Benzylic Amide Macrocycles.

Author

Martinez-Cuezva, Alberto, Rodrigues, Leticia V., Navarro, Cristian, Carro-Guillen, Fernando, Buriol, Lilian, Frizzo, Clarissa P., Martins, Marcos A. P., Alajarin, Mateo, and Berna, Jose

Subjects
*ROTAXANES, *BENZYLIC group, *PYROLYSIS, *MICROWAVES, *PYRIDINE
Abstract

The dethreading of a series of succinamide-based [2]rotaxanes bearing benzylic amide macrocycles is reported herein. These transformations proceeded quantitatively either under flash vacuum pyrolysis, conventional heating, or microwave irradiation. Studying the size complementarity of the stoppers at the ends of the thread and the cavity of the macrocycle allowed us to set up the best substituents for implementing the extrusion of the thread from the interlocked precursors. A variety of ¹H NMR kinetic experiments were carried out in order to evaluate the rate constants of the dethreading process, the half-life times of the rotaxanes, and the influence of temperature and solvents on these processes. The use of dibutylamino groups as stoppers yielded the rotaxane precursor in a reasonable yield and allowed the quantitative deslipping of the rotaxane. The overall process, including the rotaxane formation and its further dethreading, has been exploited for preparing benzylic amide macrocycles enhancing, in most cases, the results of the classical (2 + 2) condensation and other reported stepwise syntheses. The kinetics of the dethreading process is fairly sensitive to the electronic effects of the substituents on the isophthalamide unit or to the electronic nature of the pyridine rings through a conformational equilibrium expanding or contracting the cavity of the interlocked precursor. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

93. Synthesis of [3]Rotaxanes by the Combination of Copper-Mediated Coupling Reaction and Metal-Template Approach.

Author

Ryuto Hayashi, Yuichiro Mutoh, Takeshi Kasama, and Shinichi Saito

Subjects
*ROTAXANES synthesis, *COUPLING reactions (Chemistry), *TRANSITION metal catalysts, *DIMERIZATION, *ALKYNES, *PHENANTHROLINE, *CUPROUS iodide, *CHEMICAL stability
Abstract

[3]Rotaxanes with two axle components and one ring component were synthesized by the combination of a coupling reaction using a transition-metal catalyst and a metal-template approach. Thus, [2]rotaxanes were prepared by the oxidative dimerization of alkyne promoted by macrocyclic phenanthroline-CuI complexes. The [2]rotaxane was reacted with a CuI salt and an acyclic ligand to generate a tetrahedral CuI complex. Metal-free [3]rotaxane was isolated by the end-capping reaction of the acyclic ligand, followed by the removal of CuI ion. The stability of the tetrahedral CuI complexes depended on the size of both the ring component and the acyclic ligand, which was correlated with the yield of the corresponding [3]rotaxane. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

94. Synthesis of [3]Rotaxanes by the Combination of Copper-Mediated Coupling Reaction and Metal-Template Approach.

Author

Hayashi R, Mutoh Y, Kasama T, and Saito S

Subjects
Catalysis, Copper chemistry, Dimerization, Ligands, Metals chemistry, Molecular Structure, Alkynes chemistry, Phenanthrolines chemistry, Rotaxanes chemical synthesis, Rotaxanes chemistry, Transition Elements chemistry
Abstract

[3]Rotaxanes with two axle components and one ring component were synthesized by the combination of a coupling reaction using a transition-metal catalyst and a metal-template approach. Thus, [2]rotaxanes were prepared by the oxidative dimerization of alkyne promoted by macrocyclic phenanthroline-CuI complexes. The [2]rotaxane was reacted with a Cu(I) salt and an acyclic ligand to generate a tetrahedral Cu(I) complex. Metal-free [3]rotaxane was isolated by the end-capping reaction of the acyclic ligand, followed by the removal of Cu(I) ion. The stability of the tetrahedral Cu(I) complexes depended on the size of both the ring component and the acyclic ligand, which was correlated with the yield of the corresponding [3]rotaxane.

Published
2015
Full Text
View/download PDF

95. Synthesizing [2]Rotaxanes and [2]Catenanes through Na(+)-Templated Clipping of Macrocycles around Oligo(ethylene glycol) Units.

Author

Wu YW, Chen PN, Chang CF, Lai CC, and Chiu SH

Subjects
Catenanes chemistry, Ethylene Glycol chemistry, Ions, Magnetic Resonance Spectroscopy, Molecular Structure, Rotaxanes chemical synthesis, Rotaxanes chemistry, Catenanes chemical synthesis, Macrocyclic Compounds chemistry, Sodium chemistry
Abstract

Di-, tri-, and tetra(ethylene glycol) units in both dumbbell-shaped and macrocyclic molecules can be used as primary recognition units for the clipping of macrocycles in the presence of templating Na(+) ions to form corresponding [2]rotaxanes and [2]catenanes. One such tri(ethylene glycol)-containing [2]catenane behaves as a Na(+) ion-controllable molecular switch.

Published
2015
Full Text
View/download PDF

96. Synthesizing [2]Rotaxanes and [2]Catenanes through Na+-Templated Clipping of Macrocycles around Oligo(ethylene glycol) Units.

Author

Yi-Wei Wu, Pei-Nung Chen, Chia-Fong Chang, Chien-Chen Lai, and Sheng-Hsien Chiu

Subjects
*ROTAXANES synthesis, *ETHYLENE glycol, *MACROCYCLIC compounds, *MOLECULAR recognition, *CATENANES, *SODIUM ions, *CHEMICAL templates
Abstract

Di-, tri-, and tetra(ethylene glycol) units in both dumbbell-shaped and macrocyclic molecules can be used as primary recognition units for the clipping of macrocycles in the presence of templating Na+ ions to form corresponding [2]rotaxanes and [2]catenanes. One such tri(ethylene glycol)-containing [2]catenane behaves as a Na+ ion-controllable molecular switch. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

97. Rotaxanes Derived from Dimetallic Polyynediyl Complexes:Extended Axles and Expanded Macrocycles.

Author

Baranová, Zuzana, Amini, Hashem, Bhuvanesh, Nattamai, and Gladysz, John A.

Subjects
*COMPLEX compounds synthesis, *ROTAXANES, *ORGANOMETALLIC compounds, *MACROCYCLIC compounds, *CHEMICAL derivatives, *SUBSTITUENTS (Chemistry)
Abstract

A new35-membered macrocycle 3bderived from 1,10-phenanthrolineand two 2,9-p-C6H4O(CH2)6O substituents that tether a 2,7-naphthdiyl moietyis synthesized. CuI complexes of 3band a previouslyreported analog in which the naphthdiyl is replaced by a m-C6H4group (3a) are reacted withthe hexatriynyl complex trans-(C6F5)(p-tol3P)2Pt(CC)3H (1.0:2.5 mol ratios) in the presence of K2CO3(4.0–5.0 equiv) and I2(1.3–1.8equiv) in THF at 55 °C. Workups afford the rotaxanes 5·3aand 5·3b(45–23%), in which the macrocyclesare threaded by the sp carbon chain of the diplatinum dodecahexaynediylcomplex trans,trans-(C6F5)(p-tol3P)2Pt(CC)6Pt(Pp-tol3)2(C6F5) (5), which is also obtained as a byproduct.The yields of 5·3aand 5·3baremuch higher than in the case with octatetraynediyl (C8)analogs, and their spectroscopic properties and crystal structuresare analyzed in detail, especially with reference to recent DFT studies. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

98. Chain Entropy Beats Hydrogen Bonds to Unfold and Thread Dialcohol Phosphates inside Cyanostar Macrocycles To Form [3]Pseudorotaxanes.

Author

Fadler RE, Al Ouahabi A, Qiao B, Carta V, König NF, Gao X, Zhao W, Zhang Y, Lutz JF, and Flood AH

Subjects
Entropy, Hydrogen Bonding, Molecular Conformation, Phosphates, Rotaxanes
Abstract

The recognition of substituted phosphates underpins many processes including DNA binding, enantioselective catalysis, and recently template-directed rotaxane synthesis. Beyond ATP and a few commercial substrates, however, little is known about how substituents effect organophosphate recognition. Here, we examined alcohol substituents and their impact on recognition by cyanostar macrocycles. The organophosphates were disubstituted by alcohols of various chain lengths, dipropanol, dihexanol, and didecanol phosphate, each accessed using modular solid-phases syntheses. Based on the known size-selective binding of phosphates by π-stacked dimers of cyanostars, threaded [3]pseudorotaxanes were anticipated. While seen with butyl substituents, pseudorotaxane formation was disrupted by competitive OH···O - hydrogen bonding between both terminal hydroxyls and the anionic phosphate unit. Crystallography also showed formation of a backfolded propanol conformation resulting in an 8-membered ring and a perched cyanostar assembly. Motivated by established entropic penalties accompanying ring formation, we reinstated [3]pseudorotaxanes by extending the size of the substituent to hexanol and decanol. Chain entropy overcomes the enthalpically favored OH···O - contacts to favor random-coil conformations required for seamless, high-fidelity threading of dihexanol and didecanol phosphates inside cyanostars. These studies highlight how chain length and functional groups on phosphate's substituents can be powerful design tools to regulate binding and control assembly formation during phosphate recognition.

Published
2021
Full Text
View/download PDF

99. Molecular Recognition of Fluorescent Probe Molecules with a Pseudopolyrotaxane Nanosheet.

Author

Uenuma S, Maeda R, Yokoyama H, and Ito K

Subjects
Ethylene Oxide, Fluorescent Dyes, Poloxamer, Cyclodextrins chemistry, Rotaxanes
Abstract

Pseudopolyrotaxane nanosheets (PPRNS) are ultrathin two-dimensional (2D) materials fabricated via supramolecular self-assembly of β-cyclodextrin (β-CD) and poly(ethylene oxide)- b -poly(propylene oxide)- b -poly(ethylene oxide) triblock copolymers. In this study, the molecular loading of various fluorescent probe molecules onto PPRNS was systematically investigated. 1 H NMR study for R6G absorption to PPRNS indicated that the small hydrophobic groups, such as the methyl group, of R6G were absorbed by PPRNS. Consistently, the fluorescent probes without methyl groups were not absorbed. These results indicate that PPRNS has a molecular recognition absorption property based on the host-guest interaction of the functional groups on probe molecules and molecular-sized spaces of PPRNS surfaces, which may be vacant β-CDs and voids between β-CD columns. The absorbed amount of the molecular probes onto PPRNS was investigated by UV-vis spectra, and the absorption behavior could be described well by the Langmuir absorption isotherm. This is consistent with the suggested model that the probes are absorbed onto the PPRNS surfaces. This study demonstrates that PPRNSs can be applied as adsorbents for toxic compounds, drug delivery systems, and 2D sensors.

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results