Your search keyword '"Taru Nikkonen"' showing total 7 results

1. Synthesis, Aromaticity and Photophysical Behaviour of Ferrocene- and Ruthenocene-Appended Semisynthetic Chlorin Derivatives

Author

Stefan Taubert, Juho Helaja, Taru Nikkonen, María Moreno Oliva, Michele Melchionna, Axel Kahnt, Nikkonen, Taru, Moreno Oliva, María, Taubert, Stefan, Melchionna, Michele, Kahnt, Axel, and Helaja, Juho

Subjects

metallocene, photochemistry, Nucleophilic addition, Stereochemistry, donor-acceptor systems, aromaticity, electron transfer, metallocenes, Chemistry (all), Organic Chemistry, Aromaticity, General Chemistry, Ring (chemistry), Medicinal chemistry, Catalysis, chemistry.chemical_compound, Deprotonation, donor-acceptor system, chemistry, Chlorin, Ruthenocene, Metallocene, Antiaromaticity

Abstract

Two novel synthetic strategies to covalently link a metallocene electron-donor unit to a chlorin ring are presented. In one approach, pyropheophorbide a is readily converted into its 13(1) -ferrocenyl dehydro derivative by nucleophilic addition of the ferrocenyl anion to the 13(1) -carbonyl group. In another approach, the corresponding 13(1) -pentamethylruthenocenyl derivative is synthesised from 13(1) -fulvenylchlorin by a facile ligand exchange/deprotonation reaction with the [RuCp*(cod)Cl] (Cp*=pentamethylcyclopentadienyl; cod=1,5-cyclooctadiene) complex. The resulting metallocene-chlorins exhibit reduced aromaticity, which was unequivocally supported by ring-current calculations based on the gauge-including magnetically induced current (GIMIC) method and by calculated nucleus-independent chemical shift (NICS) values. The negative ring current in the isocyclic E ring suggests the antiaromatic character of this moiety and also clarifies the spontaneous reactivity of the complexes with oxygen. The oxidation products were isolated and their electrochemical and photophysical properties were studied. The ruthenocene derivatives turned out to be stable under light irradiation and showed photoinduced charge transfer with charge-separation lifetimes of 152-1029 ps.

Published

2015

2. Photoinduced charge transfer in a conformational switching chlorin dimer-azafulleroid in polar and nonpolar media

Author

Mikko Muuronen, Taru Nikkonen, Juho Helaja, María Moreno Oliva, Dirk M. Guldi, and Axel Kahnt

Subjects

Chlorophyll, Models, Molecular, Porphyrins, Hydrogen bond, Singlet oxygen, Dimer, Organic Chemistry, General Chemistry, Conjugated system, Photochemistry, Catalysis, Delocalized electron, chemistry.chemical_compound, Rhodopseudomonas, chemistry, Photoinduced charge separation, Biomimetic Materials, Excited state, Chlorin, polycyclic compounds, Fullerenes, Photosynthesis, Dimerization

Abstract

In the present study, a biomimetic reaction center model, that is, a molecular triad consisting of a chlorin dimer and an azafulleroid, is synthesized and its photophysical properties are studied in comparison with the corresponding molecular dyad, which consists only of a chlorin monomer and an azafulleroid. As evidenced by (1) H NMR, UV/Vis, and fluorescence spectroscopy, the chlorin dimer-azafulleroid folds in nonpolar media into a C2 -symmetric geometry through hydrogen bonding, resulting in appreciable electronic interactions between the chlorins, whereas in polar media the two chlorins diverge from contact. Femtosecond transient absorption spectroscopy studies reveal longer charge-separated states for the chlorin dimer-azafulleroid; ≈1.6 ns in toluene, compared with the lifetime of ≈0.9 ns for the corresponding chlorin monomer-azafulleroid in toluene. In polar media, for example, benzonitrile, similar charge-separated states are observed, but the lifetimes are inevitably shorter: 65 and 73 ps for the dimeric and monomeric chlorin-azafulleroids, respectively. Nanosecond transient absorption and singlet oxygen phosphorescence studies corroborate that in toluene, the charge-separated state decays indirectly via the triplet excited state to the ground state, whereas in benzonitrile, direct recombination to the ground state is observed. Complementary DFT studies suggest two energy-minima conformations, that is, a folded chlorin dimer-azafulleroid, which is present in nonpolar media, and another conformation in polar media, in which the two hydrophobic chlorins wrap the azafulleroid. Inspection of the frontier molecular orbitals shows that in the folded conformation, the HOMO on each chlorin is equivalent and is shared owing to partial π-π overlap, resulting in delocalization of the conjugated π electrons, whereas the wrapped conformation lacks this stabilization. As such, the longer charge-separated lifetime for the dimer is rationalized by both the electron donor-acceptor separation distance and the stabilization of the radical cation through delocalization. The chlorin folding seems to change the photophysical properties in a manner similar to that observed in the chlorophyll dimer in natural photosynthetic reaction centers.

Published

2014

3. Light-harvesting zinc chlorin-poly(4-vinylpyridine) complexes

Author

Taru Nikkonen, Ville Pale, Ilkka Tittonen, and Juho Helaja

Subjects

chemistry.chemical_classification, Materials science, chemistry.chemical_element, Polymer, Zinc, Photochemistry, Fluorescence spectroscopy, symbols.namesake, chemistry, Stokes shift, Optical materials, symbols, Steady state fluorescence, Energy exchange, Zinc chlorin

Published

2014

4. Effect of mutual position of electron donor and acceptor on photoinduced electron transfer in supramolecular chlorophyll-fullerene dyads

Author

Nikolai V. Tkachenko, Juho Helaja, Mikko Muuronen, Kati Stranius, Vladimir Iashin, and Taru Nikkonen

Subjects

Chlorophyll, Metalloporphyrins, Pyridines, Prato reaction, Static Electricity, Supramolecular chemistry, Electron donor, Electrons, Photochemistry, Chlorobenzenes, Photoinduced electron transfer, Electron Transport, chemistry.chemical_compound, Crown Ethers, polycyclic compounds, Physical and Theoretical Chemistry, Crown ether, chemistry.chemical_classification, Electron acceptor, Acceptor, Crystallography, Kinetics, chemistry, Chlorin, Thermodynamics, Fullerenes

Abstract

In this study we have explored the influence of mutual position of chlorin electron donor and fullerene C60 electron acceptor on photoinduced electron transfer. Two zinc-chlorin-aza-[18]crown-6 compounds and three pyrrolidino[60]fullerenes with alkyl aminium and varying coordinative moieties were synthesized and used for self-assembling of a set of complexes via two-point binding. The aza[18]crown6 moieties were connected to chlorins via amide linker either at 13(4) or 17(4) position, hence, being attached on different sides of the chlorin plane. Furthermore, in the former case, the linker holds the crown closely spaced, whereas, in the latter, the linker gives more space and conformational freedom for the crown with respect to the chlorin macrocycle. The coordinative moieties at fullerene site, 3-pyridine, 4-pyridine, and 3-furan, were built by utilizing the Prato reaction. The two-point binding drove the molecules into specific complex formation by self-assembling; aminium ion was chelated by crown ether, while zinc moiety of chlorin was coordinated by pyridine and furan. Such pairing resulted in distinct supramolecular chlorin-fullerene dyads with defined distance and orientation. The performed computational studies at DFT level in solution, with TPSS-D3/def2-TZVP//def2-SVP, indicated different geometries and binding energies for the self-assembling complexes. Notably, the computations pointed out that for all the studied complexes, the donor-acceptor distances and binding energies were dictated by chirality of pyrrolidino ring at C60. The selective excitation of chlorin chromophore revealed efficient emission quenching in all dyads. The ultrafast spectroscopy studies suggested a fast and efficient photoinduced charge transfer in the dyads. The lifetimes of the charge separated states range from 55 to 187 ps in o-dichlorobenzene and from 14 to 60 ps in benzonitrile. Expectedly, the electron transfer rate was found to be critically dependent on the donor-acceptor distance; additionally, the mutual orientation of these entities was found to have significant contribution on the rate.

Published

2014

5. Biomimetic zinc chlorin-poly(4-vinylpyridine) assemblies : doping level dependent emission-absorption regimes

Author

Jorma Selin, Mauri A. Kostiainen, Taru Nikkonen, Jaana Vapaavuori, Juho Helaja, Ville Pale, Jari Kavakka, Ilkka Tittonen, Department of Chemistry, and Synthesis and Analysis

Subjects

Materials science, Absorption spectroscopy, education, 116 Chemical sciences, Analytical chemistry, 010402 general chemistry, Photochemistry, 01 natural sciences, Fluorescence spectroscopy, chemistry.chemical_compound, THIN-FILMS, SYSTEMS, polycyclic compounds, Materials Chemistry, LIGHT-HARVESTING-COMPLEX, FLUORESCENT DYES, Quenching (fluorescence), CHLOROPHYLL-POLY(VINYLPYRIDINE) COMPLEXES, 010405 organic chemistry, Small-angle X-ray scattering, PHOTOSYNTHESIS, Doping, General Chemistry, Nuclear magnetic resonance spectroscopy, CHLOROPHYLL, 0104 chemical sciences, chemistry, Chlorin, Absorption (chemistry), POLYMERS, ENERGY-TRANSFER, BACTERIOCHLOROPHYLL

Abstract

To develop biomimetic dye–polymers for photonics, two different types of Zn chlorin–poly(4-vinylpyridine) (P4VP) assemblies were prepared by varying Zn pyro-pheophorbide a methylester (ZnPPME) and Zn 31-OH-pyro-pheophorbide a methylester (Zn-31-OH-PPME) doping levels. 1H NMR spectroscopy and diffusion ordered NMR spectroscopy (DOSY) studies revealed that a coordinative interaction between Zn chlorin and P4VP was predominant in solution (d5-nitrobenzene). Small angle X-ray scattering (SAXS) and transmission electron microscopy (TEM) characterization of bulk samples of polystyrene-block-poly(4-vinylpyridine) (PS-b-P4VP) doped with variable amounts of Zn chlorin showed that the pigment doping transformed the native cylindrical block copolymer nanostructures to lamellar morphologies. The result indicates that the pyridine moiety–Zn chlorin coordination is stronger than the aggregation tendency between the pigment molecules even in the solid state. UV-Vis absorption spectroscopy studies of a Zn chlorin–P4VP thin film showed characteristic monomeric chlorin spectra, while steady-state fluorescence spectroscopy displayed quenching of fluorescence and time-resolved studies indicated shortening of fluorescence lifetimes with an increasing chlorin doping level. Notably, time-resolved fluorescence spectroscopy revealed that the lifetime decay changed from monoexponential to biexponential above 0.5 wt% (ca. 0.001 equiv.) loadings. The Förster analysis implies that excitonic chlorin–chlorin interactions are observed in the thin films when the distance between the pigment molecules is approximately 50 Å. The Zn chlorin–P4VP solid films emit strongly up to 1 wt% (ca. 0.002 equiv.) doping level above which the chlorin–chlorin interactions start to linearly dominate with an increase of doping level, while with 10 wt% (ca. 0.02 equiv.) loading less than 10% of fluorescence remains. Doping levels up to 300 wt% (0.5 equiv.) can be used in absorbing materials without the formation of chlorin aggregates. These defined optical response regions pave the way for photonic materials based on biopigment assemblies.

Published

2013

6. Inside Back Cover: Photoinduced Charge Transfer in a Conformational Switching Chlorin Dimer-Azafulleroid in Polar and Nonpolar Media (Chem. Eur. J. 2/2015)

Author

Dirk M. Guldi, Mikko Muuronen, Taru Nikkonen, Juho Helaja, Axel Kahnt, and María Moreno Oliva

Subjects

010405 organic chemistry, Dimer, Organic Chemistry, Charge (physics), General Chemistry, 010402 general chemistry, Photochemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Photoinduced charge separation, Chlorin, Polar

Published

2015

7. Hydrogen bond driven self-assembled C2-symmetric chlorin syn dimers; unorthodox models for chlorophyll ‘special pairs’ in photosynthetic reaction centres

Author

Raisa Haavikko, Juho Helaja, and Taru Nikkonen

Subjects

Chlorophyll, Photosynthetic reaction centre, Magnetic Resonance Spectroscopy, Porphyrins, Hydrogen, chemistry.chemical_element, Infrared spectroscopy, 010402 general chemistry, Photochemistry, 01 natural sciences, Biochemistry, Fluorescence, chemistry.chemical_compound, Ultraviolet visible spectroscopy, X-Ray Diffraction, Amide, Physical and Theoretical Chemistry, Molecular Structure, 010405 organic chemistry, Hydrogen bond, Circular Dichroism, Organic Chemistry, Hydrogen Bonding, Nuclear magnetic resonance spectroscopy, Amides, 0104 chemical sciences, 3. Good health, chemistry, Chlorin, Solvents, Dimerization

Abstract

Amide linked pyro-pheophorbide a dimers, equipped with a suitable length of linkage, assemble in non-polar solvents by internal hydrogen bonding into C2-symmetric stacked structures as evidenced by UV-vis, fluorescence, IR, CD, 1H NMR spectroscopy and DFT molecular modelling studies.

Published

2009