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1. Surface water retardation around single-chain polymeric nanoparticles: critical for catalytic function?

Author

Stals, Patrick JM, Cheng, Chi-Yuan, van Beek, Lotte, Wauters, Annelies C, Palmans, Anja RA, Han, Songi, and Meijer, EW

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Nanotechnology, Bioengineering, Generic health relevance, Chemical sciences
Abstract

A library of water-soluble dynamic single-chain polymeric nanoparticles (SCPN) was prepared using a controlled radical polymerisation technique followed by the introduction of functional groups, including probes at targeted positions. The combined tools of electron paramagnetic resonance (EPR) and Overhauser dynamic nuclear polarization (ODNP) reveal that these SCPNs have structural and surface hydration properties resembling that of enzymes.

Published
2016

2. High Circular Polarization of Electroluminescence Achieved via Self-Assembly of a Light-Emitting Chiral Conjugated Polymer into Multidomain Cholesteric Films

Author

Di Nuzzo, Daniele, Kulkarni, Chidambar, Zhao, Baodan, Smolinsky, Eilam, Tassinari, Francesco, Meskers, Stefan CJ, Naaman, Ron, Meijer, EW, Friend, Richard H, Macro-Organic Chemistry, Macromolecular and Organic Chemistry, Institute for Complex Molecular Systems, Di Nuzzo, Daniele [0000-0002-4462-9068], Kulkarni, Chidambar [0000-0001-8342-9256], Meskers, Stefan CJ [0000-0001-9236-591X], Naaman, Ron [0000-0003-1910-366X], Meijer, EW [0000-0003-4126-7492], Friend, Richard H [0000-0001-6565-6308], and Apollo - University of Cambridge Repository

Subjects
Condensed Matter::Materials Science, light-emitting polymers, OLEDs, chirality, circularly polarized luminescence, self-assembly, Physics::Optics
Abstract

We demonstrate a facile route to obtain high and broad-band circular polarization of electroluminescence in single-layer polymer OLEDs. As a light-emitting material we use a donor-acceptor polyfluorene with enantiomerically pure chiral side-chains. We show that upon thermal annealing the polymer self-assembles into a multidomain cholesteric film. By varying the thickness of the polymer emitting layer, we achieve high levels of circular polarization of electroluminescence (up to 40% excess of right-handed polarization), which are the highest reported for polymer OLEDs not using chiral dopants or alignment layers. Mueller matrix ellipsometry shows strong optical anisotropies in the film, indicating that the circular polarization of luminescence arises mainly after the photon has been generated, through selective scattering and birefringence correlated in the direction of the initial linear polarization of the photon. Our work demonstrates that chirally substituted conjugated polymers can combine photonic and semiconducting properties in advanced optoelectronic devices.

Published
2018
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3. Supramolecular Double Helices from Small C3-Symmetrical Molecules Aggregated in Water.

Author

Lafleur, RPM, Herziger, S, Schoenmakers, SMC, Keizer, ADA, Jahzerah, J, Thota, BNS, Su, L, Bomans, PHH, Sommerdijk, NAJM, Palmans, ARA, Haag, R, Friedrich, H, Böttcher, C, Meijer, EW, Lafleur, RPM, Herziger, S, Schoenmakers, SMC, Keizer, ADA, Jahzerah, J, Thota, BNS, Su, L, Bomans, PHH, Sommerdijk, NAJM, Palmans, ARA, Haag, R, Friedrich, H, Böttcher, C, and Meijer, EW

Abstract

Supramolecular fibers in water, micrometers long and several nanometers in width, are among the most studied nanostructures for biomedical applications. These supramolecular polymers are formed through a spontaneous self-assembly process of small amphiphilic molecules by specific secondary interactions. Although many compounds do not possess a stereocenter, recent studies suggest the (co)existence of helical structures, albeit in racemic form. Here, we disclose a series of supramolecular (co)polymers based on water-soluble benzene-1,3,5-tricarboxamides (BTAs) that form double helices, fibers that were long thought to be chains of single molecules stacked in one dimension (1D). Detailed cryogenic transmission electron microscopy (cryo-TEM) studies and subsequent three-dimensional-volume reconstructions unveiled helical repeats, ranging from 15 to 30 nm. Most remarkable, the pitch can be tuned through the composition of the copolymers, where two different monomers with the same core but different peripheries are mixed in various ratios. Like in lipid bilayers, the hydrophobic shielding in the aggregates of these disc-shaped molecules is proposed to be best obtained by dimer formation, promoting supramolecular double helices. It is anticipated that many of the supramolecular polymers in water will have a thermodynamic stable structure, such as a double helix, although small structural changes can yield single stacks as well. Hence, it is essential to perform detailed analyses prior to sketching a molecular picture of these 1D fibers.

Published
2020

4. Competitive Supramolecular Associations Mediate the Viscoelasticity of Binary Hydrogels

Author

Vereroudakis, E, Bantawa, M, Lafleur, RPM, Parisi, D, Matsumoto, NM, Peeters, JW, Del Gado, E, Meijer, EW, Vlassopoulos, D, Vereroudakis, E, Bantawa, M, Lafleur, RPM, Parisi, D, Matsumoto, NM, Peeters, JW, Del Gado, E, Meijer, EW, and Vlassopoulos, D

Abstract

Supramolecular polymers are known to form strong and resilient hydrogels which can take up large amounts of water while exhibiting ease of processing and self-healing. They also possess similarities with networks of biological macromolecules. The combination of these features makes supramolecular polymers ideal candidates for studying mechanisms and consequences of self-assembly, which are relevant to biological materials. At the same time, this renders investigations of mixed hydrogels based on different supramolecular compounds necessary, since this substantially widens their applicability. Here, we address unusual viscoelastic properties of a class of binary hydrogels made by mixing fibrillar supramolecular polymers that are formed from two compounds: 1,3,5-benzene-tricarboxamide decorated with aliphatic chains terminated by tetra(ethylene glycol) (BTA) and a 20 kg/mol telechelic poly(ethylene glycol) decorated with the same hydrogen bonding BTA motif on both ends (BTA-PEG-BTA). Using a suite of experimental and simulation techniques, we find that the respective single-compound-based supramolecular systems form very different networks which exhibit drastically different rheology. More strikingly, mixing the compounds results in a non-monotonic dependence of modulus and viscosity on composition, suggesting a competition between interactions of the two compounds, which can then be used to fine-tune the mechanical properties. Simulations offer insight into the nature of this competition and their remarkable qualitative agreement with the experimental results is promising for the design of mixed hydrogels with desired and tunable properties. Their combination with a sensitive dynamic probe (here rheology) offer a powerful toolbox to explore the unique properties of binary hydrogel mixtures.

Published
2020

5. One-step refolding and purification of disulfide-containing proteins with a C-terminal MESNA thioester

Author

Merkx Maarten, Meijer EW, van Baal Ingrid, and Bastings Maartje MC

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background Expression systems based on self-cleavable intein domains allow the generation of recombinant proteins with a C-terminal thioester. This uniquely reactive C-terminus can be used in native chemical ligation reactions to introduce synthetic groups or to immobilize proteins on surfaces and nanoparticles. Unfortunately, common refolding procedures for recombinant proteins that contain disulfide bonds do not preserve the thioester functionality and therefore novel refolding procedures need to be developed. Results A novel redox buffer consisting of MESNA and diMESNA showed a refolding efficiency comparable to that of GSH/GSSG and prevented loss of the protein's thioester functionality. Moreover, introduction of the MESNA/diMESNA redox couple in the cleavage buffer allowed simultaneous on-column refolding of Ribonuclease A and intein-mediated cleavage to yield Ribonuclease A with a C-terminal MESNA-thioester. The C-terminal thioester was shown to be active in native chemical ligation. Conclusion An efficient method was developed for the production of disulfide bond containing proteins with C-terminal thioesters. Introduction of a MESNA/diMESNA redox couple resulted in simultaneous on-column refolding, purification and thioester generation of the model protein Ribonuclease A.

Published
2008
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6. Insights into the Kinetics of Supramolecular Comonomer Incorporation in Water

Author

Lafleur, RPM, Schoenmakers, SMC, Madhikar, P, Bochicchio, D, Baumeier, B, Palmans, ARA, Pavan, GM, Meijer, EW, Lafleur, RPM, Schoenmakers, SMC, Madhikar, P, Bochicchio, D, Baumeier, B, Palmans, ARA, Pavan, GM, and Meijer, EW

Abstract

Multicomponent supramolecular polymers are a versatile platform to prepare functional architectures, but a few studies have been devoted to investigate their noncovalent synthesis. Here, we study supramolecular copolymerizations by examining the mechanism and time scales associated with the incorporation of new monomers in benzene-1,3,5-tricarboxamide (BTA)-based supramolecular polymers. The BTA molecules in this study all contain three tetra(ethylene glycol) chains at the periphery for water solubility but differ in their alkyl chains that feature either 10, 12 or 13 methylene units. C10BTA does not form ordered supramolecular assemblies, whereas C12BTA and C13BTA both form high aspect ratio supramolecular polymers. First, we illustrate that C10BTA can mix into the supramolecular polymers based on either C12BTA or C13BTA by comparing the temperature response of the equilibrated mixtures to the temperature response of the individual components in water. Subsequently, we mix C10BTA with the polymers and follow the copolymerization over time with UV spectroscopy and hydrogen/deuterium exchange mass spectrometry experiments. Interestingly, the time scales obtained in both experiments reveal significant differences in the rates of copolymerization. Coarse-grained simulations are used to study the incorporation pathway and kinetics of the C10BTA monomers into the different polymers. The results demonstrate that the kinetic stability of the host supramolecular polymer controls the rate at which new monomers can enter the existing supramolecular polymers.

Published
2019

7. Supramolecular Copolymerization as a Strategy to Control the Stability of Self-Assembled Nanofibers

Author

Thota, BNS, Lou, X, Bochicchio, D, Paffen, TFE, Lafleur, RPM, van Dongen, JLJ, Ehrmann, S, Haag, R, Pavan, GM, Palmans, ARA, Meijer, EW, Thota, BNS, Lou, X, Bochicchio, D, Paffen, TFE, Lafleur, RPM, van Dongen, JLJ, Ehrmann, S, Haag, R, Pavan, GM, Palmans, ARA, and Meijer, EW

Abstract

A major challenge in supramolecular polymerization is controlling the stability of the polymers formed, that is, controlling the rate of monomer exchange in the equilibrium between monomer and polymer. The exchange dynamics of supramolecular polymers based on benzene-1,3,5-tricarboxamide (BTA) can be regulated by copolymerizing molecules with dendronized (dBTA) and linear (nBTA) ethylene glycol-based water-soluble side chains. Whereas nBTAs form long nanofibers in water, dBTAs do not polymerize, forming instead small spherical aggregates. The copolymerization of the two BTAs results in long nanofibers. The exchange dynamics of both the BTA monomers in the copolymer are significantly slowed down in the mixed systems, leading to a more stable copolymer, while the morphology and spectroscopic signature of the copolymers are identical to that of nBTA homopolymer. This copolymerization is the supramolecular counterpart of styrene/ maleic anhydride copolymerization.

Published
2018

8. Consequences of Dispersity on the Self-Assembly of ABA-Type Amphiphilic Block Co-Oligomers

Author

Das, A, Petkau-Milroy, K, Klerks, G, van Genabeek, B, Lafleur, RPM, Palmans, ARA, Meijer, EW, Das, A, Petkau-Milroy, K, Klerks, G, van Genabeek, B, Lafleur, RPM, Palmans, ARA, and Meijer, EW

Abstract

Intriguingly, little is known about the impact of dispersity on the crystallization driven self-assembly (CDSA) of amphiphilic block copolymers in aqueous media. Here, we investigate the influence of dispersity on the CDSA of ABA-type amphiphilic block co-oligomers (ABCOs). Two pairs of ABCOs are synthesized comprising discrete (Đ = 1.00) or disperse (Đ = 1.20) isotactic l-lactic acid 16-mers as the semicrystalline hydrophobic block and either oligo(ethylene glycol) methyl ether (MeOoEG) or oligo(tetraethylene glycol succinate) (oTEGSuc) as the discrete hydrophilic block. Self-assembly studies in water with 10% THF reveal uniform nanofibers/2D sheets for the discrete oligomers, but such structural regularity is largely compromised in the disperse oligomers. The results are corroborated by sharp melting transitions in both solution and bulk for the discrete ABCOs, unlike their disperse analogues that show a lack of crystallization. Interestingly, the discrete MeOoEG-LLA oligomer reveals crystallization driven gelation, illustrating the contrasting differences between the discrete oligomers and their disperse counterparts.

Published
2018

9. Polymorphism in Benzene-1,3,5-tricarboxamide Supramolecular Assemblies in Water: A Subtle Trade-off between Structure and Dynamics

Author

Matsumoto, NM, Lafleur, RPM, Lou, X, Shih, K-C, Wijnands, SPW, Guibert, C, van Rosendaal, JWAM, Voets, IK, Palmans, ARA, Lin, Y, Meijer, EW, Matsumoto, NM, Lafleur, RPM, Lou, X, Shih, K-C, Wijnands, SPW, Guibert, C, van Rosendaal, JWAM, Voets, IK, Palmans, ARA, Lin, Y, and Meijer, EW

Abstract

In biology, polymorphism is a well-known phenomenon by which a discrete biomacromolecule can adopt multiple specific conformations in response to its environment. The controlled incorporation of polymorphism into noncovalent aqueous assemblies of synthetic small molecules is an important step toward the development of bioinspired responsive materials. Herein, we report on a family of carboxylic acid functionalized water-soluble benzene-1,3,5-tricarboxamides (BTAs) that self-assemble in water to form one-dimensional fibers, membranes, and hollow nanotubes. Interestingly, one of the BTAs with the optimized position of the carboxylic group in the hydrophobic domain yields nanotubes that undergo reversible temperature-dependent dynamic reorganizations. SAXS and Cryo-TEM data show the formation of elongated, well-ordered nanotubes at elevated temperatures. At these temperatures, increased dynamics, as measured by hydrogen-deuterium exchange, provide enough flexibility to the system to form well-defined nanotube structures with apparently defect-free tube walls. Without this flexibility, the assemblies are frozen into a variety of structures that are very similar at the supramolecular level, but less defined at the mesoscopic level.

Published
2018

10. Controlling protein activity by dynamic recruitment on a supramolecular polymer platform

Author

Wijnands, SPW, Engelen, W, Lafleur, RPM, Meijer, EW, Merkx, M, Wijnands, SPW, Engelen, W, Lafleur, RPM, Meijer, EW, and Merkx, M

Abstract

Nature uses dynamic molecular platforms for the recruitment of weakly associating proteins into higher-order assemblies to achieve spatiotemporal control of signal transduction. Nanostructures that emulate this dynamic behavior require features such as plasticity, specificity and reversibility. Here we introduce a synthetic protein recruitment platform that combines the dynamics of supramolecular polymers with the programmability offered by DNA-mediated protein recruitment. Assembly of benzene-1,3,5-tricarboxamide (BTA) derivatives functionalized with a 10-nucleotide receptor strand into µm-long supramolecular BTA polymers is remarkably robust, even with high contents of DNA-functionalized BTA monomers and associated proteins. Specific recruitment of DNA-conjugated proteins on the supramolecular polymer results in a 1000-fold increase in protein complex formation, while at the same time enabling their rapid exchange along the BTA polymer. Our results establish supramolecular BTA polymers as a generic protein recruitment platform and demonstrate how assembly of protein complexes along the supramolecular polymer allows efficient and dynamic control of protein activity.

Published
2018

11. Consequences of a cosolvent on the structure and molecular dynamics of supramolecular polymers in water

Author

Lafleur, RPM, Lou, X, Pavan, GM, Palmans, ARA, Meijer, EW, Lafleur, RPM, Lou, X, Pavan, GM, Palmans, ARA, and Meijer, EW

Abstract

Polar cosolvents are commonly used to guide the self-assembly of amphiphiles in water. Here we investigate the influence of the cosolvent acetonitrile (ACN) on the structure and dynamics of a supramolecular polymer in water, which is based on the well-known benzene-1,3,5-tricarboxamide motif. Hydrogen/deuterium exchange mass spectroscopy measurements show that a gradual increase in the amount of ACN results in a gradual increase in the exchange dynamics of the monomers. In contrast, the morphology of the supramolecular polymers remains unchanged up to 15% of ACN, but then an abrupt change occurs and spherical aggregates are formed. Remarkably, this abrupt change coincides with the formation of micro-heterogeneity in the water-ACN mixtures. The results illustrate that in order to completely characterize supramolecular polymers it is important to add time-resolved measurements that probe their dynamic behavior, to the conventional techniques that are used to assess the morphology of the polymers. Subsequently we have used time-resolved measurements to investigate the influence of the concentration of ACN on the polymerization and depolymerization rates of the supramolecular polymers. Polymerization occurs within minutes when molecularly dissolved monomers are injected from ACN into water and is independent of the fraction of ACN up to 15%. In the depolymerization experiments-initiated by mixing equilibrated supramolecular polymers with dissolved monomers-the equilibration of the system takes multiple hours and does depend on the fraction of ACN. Interestingly, the longest equilibration time of the polymers is observed at a critical solvent composition of around 15% ACN. The differences in the timescales detected in the polymerization and depolymerization experiments are likely correlated to the non-covalent interactions involved, namely the hydrophobic effect and hydrogen-bonding interactions. We attribute the observed fast kinetics in the polymerization reactions to

Published
2018

14. Dynamic diversity of synthetic supramolecular polymers in water as revealed by hydrogen/deuterium exchange

Author

Lou, X, Lafleur, RPM, Leenders, CMA, Schoenmakers, SMC, Matsumoto, NM, Baker, MB, Van Dongen, JLJ, Palmans, ARA, Meijer, EW, Lou, X, Lafleur, RPM, Leenders, CMA, Schoenmakers, SMC, Matsumoto, NM, Baker, MB, Van Dongen, JLJ, Palmans, ARA, and Meijer, EW

Abstract

Numerous self-assembling molecules have been synthesized aiming at mimicking both the structural and dynamic properties found in living systems. Here we show the application of hydrogen/deuterium exchange (HDX) mass spectrometry (MS) to unravel the nanoscale organization and the structural dynamics of synthetic supramolecular polymers in water. We select benzene-1,3,5-tricarboxamide (BTA) derivatives that self-assemble in H2O to illustrate the strength of this technique for supramolecular polymers. The BTA structure has six exchangeable hydrogen atoms and we follow their exchange as a function of time after diluting the H2O solution with a 100-fold excess of D2O. The kinetic H/D exchange profiles reveal that these supramolecular polymers in water are dynamically diverse; a notion that has previously not been observed using other techniques. In addition, we report that small changes in the molecular structure can be used to control the dynamics of synthetic supramolecular polymers in water.

Published
2017

15. Supramolecular fullerene architectures by quadruple hydrogen bonding

Author

Rispens, MT, Sanchez, L, Beckers, EHA, van Hal, PA, Schenning, APHJ, El-ghayoury, A, Peeters, E, Meijer, EW, Janssen, RAJ, Hummelen, JC, Beckers, Edwin H.A., Schenning, Albertus P.H.J., Janssen, René A.J., Macromolecular and Organic Chemistry, Molecular Materials and Nanosystems, Macro-Organic Chemistry, Stratingh Institute of Chemistry, University of Groningen, and Molecular Energy Materials

Subjects
Fullerene, Dimer, Supramolecular chemistry, Photochemistry, chemistry.chemical_compound, Reaction rate constant, NMR spectroscopy, electrochemical methods, Materials Chemistry, Moiety, Quenching (fluorescence), Hydrogen bond, Mechanical Engineering, Metals and Alloys, DONOR-ACCEPTOR HETEROJUNCTIONS, POLYMER, Condensed Matter Physics, Acceptor, Electronic, Optical and Magnetic Materials, Crystallography, chemistry, Mechanics of Materials, solution self-assembly, IR spectroscopy, fullerene derivatives, photoluminescence
Abstract

The synthesis and full characterization of a quadruple bonded fullerene dimer using self-complementary 2-ureido-4[1H]pyrimidinone units with high dimerization constants is described. The chemical integrity of the monomeric moiety in either compound is fully preserved, also with respect to its redox and UV-Vis behavior. Two novel supramolecular dyads consisting of an oligo(p-phenylene vinylene) (OPV) donor and fullerene (C-60) acceptor are created via quadruple hydrogen bonding upon mixing the fullerene dimer and an OPV dimer. In these supramolecular dyads, singlet-energy transfer from the excited OPV unit to the fullerene causes a strong quenching of the OPV fluorescence. The high association constant of the 2-ureido-4[1H]-pyrimidinone quadruple hydrogen-bonding unit results in high quenching factors (Q(max) greater than or equal to 90). The lower limit obtained for the rate constant for energy transfer (k(EN) greater than or equal to 6 x 10(10) s(-1)) is rationalized in terms of the Forster mechanism.

Published
2003
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17. Air pollution exposure estimation using dispersion modelling and continuous monitoring data in a prospective birth cohort study in the Netherlands

Author

Hooven, Edith, Pierik, FH, van Ratingen, SW, Zandveld, PYJ, Meijer, EW (Ernst), Hofman, Bert, Miedema, HME, Jaddoe, Vincent, de Kluizenaar, Y (Yvonne), Hooven, Edith, Pierik, FH, van Ratingen, SW, Zandveld, PYJ, Meijer, EW (Ernst), Hofman, Bert, Miedema, HME, Jaddoe, Vincent, and de Kluizenaar, Y (Yvonne)

Abstract

Previous studies suggest that pregnant women and children are particularly vulnerable to the adverse effects of air pollution. A prospective cohort study in pregnant women and their children enables identification of the specific effects and critical periods. This paper describes the design of air pollution exposure assessment for participants of the Generation R Study, a population-based prospective cohort study from early pregnancy onwards in 9778 women in the Netherlands. Individual exposures to PM10 and NO2 levels at the home address were estimated for mothers and children, using a combination of advanced dispersion modelling and continuous monitoring data, taking into account the spatial and temporal variation in air pollution concentrations. Full residential history was considered. We observed substantial spatial and temporal variation in air pollution exposure levels. The Generation R Study provides unique possibilities to examine effects of short- and long-term air pollution exposure on various maternal and childhood outcomes and to identify potential critical windows of exposure.

Published
2012

18. Control of film morphology by folding hydrogen-bonded oligo(p-phenylenevinylene) polymers in solution

Author

Jonkheijm, P, van Duren, JKJ, Kemerink, Martijn, Janssen, RAJ, Schenning, APHJ, Meijer, EW, Jonkheijm, P, van Duren, JKJ, Kemerink, Martijn, Janssen, RAJ, Schenning, APHJ, and Meijer, EW

Abstract

The film morphology of pi-conjugated oligomers has been controlled by self-assembly in solution. To this end supramolecular hydrogen-bonded systems of oligo(p-phenylenevinylene) (OPV) carrying ureido-s-triazine hydrogen-bonding groups are used. Neutron scattering experiments in dodecane solutions show that columnar stacks are formed. Films with thicknesses on the order of 100 nm are made that have a supramolecular organization resembling the organization present in solution. Uniform rodlike morphological domains range over several hundreds of nanometers as shown by atomic force microscopy. The rodlike morphology of the OPVs was also preserved when blended with a C-60 derivative, producing stable photovoltaic devices.

Published
2006
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22. AIRFORCE: Aircraft influences and radiative forcing from emissions

Author

LLO, Velders GJM, Beck JP, Bolder M, Bregman B, Kelder H, Lelieveld J, Meijer EW, Scheeren HA, Valks PJM, van Velthoven PFJ, van Weele M, LLO, Velders GJM, Beck JP, Bolder M, Bregman B, Kelder H, Lelieveld J, Meijer EW, Scheeren HA, Valks PJM, van Velthoven PFJ, and van Weele M

Abstract

RIVM rapport:Het mondiale vliegverkeer is de laatste decennia sterk gestegen en groeit naar verwachting in de komende 20 jaar met 5-6% per jaar. De emissies van sporengassen door het vliegverkeer, zoals kooldioxide, stikstofoxiden, koolwaterstoffen, zwaveldioxide, waterdamp en roet kunnen effecten hebben op het milieu en direct en indirect bijdragen aan klimaatveranderingen. Het AIRFORCE project (Aircraft Influences and Radiative Forcing from Emissions) is een project van de drie onderzoeksinstituten (IMAU, KNMI en RIVM) die samen het Nederlands Centrum voor Klimaatonderzoek (CKO) vormen. De doelstellingen van AIRFORCE zijn: onderzoek naar het effect van vliegtuigemissies op de samenstelling van de atmosfeer en naar de directe en indirecte effecten van vliegtuigemissies via de stralings-forcering op het klimaat. De modelresultaten laten zien dat NOx emissies van het huidige vliegverkeer een toename veroorzaken van de NOx- en ozonconcentraties in de hoge troposfeer en lage stratosfeer, hetgeen leidt tot een positieve stralingsforcering. In het project is de dynamica en het chemisch mechanisme van enkele drie dimensionale chemie-transportmodellen (CTMK/TM3 en MOGUNTIA) sterk verbeterd. De resultaten van modelberekeningen zijn vergeleken met beschikbare metingen van de STREAM/AIRFORCE en POLINAT campagnes. In het kader van AIRFORCE is een pluimmodel ontwikkeld dat de chemische omzettingen in de pluim direct achter verkeersvliegtuigen beschrijft., Global air traffic has increased extensively during the last few decades and is expected to increase further over the next 20 years by about 5-6% per year. Emissions of trace gases such as carbon dioxide, nitrogen oxides, hydrocarbons, sulphur oxides, water vapour and soot from aircraft can have environmental effects and contribute directly or indirectly to global warming. The three institutes (IMAU, KNMI en RIVM) that form the Netherlands Centre for Climate Research (CKO) participated in the AIRFORCE project (Aircraft Influences and Radiative Forcing from Emissions). The goals of AIRFORCE are: Research on the effect of aircraft emissions on the composition of the atmosphere and on the direct and indirect effects of aircraft emissions on radiative forcing and climate. The model results indicate that NOx emissions from aircraft cause an increase in the NOx and ozone concentrations in the upper troposphere and lower stratosphere, and a positive radiative forcing. The dynamical and chemical mechanisms of several 3-dimensional chemical-transport models (CTMK/TM3 and MOGUNTIA) have been improved considerable in the project. The results have been compared with available measurements from the STREAM/AIRFORCE and POLINAT campaigns. To account for the chemical conversion and dispersion directly behind an aircraft, an aircraft plume model has been developed in the AIRFORCE project, to translate the aircraft NOx emissions into effective emissions that are used as input in the chemical transport models.

Published
1999

23. Modelling gas-phase and heterogeneous conversions of nitrogen oxides in the exhaust plume of an aircraft ; A parameterization for global models

Author

LLO, Meijer EW, Beck JP, Velders GJM, LLO, Meijer EW, Beck JP, and Velders GJM

Abstract

RIVM rapport:Een pluimmodel is ontwikkeld om de gasfase en heterogene chemische omzettingen in de pluim van een vliegtuig direct na de emissie van uitlaatgassen te kunnen bestuderen. De pluimmodelberekeningen resulteren in hoogte, breedtegraad en seizoensafhankelijke omzettingsfactoren waardoor de NOx (= NO + NO2) emissies van vliegtuigen kunnen worden vertaald in effectieve stikstofoxide emissies van de vliegtuigpluim. Uit deze omzettingsfactoren is een parameterisatie afgeleid die de subgrid effecten in de vliegtuigpluim verdisconteert. De parameterisatie kan direct gebruikt worden voor de emissiefactoren van vliegtuigen in mondiale 3D-modellen. In de pluimparameterisatie zijn geen corridor-effecten meegenomen. Pluimberekeningen laten zien dat de omzetting van NOx in andere stikstofoxiden sterk afhangt van de temperatuur en fotochemische activiteit. In the Noord Atlantische vliegcorridor wordt, afhankelijk van het seizoen, ongeveer 30 tot 70% van de ge-emitteerde NOx binnen twee dagen in de pluim omgezet in andere stikstofverbindingen. NOx wordt in de zomer veel sneller in andere stikstofverbindingen omgezet dat in de winter. De bijdrage van heterogene reacties op sulfaataerosolen, ijsdeeltjes en roetdeeltjes is bestudeerd. De heterogene reactie van N2O5 op sulfaataerosolen kan belangrijk zijn bij lage temperaturen aangezien hierdoor de HNO3 concentratie in de pluim een factor vijf groter kan worden. Onzekerheden in de achtergrond temperatuur hebben een groot effect op de omzetting van stikstofoxiden. Voorlopige gevoeligheidsstudies laten zien dat een variatie in temperatuur in de zomer op kruisvluchthoogte van 10% een variatie van 0.28 in de stikstofoxide fractie, t.o.v. de som van alle stikstofverbindingen, tot gevolg heeft. De onzekerheden in de achtergrond concentraties van stoffen rond de vliegtuigpluim kan ook een groot effect hebben. Variatie van 25% in de achtergrondconcentraties op kruisvluchthoogte in de zomer geeft een variatie van 0.20 in de stikstofoxide fracties, The gas-phase and heterogeneous chemical conversion of nitrogen compounds occurring in the plume of an aircraft in the first two days after emission were investigated with a newly developed aircraft plume model. A parameterization was developed for global chemical transport models to account for the subgrid chemical processes taking place in the plume of an aircraft. The role of different plume dynamics, heterogeneous chemistry, ambient temperatures and concentrations, and different aircraft types in the chemical conversions in the plume were studied. The calculated parameters, relating the aircraft emissions to effective emissions of the aircraft plume after two days, were found to be largely dependent on season, latitude and altitude. In the North Atlantic flight corridor approximately 30% to 70%, depending on the season, of the emitted nitrogen oxides are converted to other oxides of nitrogen in the plume within the first two days.

Published
1996

30. Polynitroxyl functionalized dendrimers as paramagnetic relaxation enhancers. Effects of structure on relaxivity

Author

Maliakal, Aj, Turro, Nj, Bosman, Aw, jan cornel, Meijer, Ew, Macro-Organic Chemistry, and Macromolecular and Organic Chemistry

Abstract

The 1H NMR relaxivity of ortho and para dinitroxide substituted phthalate esters and a series of nitroxyl functionalized poly(propylene imine) dendrimers has been measured in acetonitrile and methanol. Studies of dinitroxide relaxivity indicate that electron exchange rate has only a small effect on relaxivity. In studies on dendritic polynitroxides, the per-nitroxide based relaxivity nearly doubles for the generation 5 nitroxyl functionalized dendrimer as compared to a mononitroxide model. This relaxivity enhancement may be due to crowding of dendrimer surface groups in higher generation dendrimers. Dendritic polynitroxides exhibit high relaxivities, making them exciting candidates for magnetic resonance imaging applications. [on SciFinder (R)]

32. Chiral Amplification in Columns of Self-Assembled N,N′,N″-Tris((S)-3,7-dimethyloctyl)benzene-1,3,5-tricarboxamide in Dilute Solution

Author

Brunsveld, L, Schenning, APHJ, Broeren, MAC, Janssen, HM, Vekemans, JAJM, and Meijer, EW

Abstract

Remarkable control of chirality within a long and stable columnar self-assembly of N,N′,N″-Tris((S)-3,7-dimethyloctyl)benzene-1,3,5-tricarboxamide in dilute solution is achieved by strong, unidirectional hydrogen bonding and cooperative side-chain interactions; IR and CD-spectroscopy have been used to elucidate these features.

Published
2000
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33. Crystal Lattice Analysis for 2D Nanomorphology Prediction of Phase-Separated Materials.

Author

Schnitzer T, van den Bersselaar BWL, Lamers BAG, van Son MHC, Maessen SJD, de Graaf FV, de Waal BFM, Trapp N, Vantomme G, and Meijer EW

Abstract

Spontaneous phase separation of materials is a powerful strategy to generate highly defined 2D nanomorphologies with novel properties and functions. Exemplary are such morphologies in block copolymers or amphiphilic systems, whose formation can be well predicted based on parameters such as volume fraction and shape factor. In contrast, the formation of 2D nanomorphologies is currently unpredictable in materials perfectly defined at the molecular level, in which crystallinity plays a significant role. Here, we introduce a crystal lattice analysis to predict a priori the formation of 2D nanomorphologies from the crystalline units in phase-separated soft materials. We show that the formation of lamellar morphologies, their domain spacings, and thermal transition temperatures of such materials can be predicted using a straightforward crystal lattice analysis workflow. We envision this approach to facilitate the design and discovery of new materials with 2D nanomorphologies that are essential for next-generation electronic applications.

Published
2025
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34. Supramolecular Polymer Additives as Repairable Reinforcements for Dynamic Covalent Networks.

Author

van der Tol JJB, Hafeez S, Bänziger APG, Su H, Heuts JPA, Meijer EW, and Vantomme G

Abstract

Employing rigid (in)organic materials as reinforcement for dynamic covalent networks (DCNs) is an effective approach to develop high-performance materials. Yet, recycling of these materials after failure often necessitates inefficient chemical reprocessing or inevitably alters their performance due to unrepairable inert components. Here, a non-covalent reinforcement strategy is presented by introducing a supramolecular additive to a DCN that can reversibly depolymerize and reform on demand, therefore acting as an adaptive and repairable reinforcement. The strong hydrogen-bonding interactions in the supramolecular polymer of triazine-1,3,5-tribenzenecarboxamide (S-T) strengthen the DCN at room temperature, while its non-covalent nature allows for easy one-pot reprocessing at high temperatures. Depending on wether S-T is covalently bond to the DCN or not, it can play either the role of compatibilizer or filler, providing a synthetic tool to control the relaxation dynamics, reprocessability and mechanical properties. Moreover, the S-T reinforcement can be chemically recovered with high yield and purity, showcasing the recyclability of the composite. This conceptually novel supramolecular reinforcement strategy with temperature-controlled dynamics highlights the potential of supramolecular polymer additives to replace conventional unrepairable reinforcements., (© 2024 The Author(s). Advanced Materials published by Wiley‐VCH GmbH.)

Published
2024
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35. Polaritonic Chemistry Enabled by Non-Local Metasurfaces.

Author

Verdelli F, Wei YC, Joseph K, Abdelkhalik MS, Goudarzi M, Askes SHC, Baldi A, Meijer EW, and Gomez Rivas J

Abstract

Vibrational strong coupling can modify chemical reaction pathways in unconventional ways. Thus far, Fabry-Perot cavities formed by pairs of facing mirrors have been mostly utilized to achieve vibrational strong coupling. In this study, we demonstrate the application of non-local metasurfaces that can sustain surface lattice resonances, enabling chemical reactions under vibrational strong coupling. We show that the solvolysis kinetics of para-nitrophenyl acetate can be accelerated by a factor of 2.7 by strong coupling to the carbonyl bond of the solvent and the solute with a surface lattice resonance. Our work introduces a new platform to investigate polaritonic chemical reactions. In contrast to Fabry-Perot cavities, metasurfaces define open optical cavities with single surfaces, which removes alignment hurdles, facilitating polaritonic chemistry across large areas., (© 2024 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2024
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36. Mechanically strong yet metabolizable supramolecular plastics by desalting upon phase separation.

Author

Cheng Y, Hirano E, Wang H, Kuwayama M, Meijer EW, Huang H, and Aida T

Abstract

Plastics that can metabolize in oceans are highly sought for a sustainable future. In this work, we report the noncovalent synthesis of unprecedented plastics that are mechanically strong yet metabolizable under biologically relevant conditions owing to their dissociative nature with electrolytes. Salt-bridging sodium hexametaphosphate with di- or tritopic guanidinium sulfate in water forms a cross-linked supramolecular network, which is stable unless electrolytes are resupplied. This unusual stability is caused by a liquid-liquid phase separation that expels sodium sulfate, generated upon salt bridging, into a water-rich phase. Drying the remaining condensed liquid phase yields glassy plastics that are thermally reshapable, such as thermoplastics, and usable even in aqueous media with hydrophobic parylene C coating. This approach can be extended to polysaccharide-based supramolecular plastics that are applicable for three-dimensional printing.

Published
2024
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37. Long-Lived Triplets from Singlet Fission in Pentacene-Decorated Helical Supramolecular Polymers.

Author

Lavarda G, Sharma A, Beslać M, Jansen SAH, Meskers SCJ, Friend RH, Rao A, and Meijer EW

Abstract

Singlet fission (SF), which involves the conversion of a singlet excited state into two triplet excitons, holds great potential to boost the efficiency of photovoltaics. However, losses due to triplet-triplet annihilation hamper the efficient harvesting of SF-generated triplet excitons, which limits an effective implementation in solar energy conversion schemes. A fundamental understanding of the underlying structure-property relationships is thus crucial to define design principles for cutting-edge SF materials, yet it remains elusive. Herein, we harness helical supramolecular polymers decorated with pentacene side groups to elucidate intermolecular SF dynamics in solution and promote the formation of long-lived mobile triplets. By leveraging the hydrogen bonding-driven assembly of benzene-1,3,5-tricarboxamide (BTA) cores into one-dimensional scaffolds, we direct the organization of appended pentacene motifs into long-range ordered helical frameworks. Dynamic interactions between weakly coupled SF pendants mediate singlet conversion within hundreds of picoseconds, affording triplet quantum yields well above 100%. Moreover, analysis of triplet dynamics with a Monte Carlo simulation model reveals that triplet diffusion along the supramolecular fibers is favored over annihilation, resulting in independent triplets exhibiting considerably slow decay on the time scale of tens of microseconds. The molecular packing within the assembly is tuned by subtle changes in monomer design to increase the rate and efficiency of SF while ensuring exceptionally long-lived mobile triplets, allowing to maintain triplet quantum yields exceeding 100% for at least 100 ns. This work opens new opportunities to exploit self-assembled supramolecular polymers as functional templates to achieve long-lived SF-generated triplets.

Published
2024
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38. Chirality-Induced Magnetic Polarization by Charge Localization in a Chiral Supramolecular Crystal.

Author

Verhage M, Bampoulis P, Preuss MD, Filot I, Joosten RRM, Friedrich H, Meijer EW, and Flipse K

Abstract

The chirality-induced spin selectivity (CISS) effect is a fascinating phenomenon that correlates the molecular structure with electron spin-polarization (SP). Experimental procedures to quantify the spin-filtering magnitude have extensively used magnetic-field-dependent conductive AFM. In this work chiral crystals of imide-substituted coronene bisimide ((S)-CBI-GCH) are studied to explain the dynamics of the current-voltage I - V spectra and the origin of superimposed peaks are investigated. A dynamic voltage-sweep rate-dependent phenomenon can give rise to complex I - V curves. The redox group, capable of localization of charge, acts as a localized state that interferes with the continuum of the π - π stacking, giving rise to Fano resonances. A novel mechanism for dynamic transport is introduced, which provides insight into the origin of spin-polarized charge in crystallized CBI-GCH molecules after absorption on a metallic substrate, guided by transient charge polarization. Crucially, interference between charge localization and delocalization during transport may be important properties in understanding the magnetochiral phenomena observed by electrostatic force microscopy. Finally, it is observed that charge trapping sensitively modifies the injection barrier from direct tunneling to Fowler-Nordheim tunneling transport supporting nonlinearity in CISS for this class of molecules., (© 2024 The Author(s). Advanced Materials published by Wiley‐VCH GmbH.)

Published
2024
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39. Supramolecular polymerization and bulk properties relationship in ester-functionalized N -annulated perylenediimides.

Author

López-Gandul L, Lavarda G, van den Bersselaar BWL, Vantomme G, Meijer EW, and Sánchez L

Abstract

The synthesis of a series of N -annulated perylenediimides (NPDIs) 1-4 with an ester group and an alkyl spacer of different length in the peripheral chains was carried out, and the influence of the side chain architecture on the self-assembly, both in solution and in the solid state, was investigated. Solution studies evidenced that the carbonyl group plays a key role in the supramolecular organization of these derivatives, changing from an H-type isodesmic polymerization (4) to a J-type cooperative process as the spacer length decreases (1-3). On the other hand, bulk assays revealed an odd-even effect that correlates with the length of the alkyl spacer. Whereas the odd-spaced derivatives (2 and 4) organize in a disordered columnar hexagonal fashion, the even-spaced ones (1 and 3) show the formation of multiple crystalline (and liquid crystalline) structures. The results presented herein highlight the importance of side chain functionalization in the design of building blocks for in-solution and bulk purposes., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2024
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40. Visualizing the Heterogeneity in Homogeneous Supramolecular Polymers.

Author

Archontakis E, Dhiman S, Zhang M, Vleugels MEJ, Meijer EW, Palmans ARA, Zijlstra P, and Albertazzi L

Abstract

The dynamic properties of supramolecular polymers enable new functionality beyond the limitations of conventional polymers. The mechanism of the monomer exchange between different supramolecular polymers is proposed to be closely associated with local disordered domains within the supramolecular polymers. However, a direct detection of such heterogeneity has never been experimentally probed. Here, we present the direct visualization of the local disordered domains in the backbone of supramolecular polymers by a super-resolution microscopy technique: Nile Red-based spectrally resolved point accumulation for imaging in nanoscale topography (NR-sPAINT). We investigate the local disordered domains in trisamide-based supramolecular polymers comprising a (co)assembly of benzene-1,3,5-tricarboxamide (BTA) and a variant with one of the amide bonds inverted (iBTA). The NR-sPAINT allows us to simultaneously map the spatial distribution and polarity of the local disordered domains along the polymers with a spatial precision down to ∼20 nm. Quantitative autocorrelation and cross-correlation analysis show subtle differences in the spatial distribution of the disordered domains between polymers composed of different variants of BTA monomers. Further, statistical analysis unraveled high heterogeneity in monomer packing at both intra- and interpolymer levels. The results reported here demonstrate the necessity of investigating the structures in soft materials at nanoscale to fully understand their intricacy.

Published
2024
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41. Supramolecular Polymerization as a Tool to Reveal the Magnetic Transition Dipole Moment of Heptazines.

Author

Xu F, Su H, van der Tol JJB, Jansen SAH, Fu Y, Lavarda G, Vantomme G, Meskers S, and Meijer EW

Abstract

Heptazine derivatives have attracted significant interest due to their small S 1 -T 1 gap, which contributes to their unique electronic and optical properties. However, the nature of the lowest excited state remains ambiguous. In the present study, we characterize the lowest optical transition of heptazine by its magnetic transition dipole moment. To measure the magnetic transition dipole moment, the flat heptazine must be chiroptically active, which is difficult to achieve for single heptazine molecules. Therefore, we used supramolecular polymerization as an approach to make homochiral stacks of heptazine derivatives. Upon formation of the supramolecular polymers, the preferred helical stacking of heptazine introduces circular polarization of absorption and fluorescence. The magnetic transition dipole moments for the S 1 ← S 0 and S 1 → S 0 are determined to be 0.35 and 0.36 Bohr magneton, respectively. These high values of magnetic transition dipole moments support the intramolecular charge transfer nature of the lowest excited state from nitrogen to carbon in heptazine and further confirm the degeneracy of S 1 and T 1 .

Published
2024
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42. Functionalization of Supramolecular Polymers by Dynamic Covalent Boroxine Chemistry.

Author

Preuss MD, Schnitzer T, Jansen SAH, Meskers SCJ, Kuster THR, Lou X, Meijer EW, and Vantomme G

Abstract

Molecular scaffolds that enable the combinatorial synthesis of new supramolecular building blocks are promising targets for the construction of functional molecular systems. Here, we report a supramolecular scaffold based on boroxine that enables the formation of chiral and ordered 1D supramolecular polymers, which can be easily functionalized for circularly polarized luminescence. The boroxine monomers are quantitatively synthesized in situ, both in bulk and in solution, from boronic acid precursors and cooperatively polymerize into 1D helical aggregates stabilized by threefold hydrogen-bonding and π-π stacking. We then demonstrate amplification of asymmetry in the co-assembly of chiral/achiral monomers and the co-condensation of chiral/achiral precursors in classical and in situ sergeant-and-soldiers experiments, respectively, showing fast boronic acid exchange reactions occurring in the system. Remarkably, co-condensation of pyrene boronic acid with a hydrogen-bonding chiral boronic acid results in chiral pyrene aggregation with circularly polarized excimer emission and g-values in the order of 10 -3 . Yet, the electron deficiency of boron in boroxine makes them chemically addressable by nucleophiles, but also sensitive to hydrolysis. With this sensitivity in mind, we provide first insights into the prospects offered by boroxine-based supramolecular polymers to make chemically addressable, functional, and adaptive systems., (© 2024 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2024
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43. Consequences of Vibrational Strong Coupling on Supramolecular Polymerization of Porphyrins.

Author

Joseph K, de Waal B, Jansen SAH, van der Tol JJB, Vantomme G, and Meijer EW

Abstract

Supramolecular polymers display interesting optoelectronic properties and, thus, deploy multiple applications based on their molecular arrangement. However, controlling supramolecular interactions to achieve a desirable molecular organization is not straightforward. Over the past decade, light-matter strong coupling has emerged as a new tool for modifying chemical and material properties. This novel approach has also been shown to alter the morphology of supramolecular organization by coupling the vibrational bands of solute and solvent to the optical modes of a Fabry-Perot cavity (vibrational strong coupling, VSC). Here, we study the effect of VSC on the supramolecular polymerization of chiral zinc-porphyrins ( S- Zn ) via a cooperative effect. Electronic circular dichroism (ECD) measurements indicate that the elongation temperature ( T e ) of the supramolecular polymerization is lowered by ∼10 °C under VSC. We have also generalized this effect by exploring other supramolecular systems under strong coupling conditions. The results indicate that the solute-solvent interactions are modified under VSC, which destabilizes the nuclei of the supramolecular polymer at higher temperatures. These findings demonstrate that the VSC can indeed be used as a tool to control the energy landscape of supramolecular polymerization. Furthermore, we use this unique approach to switch between the states formed under ON- and OFF-resonance conditions, achieved by simply tuning the optical cavity in and out of resonance.

Published
2024
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44. Trade-off between processability and device performance in donor-acceptor semiconductors revealed using discrete siloxane side chains.

Author

van den Bersselaar BWL, Cattenstart EHW, Elangovan KE, Yen-Chi C, de Waal BFM, van der Tol J, Diao Y, Meijer EW, and Vantomme G

Abstract

Donor-acceptor polymeric semiconductors are crucial for state-of-the-art applications, such as electronic skin mimics. The processability, and thus solubility, of these polymers in benign solvents is critical and can be improved through side chain engineering. Nevertheless, the impact of novel side chains on backbone orientation and emerging device properties often remains to be elucidated. Here, we investigate the influence of elongated linear and branched discrete oligodimethylsiloxane ( o DMS) side chains on solubility and device performance. Thereto, diketopyrrolopyrrole-thienothiophene polymers are equipped with various o DMS pendants (PDPPTT-Si n ) and subsequently phase separated into lamellar domains. The introduction of a branching point in the siloxane significantly enhanced the solubility of the polymer, as a result of increased backbone distortion. Simultaneously, the charge carrier mobility of the polymers decreased by an order of magnitude upon functionalization with long and/or branched siloxanes. This work unveils the intricate balance between processability and device performance in organic semiconductors, which is key for the development of next-generation electronic devices., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2024
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45. Self-assembled soft alloy with Frank-Kasper phases beyond metals.

Author

Liu XY, Yan XY, Liu Y, Qu H, Wang Y, Wang J, Guo QY, Lei H, Li XH, Bian F, Cao XY, Zhang R, Wang Y, Huang M, Lin Z, Meijer EW, Aida T, Kong X, and Cheng SZD

Abstract

Soft building blocks, such as micelles, cells or soap bubbles, tend to adopt near-spherical geometry when densely packed together. As a result, their packing structures do not extend beyond those discovered in metallic glasses, quasicrystals and crystals. Here we report the emergence of two Frank-Kasper phases from the self-assembly of five-fold symmetric molecular pentagons. The μ phase, an important intermediate in superalloys, is indexed in soft matter, whereas the ϕ phase exhibits a structure distinct from known Frank-Kasper phases in metallic systems. We find a broad size and shape distribution of self-assembled mesoatoms formed by molecular pentagons while approaching equilibrium that contribute to the unique packing structures. This work provides insight into the manipulation of soft building blocks that deviate from the typical spherical geometry and opens avenues for the fabrication of 'soft alloy' structures that were previously unattainable in metal alloys., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2024
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47. Tunable emission from H-type supramolecular polymers in optical nanocavities.

Author

Lavarda G, Berghuis AM, Joseph K, van der Tol JJB, Murai S, Gómez Rivas J, and Meijer EW

Abstract

H-type supramolecular polymers with preferred helicity and highly efficient emission have been prepared from the self-assembly of chiral tetraphenylene-based monomers. Implementation of the one-dimensional fibers into dielectric nanoparticle arrays allows for a significant reshaping of fluorescence due to weak light-matter coupling.

Published
2024
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48. Self-Assembly of Discrete Oligomers of Naphthalenediimides in Bulk and on Surfaces.

Author

Corbet CHWA, van den Bersselaar BWL, de Waal BFM, Reynaerts R, Mali KS, De Feyter S, Jonas AM, Meijer EW, and Vantomme G

Abstract

Here, we report on the synthesis of discrete oligomers of alkyl-bridged naphthalenediimides (NDIs) and study their molecular nanostructures both in bulk, in solution, and at the liquid-solid interface. Via an iterative synthesis method, multiple NDI cores were bridged with short and saturated alkyl-diamines (C 3 and C 12 ) or long and unsaturated alkyl-diamines (u 2 C 33 to u 8 C 100 ) at their imide termini. The strong intermolecular interaction between the NDI cores was observed by probing their photophysical properties in solution. In bulk, the discrete NDI oligomers preferentially ordered in lamellar morphologies, irrespective of whether a saturated or unsaturated spacer was employed. Moreover, both the molecular architecture as well as the crystallization conditions play a significant role in the nanoscale ordering. The long unsaturated alkyl chains lead preferably to folded-chain conformations while their saturated analogues form stretched arrangements. At the solution-solid interface, well-defined lamellar regions were observed. These results show that precision in chemical structure alone is not sufficient to reach well-defined structures of discrete oligomers, but that it must be combined with precision in processing conditions., (© 2023 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published
2024
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49. Supramolecular polymers form tactoids through liquid-liquid phase separation.

Author

Fu H, Huang J, van der Tol JJB, Su L, Wang Y, Dey S, Zijlstra P, Fytas G, Vantomme G, Dankers PYW, and Meijer EW

Abstract

Liquid-liquid phase separation (LLPS) of biopolymers has recently been shown to play a central role in the formation of membraneless organelles with a multitude of biological functions 1-3 . The interplay between LLPS and macromolecular condensation is part of continuing studies 4,5 . Synthetic supramolecular polymers are the non-covalent equivalent of macromolecules but they are not reported to undergo LLPS yet. Here we show that continuously growing fibrils, obtained from supramolecular polymerizations of synthetic components, are responsible for phase separation into highly anisotropic aqueous liquid droplets (tactoids) by means of an entropy-driven pathway. The crowding environment, regulated by dextran concentration, affects not only the kinetics of supramolecular polymerizations but also the properties of LLPS, including phase-separation kinetics, morphology, internal order, fluidity and mechanical properties of the final tactoids. In addition, substrate-liquid and liquid-liquid interfaces proved capable of accelerating LLPS of supramolecular polymers, allowing the generation of a myriad of three-dimensional-ordered structures, including highly ordered arrays of micrometre-long tactoids at surfaces. The generality and many possibilities of supramolecular polymerizations to control emerging morphologies are demonstrated with several supramolecular polymers, opening up a new field of matter ranging from highly structured aqueous solutions by means of stabilized LLPS to nanoscopic soft matter., (© 2024. The Author(s).)

Published
2024
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50. Unusual Photophysical Properties of Porphyrin-Based Supramolecular Polymers Unveiled: The Role of Metal Ligands and Side Group Amide Connectivity.

Author

Touloupas I, Weyandt E, Meijer EW, and Hildner R

Abstract

Supramolecular polymers based on porphyrins are an interesting model system, since the self-assembly and thus the photophysics can be modified by the chemical structure of the porphyrins, e.g. , by a metal inserted in the ligand or by different (solubilizing) side groups. Here, we investigate the photophysical properties of supramolecular polymers based on free-base and Zn-centered porphyrins, each with different amide connectivity in the side chains, by absorption and (time-resolved) photoluminescence spectroscopy on solutions. We find that for all porphyrin derivatives the B-band absorption of supramolecular polymers is a superposition of H- and J-type aggregate spectra, while the Q-band absorption indicates only J-type aggregation. The emission of supramolecular polymers stems exclusively from the Q-band and shows only J-type behavior. For supramolecular polymers based on the free-base porphyrins, we identify only a single aggregate species, whereas for Zn-centered porphyrins, two distinct species coexist in solution, each with a (slightly) different arrangement of monomers. We rationalize this complex behavior by a slip-stacking of porphyrins along the direction of one of the two B-band transition dipole moments, resulting in simultaneous H- and J-type intermolecular coupling in the B-band. In the Q-band, with its transition dipole moments oriented 45° relative to the corresponding B-band moments, only J-type coupling is thus present. Our results demonstrate that the self-assembly and the photophysics of supramolecular polymers based on porphyrins can only be fully understood if spectral information from all bands is considered., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published
2023
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