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4. Inside Back Cover: Easy Synthetic Access to High‐Melting Sulfurated Copolymers and their Self‐Assembling Diblock Copolymers from Phenylisothiocyanate and Oxetane

Author

Stephan, Jenny, primary, Olmedo‐Martínez, Jorge L., additional, Fornacon‐Wood, Christoph, additional, Stühler, Merlin R., additional, Dimde, Mathias, additional, Braatz, Daniel, additional, Langer, Robert, additional, Müller, Alejandro J., additional, Schmalz, Holger, additional, and Plajer, Alex J., additional

Published
2024
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6. Fluoride recovery in degradable fluorinated polyesters.

Author

Fornacon-Wood, Christoph, Stühler, Merlin R., Millanvois, Alexandre, Steiner, Luca, Weimann, Christiane, Silbernagl, Dorothee, Sturm, Heinz, Paulus, Beate, and Plajer, Alex J.

Subjects
FLUOROPOLYMERS, PROPYLENE oxide, FLUORIDES, COPOLYMERIZATION, POLYESTERS
Abstract

We report a new class of degradable fluorinated polymers through the copolymerization of tetrafluorophthalic anhydride and propylene oxide or trifluoropropylene oxide which show up to 20 times quicker degradation than the non-fluorinated equivalents and allow for fluoride recovery. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Easy Synthetic Access to High‐Melting Sulfurated Copolymers and their Self‐Assembling Diblock Copolymers from Phenylisothiocyanate and Oxetane.

Author

Stephan, Jenny, Olmedo‐Martínez, Jorge L., Fornacon‐Wood, Christoph, Stühler, Merlin R., Dimde, Mathias, Braatz, Daniel, Langer, Robert, Müller, Alejandro J., Schmalz, Holger, and Plajer, Alex J.

Subjects
DIBLOCK copolymers, MELTING points, MOLECULAR weights, MICELLES, POLYMERS, COPOLYMERIZATION
Abstract

Although sulfurated polymers promise unique properties, their controlled synthesis, particularly when it comes to complex and functional architectures, remains challenging. Here, we show that the copolymerization of oxetane and phenyl isothiocyanate selectively yields polythioimidocarbonates as a new class of sulfur containing polymers, with narrow molecular weight distributions (Mn=5–80 kg/mol with Đ≤1.2; Mn,max=124 kg/mol) and high melting points of up to 181 °C. The method tolerates different substituent patterns on both the oxetane and the isothiocyanate. Self‐nucleation experiments reveal that π‐stacking of phenyl substituents, the presence of unsubstituted polymer backbones, and the kinetically controlled linkage selectivity are key factors in maximising melting points. The increased tolerance to macro‐chain transfer agents and the controlled propagation allows the synthesis of double crystalline and amphiphilic diblock copolymers, which can be assembled into micellar‐ and worm‐like structures with amorphous cores in water. In contrast, crystallization driven self‐assembly in ethanol gives cylindrical micelles or platelets. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Improved access to polythioesters by heterobimetallic aluminium catalysis.

Author

Manjunatha, Bhargav R., Stühler, Merlin R., Quick, Luise, and Plajer, Alex J.

Subjects
CATALYSIS, ALUMINUM, MONOMERS
Abstract

Bimetallic Al(III) catalysis mediates thioanhydride/epoxide copolymerisation at greatly improved rates and monomer tolerance than analogous Cr(III) catalysis. Moving to sulfurated monomers furthermore generally improves rates and selectivites. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Precise construction of weather-sensitive poly(ester-alt-thioesters) from phthalic thioanhydride and oxetane.

Author

Fornacon-Wood, Christoph, Stühler, Merlin R., Gallizioli, Cesare, Manjunatha, Bhargav R., Wachtendorf, Volker, Schartel, Bernhard, and Plajer, Alex J.

Subjects
SPINE, POLYMERS, CATALYSTS
Abstract

We report the selective ring opening copolymerisation (ROCOP) of oxetane and phthalic thioanhydride by a heterobimetallic Cr(III)K catalyst precisely yielding semi-crystalline alternating poly(ester-alt-thioesters) which show improved degradability due to the thioester links in the polymer backbone. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Precise cooperative sulfur placement leads to semi-crystallinity and selective depolymerisability in CS2/oxetane copolymers.

Author

Fornacon-Wood, Christoph, Manjunatha, Bhargav R., Stühler, Merlin R., Gallizioli, Cesare, Müller, Carsten, Pröhm, Patrick, and Plajer, Alex J.

Subjects
COPOLYMERS, CHEMICAL properties, SULFUR, DEPOLYMERIZATION, MONOMERS, POLYMERS, CESIUM compounds, SODIUM borohydride
Abstract

CS2 promises easy access to degradable sulfur-rich polymers and insights into how main-group derivatisation affects polymer formation and properties, though its ring-opening copolymerisation is plagued by low linkage selectivity and small-molecule by-products. We demonstrate that a cooperative Cr(III)/K catalyst selectively delivers poly(dithiocarbonates) from CS2 and oxetanes while state-of-the-art strategies produce linkage scrambled polymers and heterocyclic by-products. The formal introduction of sulfur centres into the parent polycarbonates results in a net shift of the polymerisation equilibrium towards, and therefore facilitating, depolymerisation. During copolymerisation however, the catalyst enables near quantitative generation of the metastable polymers in high sequence selectivity by limiting the lifetime of alkoxide intermediates. Furthermore, linkage selectivity is key to obtain semi-crystalline materials that can be moulded into self-standing objects as well as to enable chemoselective depolymerisation into cyclic dithiocarbonates which can themselves serve as monomers in ring-opening polymerisation. Our report demonstrates the potential of cooperative catalysis to produce previously inaccessible main-group rich materials with beneficial chemical and physical properties. CS2 promises easy access to degradable sulfur-rich polymers, but ring-opening copolymerisation using CS2 is challenging due to low linkage selectivity and small-molecule by-products. Here, the authors report a cooperative Cr(III)/K catalyst which selectively delivers poly(dithiocarbonates) from CS2 and oxetanes. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Templation and Concentration Drive Conversion between a FeII12L12Pseudoicosahedron, a FeII4L4Tetrahedron, and a FeII2L3Helicate

Author

Zhang, Dawei, Gan, Quan, Plajer, Alex J., Lavendomme, Roy, Ronson, Tanya K., Lu, Zifei, Jensen, Jesper D., Laursen, Bo W., Nitschke, Jonathan R., Zhang, Dawei, Gan, Quan, Plajer, Alex J., Lavendomme, Roy, Ronson, Tanya K., Lu, Zifei, Jensen, Jesper D., Laursen, Bo W., and Nitschke, Jonathan R.

Abstract

We report the construction of three structurally distinct self-assembled architectures: FeII12L12 pseudoicosahedron 1, FeII2L3 helicate 2, and FeII4L4 tetrahedron 3, formed from a single triazatriangulenium subcomponent A under different reaction conditions. Pseudoicosahedral capsule 1 is the largest formed through subcomponent self-assembly to date, with an outer-sphere diameter of 5.4 nm and a cavity volume of 15 nm3. The outcome of self-assembly depended upon concentration, where the formation of pseudoicosahedron 1 was favored at higher concentrations, while helicate 2 exclusively formed at lower concentrations. The conversion of pseudoicosahedron 1 or helicate 2 into tetrahedron 3 occurred following the addition of a CB11H12- or B12F122- template.

Published
2022

19. Oxidation triggers guest dissociation during reorganization of an FeII 4L6 twisted parallelogram

Author

Plajer, Alex J, Rizzuto, Felix J, Von Krbek, Larissa KS, Gisbert, Yohan, Martínez-Agramunt, Víctor, Nitschke, Jonathan R, Rizzuto, Felix J [0000-0003-2799-903X], von Krbek, Larissa KS [0000-0002-4278-5235], Nitschke, Jonathan R [0000-0002-4060-5122], and Apollo - University of Cambridge Repository

Subjects
3402 Inorganic Chemistry, 3403 Macromolecular and Materials Chemistry, 34 Chemical Sciences
Abstract

A three-dimensional FeII 4L6 parallelogram was prepared from ferrocene-containing ditopic ligands. The steric preference of the bulky ferrocene cores towards meridional vertex coordination brought about this new structure type, in which the ferrocene units adopt three distinct conformations. The structure possesses two distinct, bowl-like cavities that host anionic guests. Oxidation of the ferrocene FeII to ferrocenium FeIII causes rotation of the ferrocene hinges, converting the structure to an FeII 1L1 + species with release of anionic guests, even though the average charge per iron increases in a way that would ordinarily increase guest binding strength. The degrees of freedom exhibited by these new structures - derived from the different configurations of the three ligands surrounding a meridional FeII center and the rotation of ferrocene cores - thus underpin their ability to reconfigure and eject guests upon oxidation.

Published
2021
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23. Coordination chemistry of the bench-stable tris-2-pyridyl pnictogen ligands [E(6-Me-2-py)3] (E = As, As[double bond, length as m-dash]O, Sb)

Author

Plajer, Alex J, Crusius, Daniel, Jethwa, Rajesh B, García-Romero, Álvaro, Bond, Andrew D, García-Rodríguez, Raúl, Wright, Dominic S, Jethwa, Rajesh [0000-0002-0404-4356], Bond, Andrew [0000-0002-1744-0489], Wright, Dominic [0000-0002-9952-3877], and Apollo - University of Cambridge Repository

Subjects
3402 Inorganic Chemistry, 34 Chemical Sciences
Abstract

Tripodal ligands with main group bridghead units are well established in coordination chemistry and single-site organometallic catalysis. Although a large number of tris(2-pyridyl) main group ligands [E(2-py)3] (E = main group element, 2-py = 2-pyridyl) spanning across the whole p-block are now synthetically acessible, only limited work has been done on the coordination chemistry on the tris(2-pyridyl) group 15 ligands for the heavier elements (As, Sb). In the current study we investigate the coordination chemistry of the ligand family E(6-Me-2-py)3 (E = As, Sb) and of the As(v) ligand O[double bond, length as m-dash]As(6-Me-2-py)3. The air- and mositure-stability of all of these main group ligands makes them especially attractive in future catalytic applications.

Published
2021

24. The Coordination Chemistry of the N-Donor-Substituted Phosphazanes

Author

Plajer, Alex J, Bond, Andrew D, Wright, Dominic S, Bond, Andrew D [0000-0002-1744-0489], Wright, Dominic S [0000-0002-9952-3877], and Apollo - University of Cambridge Repository

Subjects
deprotonation, coordination chemistry, cyclodiphosphazane, transition metals, X-ray crystallography
Abstract

Phosph(III)azanes, featuring the heterocyclobutane P2 N2 ring, have now been established as building blocks in main-group coordination and supramolecular compounds. Previous studies have largely involved their use as neutral P-donor ligands or as anionic N-donor ligands, derived from deprotonation of amido-phosphazanes [RNHP(μ-NR)]2 . The use of neutral amido-phosphazanes themselves as chelating, H-bond donors in anion receptors has also been an area of recent interest because of the ease by which the proton acidity and anion binding constants can be modulated, by the incorporation of electron-withdrawing exo- and endo-cyclic groups (R) and by the coordination of transition metals to the ring P atoms. We observed recently that the effect of P,N-chelation of metal atoms to the P atoms of cis-[(2-py)NHP(μ-Nt Bu)]2 (2-py=2-pyridyl) not only pre-organises the N-H functionality for optimum H-bonding to anions but also results in a large increase in anion binding constants, well above those for traditional organic receptors like squaramides and ureas. Here, we report a broader investigation of ligand chemistry of [(2-py)NHP(μ-t NBu)]2 (and of the new quinolyl derivative [(8-Qu)NHP(μ-Nt Bu)]2 (8-Qu=8-quinolyl). The additional N-donor functionality of the heterocyclic substituents and its position has a marked effect on the anion and metal coordination chemistry of both species, leading to novel structural behaviour and reactivity compared to unfunctionalized counterparts.

Published
2020
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25. Coordination chemistry of the bench-stable tris-2-pyridyl pnictogen ligands [E(6-Me-2-py)3] (E = As, As O, Sb)

Author

Plajer, Alex J. and Plajer, Alex J.

Abstract

Producción Científica, Tripodal ligands with main group bridghead units are well established in coordination chemistry and single-site organometallic catalysis. Although a large number of tris(2-pyridyl) main group ligands [E(2-py)3] (E = main group element, 2-py = 2-pyridyl) spanning across the whole p-block are now synthetically acessible, only limited work has been done on the coordination chemistry on the tris(2-pyridyl) group 15 ligands for the heavier elements (As, Sb). In the current study we investigate the coordination chemistry of the ligand family E(6-Me-2-py)3 (E = As, Sb) and of the As(V) ligand O[double bond, length as m-dash]As(6-Me-2-py)3. The air- and mositure-stability of all of these main group ligands makes them especially attractive in future catalytic applications., Ministerio de Ciencia, Innovación y Universidades (project PGC2018-096880- A-I00), Ministerio de Economía, Industria y Competitividad - Fondo Social Europeo (contract RYC-2015-19035), Engineering and Physical Sciences Research Council - Royal Dutch Shell co. Ltd. (grant EP/R511870/1)

Published
2021

31. Tris(2-pyridyl) Bismuthines: Coordination Chemistry, Reactivity, and Anion-Triggered Pyridyl Coupling

Author

García Romero, Álvaro, Plajer, Alex J., Miguel San José, Daniel, Bond, Andrew D., Álvarez González, Celedonio Manuel, Wright, Dominic Simon, García Rodríguez, Raúl, Miguel, Daniel, Wright, Dominic S., and García-Rodríguez, Raúl

Subjects
Tris, chemistry.chemical_classification, 010405 organic chemistry, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, Coordination complex, Ion, Inorganic Chemistry, Bismuthine, Coupling (electronics), chemistry.chemical_compound, chemistry, Reactivity (chemistry), Physical and Theoretical Chemistry
Abstract

Producción Científica, A series of new tris(2-pyridyl) bismuthine ligands of the type [Bi(2-py′)3] have been prepared, containing a range of substituents at various positions within their pyridyl rings (py′). They can act as intact ligands or, as a result of the low C–Bi bond energy, exhibit noninnocent reactivity in the presence of metal ions. Structural studies of Li+ and Ag+ complexes show that the coordination to metal ions using their pyridyl-N atoms and to anions using the Lewis acidity of their Bi(III) centers can be modified by the presence of substituents within the 2-pyridyl rings, especially at the 6- or 3-positions, which can block the donor-N or Lewis acid Bi sites. Electron withdrawing groups (like CF3 or Br) can also severely reduce their ability to act as ligands to metal ions by reducing the electron donating ability of the pyridyl-N atoms. Noninnocent character is found in the reactions with Cu+ and Cu2+, resulting in the coupling of pyridyl groups to form bipyridines, with the rate of this reaction being dependent on the anion present in the metal salts. This leads to the formation of Bi(III)/Cu(I) complexes containing hypervalent [X2Bi(2-R-py)]− (X = Cl, Br) anions. Alternatively, the tris(2-pyridyl) bismuthine ligands can act as 2-pyridyl transfer reagents, transferring 2-py groups to Au(I) and Fe(II)., Ministerio de Ciencia, Innovación y Universidades (project numbers PGC2018-096880-A-I00, MCIU/AEI/FEDER, UE and PGC2018-099470-B-I00,MCIU/AEI/FEDER, UE), Ministerio de Economía, Industria y Competitividad (Project RYC-2015-19035)

Published
2020
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33. Heterocycle/Heteroallene Ring‐Opening Copolymerization: Selective Catalysis Delivering Alternating Copolymers.

Author

Plajer, Alex J. and Williams, Charlotte K.

Subjects
*COPOLYMERS, *COPOLYMERIZATION, *LIVING polymerization, *RING-opening polymerization, *POLYMERIZATION, *POLYAMIDES, *OPTICAL materials, *PLASTICS
Abstract

Heteroatom‐containing polymers have strong potential as sustainable replacements for petrochemicals, show controllable monomer–polymer equilibria and properties spanning plastics, elastomers, fibres, resins, foams, coatings, adhesives, and self‐assembled nanostructures. Their current and future applications span packaging, house‐hold goods, clothing, automotive components, electronics, optical materials, sensors, and medical products. An interesting route to these polymers is the catalysed ring‐opening copolymerisation (ROCOP) of heterocycles and heteroallenes. It is a living polymerization, occurs with high atom economy, and creates precise, new polymer structures inaccessible by traditional methods. In the last decade there has been a renaissance in research and increasing examples of commercial products made using ROCOP. It is better known in the production of polycarbonates and polyesters, but is also a powerful route to make N‐, S‐, and other heteroatom‐containing polymers, including polyamides, polycarbamates, and polythioesters. This Review presents an overview of the different catalysts, monomer combinations, and polymer classes that can be accessed by heterocycle/heteroallene ROCOP. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Hydrogen-Bond-Assisted Symmetry Breaking in a Network of Chiral Metal-Organic Assemblies

Author

Rizzuto, Felix J, Pröhm, Patrick, Plajer, Alex J, Greenfield, Jake L, Nitschke, Jonathan R, Rizzuto, Felix J [0000-0003-2799-903X], Pröhm, Patrick [0000-0002-3318-9941], Greenfield, Jake L [0000-0002-7650-5414], Nitschke, Jonathan R [0000-0002-4060-5122], and Apollo - University of Cambridge Repository

Subjects
0306 Physical Chemistry (incl. Structural), 0302 Inorganic Chemistry
Abstract

Herein we elucidate the interplay of chiral, chelate, solvent, and hydrogen-bonding information in the self-assembly of a series of new three-dimensional metal-organic architectures. Enantiopure ligands, each containing H-bond donors and acceptors, form different structures, depending on the ratio in which they are combined: enantiopure components form M4L4 assemblies, whereas racemic mixtures form M3L3 stacks. Chiral amplification within M3L3 enantiomers was observed when a 2:1 ratio of R and S subcomponent enantiomers was employed. Simply switching the solvent (from MeCN to MeOH) or chelating unit (from bidentate to tridentate) increased the diversity of structures that can be generated from these building blocks, leading to the selective formation of novel M2L2 and M3L2 assemblies. The addition of achiral ligand building blocks resulted in the formation of further structures: When an achiral subcomponent was combined with its R and S chiral congeners, a three-layer heteroleptic architecture was generated, with the achiral unit sitting at the top of the stack. When combined with the S enantiomer only, however, the achiral unit assembled in the center of the structure, thus demonstrating the selective placement of achiral units within chiral systems. Further sorting experiments revealed that combining R and S stereocenters within a single ligand led to diastereoselective product generation. These results show how geometric complementarity between different ligands impacts upon the degree of hydrogen-bonding within the assembly, stabilizing specific low-symmetry architectures from among many possible structural outcomes.

Published
2019
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37. Innenrücktitelbild: Easy Synthetic Access to High‐Melting Sulfurated Copolymers and their Self‐Assembling Diblock Copolymers from Phenylisothiocyanate and Oxetane (Angew. Chem. 25/2024).

Author

Stephan, Jenny, Olmedo‐Martínez, Jorge L., Fornacon‐Wood, Christoph, Stühler, Merlin R., Dimde, Mathias, Braatz, Daniel, Langer, Robert, Müller, Alejandro J., Schmalz, Holger, and Plajer, Alex J.

Subjects
MELTING points, COPOLYMERIZATION
Abstract

A recent research article in Angewandte Chemie by Alex J. Plajer et al. discusses the easy synthesis of sulfur-containing polymers with high melting points. The authors demonstrate that these polymers can be obtained through the copolymerization of phenylisothiocyanate and oxetane. Additionally, the resulting polythioimidocarbonate can be used as a core-forming block in the self-assembly of a diblock copolymer. This research provides valuable insights into the synthesis and potential applications of sulfurated copolymers. [Extracted from the article]

Published
2024
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44. Deprotonation, insertion and isomerisation in the post-functionalisation of tris-pyridyl aluminates

Author

Plajer, Alex J. and Plajer, Alex J.

Abstract

Producción Científica, Post-functionalisation of the aluminate anion [EtAl(6-R-2-py)3]− (6-R-2-py = 6-R-2-pyridyl, R = Me or Br) can be accomplished via nucleophilic addition of the pyridyl groups to the electrophilic C[double bond, length as m-dash]O group of aldehydes (RCH[double bond, length as m-dash]O) or by deprotonation of carboxylic acids (RCO2H). NMR spectroscopic and crystallographic studies show how 6-Me-2-py groups can detect chirality and reveal a new aspect of isomerism., Ministerio de Economía, Industria y Competitividad - Agencia Estatal de Investigación - Fondo Social Europeo (Ramon y Cajal contract RG-R, RYC-2015-19035) )

Published
2019

46. A versatile hard-soft N/S-ligand for metal coordination and cluster formation

Author

Benson, Callum GM, Plajer, Alex J, García-Rodríguez, Raúl, Bond, Andrew D, Singh, Sanjay, Gade, Lutz H, Wright, Dominic S, Bond, Andrew [0000-0002-1744-0489], Wright, Dominic [0000-0002-9952-3877], and Apollo - University of Cambridge Repository

Subjects
0302 Inorganic Chemistry
Abstract

Deprotonation of the thialdiphosphazane [S[double bond, length as m-dash]PH(μ-N(t)Bu)]2 with a range of metal-bases gives the stable dianion [S-P(μ-N(t)Bu)]2(2-), which is valence-isoelectronic with the widely-used [RN-P(μ-NR)]2(2-) ligand. Structural studies show that the new ligand has adaptable hard-soft character with respect to the coordinated metal centre and that its multidentate nature can be exploited to construct large cage architectures.

Published
2018
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