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Статті в журналах з теми "Metallo Supramolecular Self-assembly"

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Автор: Grafiati
Опубліковано: 7 вересня 2023

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1

Baytekin, H. Tarik, Bilge Baytekin, Andrea Schulz, Andreas Springer, Thomas Gross, Wolfgang Unger, Marina Artamonova, Sabine Schlecht, Dieter Lentz, and Christoph A. Schalley. "Metallo-Supramolecular Nanospheres via Hierarchical Self-Assembly." Chemistry of Materials 21, no. 13 (July 14, 2009): 2980–92. http://dx.doi.org/10.1021/cm900642p.

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2

Baytekin, H. Tarik, Bilge Baytekin, Andrea Schulz, and Christoph A. Schalley. "Hierarchical Self-Assembly of Metallo-Supramolecular Nanospheres." Small 5, no. 2 (December 2, 2008): 194–97. http://dx.doi.org/10.1002/smll.200800507.

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3

Albrecht, Markus, and Roland Fröhlich. "Symmetry Driven Self-Assembly of Metallo-Supramolecular Architectures." Bulletin of the Chemical Society of Japan 80, no. 5 (May 15, 2007): 797–808. http://dx.doi.org/10.1246/bcsj.80.797.

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4

Lewis, James E. M., and James D. Crowley. "Metallo‐Supramolecular Self‐Assembly with Reduced‐Symmetry Ligands." ChemPlusChem 85, no. 5 (May 2020): 815–27. http://dx.doi.org/10.1002/cplu.202000153.

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5

Wang, Yun-Chi, Yen-Peng Liang, Jhen-Yu Cai, Yun-Jui He, Yin-Hsuan Lee, and Yi-Tsu Chan. "Metal ion-modulated self-assembly of pseudo-suit[3]anes using crown ether-based terpyridine metalloprisms." Chemical Communications 52, no. 85 (2016): 12622–25. http://dx.doi.org/10.1039/c6cc07452a.

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6

Zhu, Yu, Wei Zheng, Wei Wang, and Hai-Bo Yang. "When polymerization meets coordination-driven self-assembly: metallo-supramolecular polymers based on supramolecular coordination complexes." Chemical Society Reviews 50, no. 13 (2021): 7395–417. http://dx.doi.org/10.1039/d0cs00654h.

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Анотація:
The marriage of polymerization and coordination-driven self-assembly has given rise to novel types of metallo-supramolecular polymers with well-defined and diverse topological architectures as well as unique dynamic features.
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7

Cui, Yu, Zi-Man Chen, Xuan-Feng Jiang, Jin Tong, and Shu-Yan Yu. "Self-assembly and anion sensing of metal–organic [M6L2] cages from fluorescent triphenylamine tri-pyrazoles with dipalladium(ii,ii) corners." Dalton Transactions 46, no. 18 (2017): 5801–5. http://dx.doi.org/10.1039/c7dt00179g.

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8

Teng, Yue, Le Xin Song, Wei Liu, Juan Xia, Li Zhao, Qing Shan Wang, and Mao Mao Ruan. "Creation of hollow microtubular iron oxalate dihydrate induced by a metallo-supramolecular micelle based on the self-assembly of potassium ferrioxalate and sodium dodecyl sulphate." RSC Advances 5, no. 48 (2015): 38006–10. http://dx.doi.org/10.1039/c5ra01703c.

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9

Singh, Prabhpreet, Lalit Singh Mittal, Kapil Kumar, Poonam Sharma, Gaurav Bhargava, and Subodh Kumar. "Multifunctional metallo-supramolecular interlocked hexagonal microstructures for the detection of lead and thiols in water." Chemical Communications 54, no. 68 (2018): 9482–85. http://dx.doi.org/10.1039/c8cc05814h.

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10

Wang, Chao, Xin-Qi Hao, Ming Wang, Cunlan Guo, Bingqian Xu, Eric N. Tan, Yan-Yan Zhang, et al. "Self-assembly of giant supramolecular cubes with terpyridine ligands as vertices and metals on edges." Chem. Sci. 5, no. 3 (2014): 1221–26. http://dx.doi.org/10.1039/c3sc52965g.

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11

de la Torre, Gema, Marta Moreno Simoni, Gonzalo Duran-Sampedro, and Tomas Torres. "Metallosupramolecular Assemblies of Phthalocyanines, Subphthalocyanines and Bodipys: Photosensitizers for Visible-Light Induced Processes." ECS Meeting Abstracts MA2022-01, no. 14 (July 7, 2022): 975. http://dx.doi.org/10.1149/ma2022-0114975mtgabs.

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Анотація:
Molecular self-assembly provides limitless possibilities to obtain stable and structurally well-defined supramolecules with different physicochemical properties than those of precursor building blocks. From all supramolecular interactions, strong and directional coordination-driven self-assembly allows a fine control over the rational design of two- and three-dimensional architectures with multiple potential applications. The preparation of cutting-edge metallo-supramolecular assemblies based on phthalocyanines, subphthalocyanines and BODIPYs is herein described. These ensembles have been applied for different purposes: i) as molecular receptors showing electronic interactions between the chromophore panels of the host and electroactive guests such as fullerenes and perylenediimides; ii) as hollow molecular containers able to influence a chemical reaction by providing an isolated cavity of particular size and shape, demonstrating, for example, the ability to induce unprecedented photoredox reaction with guest fullerenes, triggered by the porphyrinoid excited state; and iii) as metallosupramolecular amphiphilic systems, able to yield nanostructures via self-organization in aqueous media. Figure 1
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12

Weilandt, Torsten, Ralf W. Troff, Heidi Saxell, Kari Rissanen, and Christoph A. Schalley. "Metallo-Supramolecular Self-Assembly: the Case of Triangle-Square Equilibria." Inorganic Chemistry 47, no. 17 (September 2008): 7588–98. http://dx.doi.org/10.1021/ic800334k.

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13

Inchara, Seegepalli Anandamurthy, Bhyranalyar Nagarajappa Veerabhadraswamy, Bishwajit Paul, Gurumurthy Hegde, Channabasaveshwar Veerappa Yelamaggad, and Govindaswamy Shanker. "Supramolecular Self‐Assembly Properties of Metallo‐Ionic Phthalocyanines Constituting Regioisomers." ChemistrySelect 5, no. 32 (August 27, 2020): 10106–13. http://dx.doi.org/10.1002/slct.202001128.

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14

Fustin, Charles-André, Pierre Guillet, Matthew J. Misner, Thomas P. Russell, Ulrich S. Schubert, and Jean-François Gohy. "Self-assembly of metallo-supramolecular block copolymers in thin films." Journal of Polymer Science Part A: Polymer Chemistry 46, no. 14 (2008): 4719–24. http://dx.doi.org/10.1002/pola.22805.

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15

Song, Woon Ju, and F. Akif Tezcan. "A designed supramolecular protein assembly with in vivo enzymatic activity." Science 346, no. 6216 (December 18, 2014): 1525–28. http://dx.doi.org/10.1126/science.1259680.

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Анотація:
The generation of new enzymatic activities has mainly relied on repurposing the interiors of preexisting protein folds because of the challenge in designing functional, three-dimensional protein structures from first principles. Here we report an artificial metallo-β-lactamase, constructed via the self-assembly of a structurally and functionally unrelated, monomeric redox protein into a tetrameric assembly that possesses catalytic zinc sites in its interfaces. The designed metallo-β-lactamase is functional in the Escherichia coli periplasm and enables the bacteria to survive treatment with ampicillin. In vivo screening of libraries has yielded a variant that displays a catalytic proficiency [(kcat/Km)/kuncat] for ampicillin hydrolysis of 2.3 × 106 and features the emergence of a highly mobile loop near the active site, a key component of natural β-lactamases to enable substrate interactions.
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16

Shi, Ziliang, Tao Lin, Jun Liu, Pei Nian Liu, and Nian Lin. "Regulating a two-dimensional metallo-supramolecular self-assembly of multiple outputs." CrystEngComm 13, no. 18 (2011): 5532. http://dx.doi.org/10.1039/c1ce05340j.

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17

Revuelta-Maza, M. Ángel, Ettore Fazio, Gema de la Torre, and Tomás Torres. "Metallo-organic ensembles of tritopic subphthalocyanine ligands." Journal of Porphyrins and Phthalocyanines 21, no. 12 (December 2017): 782–89. http://dx.doi.org/10.1142/s1088424617500882.

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Анотація:
Organic building blocks containing amines and aldehydes can be used for the preparation of complex metallo-organic structures, such as M[Formula: see text]L[Formula: see text] triple helicates or face-capped M[Formula: see text]L[Formula: see text] tetrahedral cages, through the formation of both dynamic covalent and coordinative linkages during the self-assembly process. Herein we describe how the subcomponent self-assembly method can be succesfully applied over a triamine-functionalized subphthalocyanine (SubPc) ligand to build metallo-supramolecular helicates. Two isomeric SubPcs (C[Formula: see text]-SubPc1 and C[Formula: see text]-SubPc1) have been prepared from the corresponding C[Formula: see text]-SubPcI[Formula: see text] and C[Formula: see text]-SubPcI[Formula: see text] precursors under optimized Suzuki conditions. We selected the tritopic C[Formula: see text]-SubPc1 derivative as ligand for the subcomponent self-assembly experiments, which involved the reaction with 2-formylpyridine and different Fe(II) salts. The self-assembly process was mainly studied by mass spectrometry (ESI direct injection techniques), and in all the conditions applied, we could observe the formation of helicate-type Fe[Formula: see text]SubPc[Formula: see text] structures and/or Fe[Formula: see text]SubPc[Formula: see text] species, which can be considered as open precursors of Fe[Formula: see text]SubPc[Formula: see text] tetrahedral cages.
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18

Heindl, Claudia, Eugenia V. Peresypkina, Alexander V. Virovets, Vladislav Yu Komarov, and Manfred Scheer. "1,2,4-Triphospholyl anions – versatile building blocks for the formation of 1D, 2D and 3D assemblies." Dalton Transactions 44, no. 22 (2015): 10245–52. http://dx.doi.org/10.1039/c5dt01230a.

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Анотація:
The potential of K[P3C2R2] (R =tBu, Mes) as building blocks in metallo-supramolecular chemistry was investigated and self-assembly processes with Cu(i) halides resulted in the formation of a large variety of unprecedented one-, two- and even three-dimensional aggregates.
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19

Liu, Die, Haisheng Liu, Bo Song, Mingzhao Chen, Jian Huang, Jun Wang, Xiaoyu Yang, Wei Sun, Xiaopeng Li, and Pingshan Wang. "Terpyridine-based metallo-organic cages and supramolecular gelation by coordination-driven self-assembly and host–guest interaction." Dalton Transactions 47, no. 40 (2018): 14227–32. http://dx.doi.org/10.1039/c8dt01044g.

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20

Wang, Heng, Kun Wang, Yaping Xu, Wu Wang, Shaohua Chen, Matthew Hart, Lukasz Wojtas, et al. "Hierarchical Self-Assembly of Nanowires on the Surface by Metallo-Supramolecular Truncated Cuboctahedra." Journal of the American Chemical Society 143, no. 15 (April 13, 2021): 5826–35. http://dx.doi.org/10.1021/jacs.1c00625.

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21

Li, Shukun, Qianli Zou, Yongxin Li, Chengqian Yuan, Ruirui Xing, and Xuehai Yan. "Smart Peptide-Based Supramolecular Photodynamic Metallo-Nanodrugs Designed by Multicomponent Coordination Self-Assembly." Journal of the American Chemical Society 140, no. 34 (August 13, 2018): 10794–802. http://dx.doi.org/10.1021/jacs.8b04912.

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22

Zhang, Huiqin, Pan Liu, Zheng Chi, and Xuegang Chen. "Metallo-Supramolecular Hydrogels from the Copolymers of Acrylic Acid and 4-(2,2′:6′,2″-terpyridin-4′-yl)styrene." Polymers 11, no. 7 (July 5, 2019): 1152. http://dx.doi.org/10.3390/polym11071152.

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Анотація:
Hydrophilic copolymers containing 2,2′:6′,2″-terpyridine moieties and acrylic acid (AA) units poly (acrylic acid-co-4-(2,2′:6′,2″-terpyridin-4′-yl)styrene) (P(AA-co-TPY)) were synthesized and characterized. Coordinated with different transition metal ions, the dilute aqueous solution of the copolymers exhibited red-shifted UV-vis absorption peaks of π-π* transition from 317 to 340 nm. Further, interacting with iron ions, the copolymer showed new absorption peaks at a longer wavelength region (570 nm) and the absorption intensity enhanced with increase of the ion concentration. When enough ions were added to coordinate with the 2,2′:6′,2″-terpyridine moieties, novel metallo-supramolecular hydrogels were obtained due to the formation of metal coordination bonds between polymer back bones and transition metal ions (Ni2+, Zn2+, Cd2+, Fe2+ and Cu2+), which acted as self-assembly crosslinking structures. The mechanical strength and morphology of the resulting metallo-supramolecular hydrogels have been investigated.
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23

Smykalla, Lars, Carola Mende, Michael Fronk, Pablo F. Siles, Michael Hietschold, Georgeta Salvan, Dietrich R. T. Zahn, Oliver G. Schmidt, Tobias Rüffer, and Heinrich Lang. "(Metallo)porphyrins for potential materials science applications." Beilstein Journal of Nanotechnology 8 (August 29, 2017): 1786–800. http://dx.doi.org/10.3762/bjnano.8.180.

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Анотація:
The bottom-up approach to replace existing devices by molecular-based systems is a subject that attracts permanently increasing interest. Molecular-based devices offer not only to miniaturize the device further, but also to benefit from advanced functionalities of deposited molecules. Furthermore, the molecules itself can be tailored to allow via their self-assembly the potential fabrication of devices with an application potential, which is still unforeseeable at this time. Herein, we review efforts to use discrete (metallo)porphyrins for the formation of (sub)monolayers by surface-confined polymerization, of monolayers formed by supramolecular recognition and of thin films formed by sublimation techniques. Selected physical properties of these systems are reported as well. The application potential of those ensembles of (metallo)porphyrins in materials science is discussed.
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24

Zhang, Xiaoyu, Yuyang Liu, Xin Wang, Yinxiu Liang, and Lei Yan. "Metallo-supramolecular complexes from mPEG/PDPA diblock copolymers and their self-assembled strip nanosheets." RSC Advances 10, no. 16 (2020): 9686–92. http://dx.doi.org/10.1039/d0ra00431f.

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Анотація:
Copolymers mPEG(-b-Tpyp)2-b-PDPAx were synthesized. After a hierarchical pattern from the coordination of the copolymers with Ru(ii) ions followed by the self-assembly in water, 2D strip nanosheets were obtained.
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25

Wang, Shih-Yu, Jun-Hao Fu, Yen-Peng Liang, Yun-Jui He, Yu-Sheng Chen, and Yi-Tsu Chan. "Metallo-Supramolecular Self-Assembly of a Multicomponent Ditrigon Based on Complementary Terpyridine Ligand Pairing." Journal of the American Chemical Society 138, no. 11 (March 9, 2016): 3651–54. http://dx.doi.org/10.1021/jacs.6b01005.

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26

Shi, Ziliang, Jun Liu, Tao Lin, Fei Xia, Pei Nian Liu, and Nian Lin. "Thermodynamics and Selectivity of Two-Dimensional Metallo-supramolecular Self-Assembly Resolved at Molecular Scale." Journal of the American Chemical Society 133, no. 16 (April 27, 2011): 6150–53. http://dx.doi.org/10.1021/ja2010434.

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27

Kuwar, Anil, Kundan Tayade, Karunesh Keshav, Suban K. Sahoo, Mayank, and Narinder Singh. "Cu2+-driven metallo-supramolecular self-assembly and its application in sensing of hydroxyl ion." Supramolecular Chemistry 30, no. 1 (July 27, 2017): 52–60. http://dx.doi.org/10.1080/10610278.2017.1357817.

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28

Wang, Shih-Yu, Jyun-Yang Huang, Yen-Peng Liang, Yun-Jui He, Yu-Sheng Chen, Yi-Yang Zhan, Shuichi Hiraoka, Yi-Hung Liu, Shie-Ming Peng, and Yi-Tsu Chan. "Multicomponent Self-Assembly of Metallo-Supramolecular Macrocycles and Cages through Dynamic Heteroleptic Terpyridine Complexation." Chemistry - A European Journal 24, no. 37 (June 13, 2018): 9274–84. http://dx.doi.org/10.1002/chem.201801753.

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29

Mansfeld, Ulrich, Andreas Winter, Martin D. Hager, Wolfgang Günther, Esra Altuntaş, and Ulrich S. Schubert. "A Homotelechelic bis-terpyridine macroligand: One-step synthesis and its metallo-supramolecular self-assembly." Journal of Polymer Science Part A: Polymer Chemistry 51, no. 9 (February 14, 2013): 2006–15. http://dx.doi.org/10.1002/pola.26586.

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30

Noor, Asif, Stephen C. Moratti, and James D. Crowley. "Active-template synthesis of “click” [2]rotaxane ligands: self-assembly of mechanically interlocked metallo-supramolecular dimers, macrocycles and oligomers." Chem. Sci. 5, no. 11 (2014): 4283–90. http://dx.doi.org/10.1039/c4sc01438c.

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Анотація:
A "click" active-metal-template strategy has been exploited to develop mono- and bi-2,2′,6′,2″-terpyridine functionalised [2]rotaxanes. When reacted with Fe(ii) ions these rotaxanes formed metallo-bis-([2]rotaxanes), macrocycles and oligomers.
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31

Lohse, Mirko, Larissa K. S. von Krbek, Sebastian Radunz, Suresh Moorthy, Christoph A. Schalley, and Stefan Hecht. "Discrete multiporphyrin pseudorotaxane assemblies from di- and tetravalent porphyrin building blocks." Beilstein Journal of Organic Chemistry 11 (May 12, 2015): 748–62. http://dx.doi.org/10.3762/bjoc.11.85.

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Анотація:
Two pairs of divalent and tetravalent porphyrin building blocks carrying the complementary supramolecular crown ether/secondary ammonium ion binding motif have been synthesized and their derived pseudorotaxanes have been studied by a combination of NMR spectroscopy in solution and ESI mass spectrometry in the gas phase. By simple mixing of the components the formation of discrete dimeric and trimeric (metallo)porphyrin complexes predominates, in accordance to binding stoichiometry, while the amount of alternative structures can be neglected. Our results illustrate the power of multivalency to program the multicomponent self-assembly of specific entities into discrete functional nanostructures.
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32

Clegg, Jack K., Leonard F. Lindoy, Boujema Moubaraki, Keith S. Murray та John C. McMurtrie. "Triangles and tetrahedra: metal directed self-assembly of metallo-supramolecular structures incorporating bis-β-diketonato ligands". Dalton Trans., № 16 (2004): 2417–23. http://dx.doi.org/10.1039/b403673e.

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33

Fu, Jun-Hao, Yin-Hsuan Lee, Yun-Jui He, and Yi-Tsu Chan. "Facile Self-Assembly of Metallo-Supramolecular Ring-in-Ring and Spiderweb Structures Using Multivalent Terpyridine Ligands." Angewandte Chemie International Edition 54, no. 21 (April 7, 2015): 6231–35. http://dx.doi.org/10.1002/anie.201501507.

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34

Albrecht, Markus. "ChemInform Abstract: From Molecular Diversity to Template-Directed Self-Assembly: New Trends in Metallo-Supramolecular Chemistry." ChemInform 31, no. 25 (June 8, 2010): no. http://dx.doi.org/10.1002/chin.200025282.

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35

Li, Meng, Chuanqi Zhao, Jinsong Ren та Xiaogang Qu. "Chiral Metallo-Supramolecular Complex Directed Enantioselective Self-Assembly of β-Sheet Breaker Peptide for Amyloid Inhibition". Small 11, № 36 (1 липня 2015): 4651–55. http://dx.doi.org/10.1002/smll.201501329.

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36

Fu, Jun-Hao, Yin-Hsuan Lee, Yun-Jui He, and Yi-Tsu Chan. "Facile Self-Assembly of Metallo-Supramolecular Ring-in-Ring and Spiderweb Structures Using Multivalent Terpyridine Ligands." Angewandte Chemie 127, no. 21 (April 7, 2015): 6329–33. http://dx.doi.org/10.1002/ange.201501507.

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37

Rang, Alexander, Marianne Engeser, Norbert M Maier, Martin Nieger, Wolfgang Lindner, and Christoph A Schalley. "Synthesis of Axially Chiral 4,4′-Bipyridines and Their Remarkably Selective Self-Assembly into Chiral Metallo-Supramolecular Squares." Chemistry - A European Journal 14, no. 13 (March 20, 2008): 3855–59. http://dx.doi.org/10.1002/chem.200800113.

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38

Perevyazko, Igor, Nina Mikusheva, Alexey Lezov, Alexander Gubarev, Marcel Enke, Andreas Winter, Ulrich S. Schubert, and Nikolay Tsvetkov. "Metallo-Supramolecular Complexation Behavior of Terpyridine- and Ferrocene-Based Polymers in Solution—A Molecular Hydrodynamics Perspective." Polymers 14, no. 5 (February 26, 2022): 944. http://dx.doi.org/10.3390/polym14050944.

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Анотація:
The contribution deals with the synthesis of the poly(methacrylate)-based copolymers, which contain ferrocene and/or terpyridine moieties in the side chains, and the subsequent analysis of their self-assembly behavior upon supramolecular/coordination interactions with Eu3+ and Pd2+ ions in dilute solutions. Both metal ions provoke intra and inter molecular complexation that results in the formation of large supra-macromolecular assembles of different conformation/shapes. By applying complementary analytical approaches (i.e., sedimentation-diffusion analysis in the analytical ultracentrifuge, dynamic light scattering, viscosity and density measurements, morphology studies by electron microscopy), a map of possible conformational states/shapes was drawn and the corresponding fundamental hydrodynamic and macromolecular characteristics of metallo-supramolecular assemblies at various ligand-to-ion molar concentration ratios (M/L) in extremely dilute polymer solutions (c[η]≈0.006) were determined. It was shown that intramolecular complexation is already detected at (L≈0.1), while at M/L>0.5 solution/suspension precipitates. Extreme aggregation/agglomeration behavior of such dilute polymer solutions at relatively “high” metal ion content is explained from the perspective of polymer-solvent and charge interactions that will accompany the intramolecular complexation due to the coordination interactions.
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39

Zhang, Shuo, Yongxin Li, Chunlei Liu, Yanhui Zhang, Pan Sun, Xiaopeng Lan, and Chunzhao Liu. "Supramolecular amino acid-based metallo-nanozyme through multicomponent coordination self-assembly for in-site tumor synergistic catalytic-chemotherapy." Chemical Engineering Journal 437 (June 2022): 135312. http://dx.doi.org/10.1016/j.cej.2022.135312.

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40

Yam, Vivian Wing-Wah, Yongchen Hu, Kenneth Hoi-Yiu Chan, and Clive Yik-Sham Chung. "Reversible pH- and solvent-responsive micelle-mediated self-assembly of platinum(ii) terpyridyl-based metallo-supramolecular diblock copolymers." Chemical Communications, no. 41 (2009): 6216. http://dx.doi.org/10.1039/b911657e.

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41

El Bakkali, H., A. Castiñeiras, I. García-Santos, J. M. González-Pérez, and J. Niclós-Gutiérrez. "Metallo-Supramolecular Structures by Self-Assembly through Weak Interactions in Mixed Ligand Metal Complexes of Adenine and Malonate." Crystal Growth & Design 14, no. 1 (December 17, 2013): 249–60. http://dx.doi.org/10.1021/cg401455c.

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Li, Xiong-Fei, Xu-Bo Liu, Jin-Yu Chao, Ze-Kun Wang, Faiz-Ur Rahman, Hui Wang, Dan-Wei Zhang, Yi Liu, and Zhan-Ting Li. "A periodic metallo-supramolecular polymer from a flexible building block: self-assembly and photocatalysis for organic dye degradation." Science China Chemistry 62, no. 12 (November 11, 2019): 1634–38. http://dx.doi.org/10.1007/s11426-019-9600-2.

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Pal, Ravindra R., Masayoshi Higuchi, Yuichi Negishi, Tatsuya Tsukuda, and Dirk G. Kurth. "Fluorescent Fe(II) metallo-supramolecular polymers: metal-ion-directed self-assembly of new bisterpyridines containing triethylene glycol chains." Polymer Journal 42, no. 4 (February 10, 2010): 336–41. http://dx.doi.org/10.1038/pj.2010.3.

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Siddiqui, Kafeel Ahmad, Gopal K. Mehrotra, J. Mrozinski, and R. J. Butcher. "Anion assisted self-assembly of a Ni(II) complex into metallo-supramolecular network involving H-bonded synthons as nodes." Journal of Molecular Structure 964, no. 1-3 (February 2010): 18–26. http://dx.doi.org/10.1016/j.molstruc.2009.11.005.

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Kurth, Dirk G., and Markus Schütte. "Layer-by-layer self-assembly of a metallo-supramolecular coordination polyelectrolyte studied by infrared spectroscopy, microgravimetry, and X-ray reflectance." Macromolecular Symposia 164, no. 1 (February 2001): 167–80. http://dx.doi.org/10.1002/1521-3900(200102)164:1<167::aid-masy167>3.0.co;2-m.

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Kurbah, Sunshine Dominic, and Ram A. Lal. "Vanadium(V) complex based supramolecular metallogel: self-assembly and (Metallo)gelation triggered by non-covalent and N+H…O hydrogen bonding interactions." Inorganic Chemistry Communications 111 (January 2020): 107642. http://dx.doi.org/10.1016/j.inoche.2019.107642.

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Guan, Shengwen, Hao Yu, Zhe Zhang, Xin Jiang, Junjuan Shi, Tong Lu, Chunyu Wang, Pingshan Wang, and Ming Wang. "From Dimeric to Octameric Metallo‐Supramolecular Macrocycles Based on Sterically Congested Ligand–assisted Self‐Assembly with Zn(II), Cd(II), and Fe(II)." Macromolecular Rapid Communications 41, no. 24 (April 16, 2020): 2000095. http://dx.doi.org/10.1002/marc.202000095.

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Guan, Shengwen, Hao Yu, Zhe Zhang, Xin Jiang, Junjuan Shi, Tong Lu, Chunyu Wang, Pingshan Wang, and Ming Wang. "From Dimeric to Octameric Metallo‐Supramolecular Macrocycles Based on Sterically Congested Ligand–assisted Self‐Assembly with Zn(II), Cd(II), and Fe(II)." Macromolecular Rapid Communications 41, no. 24 (December 2020): 2070054. http://dx.doi.org/10.1002/marc.202070054.

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Gohy, Jean-François, Bas G. G. Lohmeijer, Alexander Alexeev, Xiao-Song Wang, Ian Manners, Mitchell A. Winnik, and Ulrich S. Schubert. "Cylindrical Micelles from the Aqueous Self-Assembly of an Amphiphilic Poly(ethylene oxide)–b-Poly(ferrocenylsilane) (PEO-b-PFS) Block Copolymer with a Metallo-Supramolecular Linker at the Block Junction." Chemistry - A European Journal 10, no. 17 (September 6, 2004): 4315–23. http://dx.doi.org/10.1002/chem.200400222.

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Kuehl, Christopher J., Songping D. Huang, and Peter J. Stang. "Self-Assembly with Postmodification: Kinetically Stabilized Metalla-Supramolecular Rectangles." Journal of the American Chemical Society 123, no. 39 (October 2001): 9634–41. http://dx.doi.org/10.1021/ja0114355.

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