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1. Introducing Phosphorus into the Overcrowded Thiele's hydrocarbon Family: Unveiling Contorted Main Group Diradicaloids with Dynamic Redox Behavior.

Author

Deka, Rajesh, Asif Ansari, Mohd, Chattopadhyay, Samir, Lomoth, Reiner, Thapper, Anders, and Orthaber, Andreas

Abstract

Thiele's Hydrocarbons (THs) featuring a 9,10‐anthrylene core with switchable geometric and electronic configurations offer exciting possibilities in advanced functional materials. Despite significant advances in main group‐based diradicaloids in contemporary chemistry, main group THs containing an anthrylene cores have remained elusive, primarily due to the lack of straightforward synthetic strategies and the inherent high reactivity of these species. In this study, we utilize an anthracene‐based phosphine synthon to demonstrate, for the first time, a facile and high‐yielding synthetic strategy for robust P‐functionalized overcrowded ethylenes (OCEs) within the TH family. These OCEs feature a non‐symmetric environment, incorporating (thio) xanthyl and phosphaalkene termini. We systematically probe the electronic structures of these derivatives to illustrate the impact of the isolobal phosphaalkene motif on the quinoidal/diradicaloid character. Notably, the compounds exhibit dynamic redox behavior, leading to orthogonally twisted conformational changes upon oxidation, with a kinetically locked redox‐couple. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Photocatalytic Generation of Divalent Lanthanide Reducing Agents

Author

Tomar, Monika, Bhimpuria, Rohan, Kócsi, Dániel, Thapper, Anders, Borbas, K. Eszter, Tomar, Monika, Bhimpuria, Rohan, Kócsi, Dániel, Thapper, Anders, and Borbas, K. Eszter

Abstract

Divalent lanthanide (Ln) compounds are excellent reducing agents with unique reactivity profiles. These reagents are typically used in superstoichiometric amounts, often in combina-tion with harmful additives. Reactions catalytic in Ln(II) reagents that retain the reactivity and selectivity of the stoichiometric transformations are currently lacking due to the absence of effective and selective methods to form reactive Ln(II) species from stable precursors. Here, active Ln(II) is generated from a Ln(III) precursor through reduction by a photoexcited coumarin or carbostyril chromophore, which, in turn, is regenerated by a sacrificial reductant. The reductant can be metallic (Zn) or organic (amines) and can be used in strictly stoichiometric amounts. A broad range of reactions, including C-halogen, C=C, C=X (X = O, N), P=O, and N=N reductions, as well as C-C, C-X (X = N, S, P), and N-N couplings were readily carried out in yields and selectivities comparable to or better than those afforded by the analogous stoichiometric transformations. The reaction outcomes could be altered by changing the ligand or the lanthanide or through the addition of environmentally benign additives (e.g., water). EPR spectroscopy supported the formation of both Ln(II) and oxidized chromophore intermediates. Taken together, these results establish photochemical Ln(II) generation as a powerful strategy for rendering Ln(II)-mediated reactions catalytic.

Published
2023
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7. Artificial Photosynthesis

Author

Styring, Stenbjörn, Thapper, Anders, Lomoth, Reiner, Kreysa, Gerhard, editor, Ota, Ken-ichiro, editor, and Savinell, Robert F., editor

Published
2014
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12. Water Oxidation by Pentapyridyl Base Metal Complexes? A Case Study

Author

Boniolo, Manuel, primary, Hossain, Md Kamal, additional, Chernev, Petko, additional, Suremann, Nina F., additional, Heizmann, Philipp A., additional, Lyvik, Amanda S.L., additional, Beyer, Paul, additional, Haumann, Michael, additional, Huang, Ping, additional, Salhi, Nessima, additional, Cheah, Mun Hon, additional, Shylin, Sergii I., additional, Lundberg, Marcus, additional, Thapper, Anders, additional, and Messinger, Johannes, additional

Published
2022
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14. Water Oxidation by Pentapyridyl Base Metal Complexes? : A Case Study

Author

Boniolo, Manuel, Hossain, Md Kamal, Chernev, Petko, Suremann, Nina F., Heizmann, Philipp A., Lyvik, Amanda S.L., Beyer, Paul, Haumann, Michael, Huang, Ping, Salhi-Benachenhou, Nessima, Cheah, Mun Hon, Shylin, Sergii I., Lundberg, Marcus, Thapper, Anders, Messinger, Johannes, Boniolo, Manuel, Hossain, Md Kamal, Chernev, Petko, Suremann, Nina F., Heizmann, Philipp A., Lyvik, Amanda S.L., Beyer, Paul, Haumann, Michael, Huang, Ping, Salhi-Benachenhou, Nessima, Cheah, Mun Hon, Shylin, Sergii I., Lundberg, Marcus, Thapper, Anders, and Messinger, Johannes

Abstract

The design of molecular water oxidation catalysts (WOCs) requires a rational approach that considers the intermediate steps of the catalytic cycle, including water binding, deprotonation, storage of oxidizing equivalents, O–O bond formation, and O2 release. We investigated several of these properties for a series of base metal complexes (M = Mn, Fe, Co, Ni) bearing two variants of a pentapyridyl ligand framework, of which some were reported previously to be active WOCs. We found that only [Fe(Py5OMe)Cl]+ (Py5OMe = pyridine-2,6-diylbis[di-(pyridin-2-yl)methoxymethane]) showed an appreciable catalytic activity with a turnover number (TON) = 130 in light-driven experiments using the [Ru(bpy)3]2+/S2O82– system at pH 8.0, but that activity is demonstrated to arise from the rapid degradation in the buffered solution leading to the formation of catalytically active amorphous iron oxide/hydroxide (FeOOH), which subsequently lost the catalytic activity by forming more extensive and structured FeOOH species. The detailed analysis of the redox and water-binding properties employing electrochemistry, X-ray absorption spectroscopy (XAS), UV–vis spectroscopy, and density-functional theory (DFT) showed that all complexes were able to undergo the MIII/MII oxidation, but none was able to yield a detectable amount of a MIV state in our potential window (up to +2 V vs SHE). This inability was traced to (i) the preference for binding Cl– or acetonitrile instead of water-derived species in the apical position, which excludes redox leveling via proton coupled electron transfer, and (ii) the lack of sigma donor ligands that would stabilize oxidation states beyond MIII. On that basis, design features for next-generation molecular WOCs are suggested.

Published
2022
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15. Gold nanoparticle-based supramolecular approach for dye-sensitized H-2-evolving photocathodes

Author

Lalaoui, Noemie, Abdellah, Mohamed, Materna, Kelly L., Xu, Bo, Tian, Haining, Thapper, Anders, Sá, Jacinto, Hammarström, Leif, Ott, Sascha, Lalaoui, Noemie, Abdellah, Mohamed, Materna, Kelly L., Xu, Bo, Tian, Haining, Thapper, Anders, Sá, Jacinto, Hammarström, Leif, and Ott, Sascha

Abstract

Solar conversion of water into the storable energy carrier H-2 can be achieved through photoelectrochemical water splitting using light adsorbing anodes and cathodes bearing O-2 and H-2 evolving catalysts, respectively. Herein a novel photocathode nanohybrid system is reported. This photocathode consists of a dye-sensitized p-type nickel oxide (NiO) with a perylene-based chromophore (PCA) and a tetra-adamantane modified cobaloxime reduction catalyst (Co) that photo-reduces aqueous protons to H-2. An original supramolecular approach was employed, using beta-cyclodextrin functionalized gold nanoparticles (beta-CD-AuNPs) to link the alkane chain of the PCA dye to the adamantane moieties of the cobaloxime catalyst (Co). This new architecture was investigated by photoelectrochemical measurements and via femtosecond-transient absorption spectroscopy. The results show that irradiation of the complete NiO|PCA|beta-CD-AuNPs|Co electrode leads to ultrafast hole injection into NiO (pi = 3 ps) from the excited dye, followed by rapid reduction of the catalyst, and finally H-2 evolution.

Published
2022
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16. Two routes to hydrogen evolution for a Co-polypyridyl complex with two open sites

Author

Toro, Liqin Xue, Kiriakidi, Sofia, Thapper, Anders, Ott, Sascha, Lundberg, Marcus, Toro, Liqin Xue, Kiriakidi, Sofia, Thapper, Anders, Ott, Sascha, and Lundberg, Marcus

Abstract

Cobalt polypyridyl complexes efficiently catalyze hydrogen evolution in aqueous media and exhibit high stability under reducing conditions. Their stability and activity can be tuned through electronic and steric considerations, but the rationalization of these effects requires detailed mechanistic understanding. As an example, tetradentate ligands with two non-permanently occupied coordination sites show higher activity with these sites in cis compared to trans configuration. Here reaction mechanisms of the Co-polypyridyl complex [Co-II(bpma)Cl-2] (bpma = bipyridinylmethyl-pyridinylmethyl-methyl-amine) have been studied using hybrid density-functional theory. This complex has two exchangeable cis sites, and provides a flexible ligand environment with both pyridyl and amine coordination. Two main pathways with low barriers are found. One pathway, which includes both open sites, is hydrogen evolution from a Co-II-H intermediate with a water ligand as the proton donor. In the second pathway H-H bond formation occurs between the hydride and the protonated bpma ligand, with one open site acting as a spectator. The two pathways have similar barriers at higher pH, while the latter becomes more dominant at lower pH. The calculations consider a large number of interconnected variables; protonation sites, isomers, spin multiplicities, and the identities of the open binding sites, as well as their combinations, thus exploring many simultaneous dimensions within each pathway. The results highlight the effects of having two open cis-coordination sites and how their relative binding affinities change during the reaction pathway. They also illustrate why Co-II-H intermediates are more active than Co-III-H ones, and why pyridyl protonation gives lower reaction barriers than amine protonation.

Published
2022
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20. Gold nanoparticle-based supramolecular approach for dye-sensitized H2-evolving photocathodes.

Author

Lalaoui, Noémie, Abdellah, Mohamed, Materna, Kelly L., Xu, Bo, Tian, Haining, Thapper, Anders, Sa, Jacinto, Hammarström, Leif, and Ott, Sascha

Subjects
PHOTOCATHODES, GOLD nanoparticles, NICKEL oxides, NICKEL oxide, CYCLODEXTRINS, COBALOXIMES
Abstract

Solar conversion of water into the storable energy carrier H2 can be achieved through photoelectrochemical water splitting using light adsorbing anodes and cathodes bearing O2 and H2 evolving catalysts, respectively. Herein a novel photocathode nanohybrid system is reported. This photocathode consists of a dye-sensitized p-type nickel oxide (NiO) with a perylene-based chromophore (PCA) and a tetra-adamantane modified cobaloxime reduction catalyst (Co) that photo-reduces aqueous protons to H2. An original supramolecular approach was employed, using β-cyclodextrin functionalized gold nanoparticles (β-CD-AuNPs) to link the alkane chain of the PCA dye to the adamantane moieties of the cobaloxime catalyst (Co). This new architecture was investigated by photoelectrochemical measurements and via femtosecond-transient absorption spectroscopy. The results show that irradiation of the complete NiO‖PCA‖β-CD-AuNPs‖Co electrode leads to ultrafast hole injection into NiO (π = 3 ps) from the excited dye, followed by rapid reduction of the catalyst, and finally H2 evolution. [ABSTRACT FROM AUTHOR]

Published
2022
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21. Electronic and geometric structure effects on one-electron oxidation of first-row transition metals in the same ligand framework

Author

Boniolo, Manuel, Chernev, Petko, Cheah, Mun Hon, Heizmann, Philipp A., Huang, Ping, Shylin, Sergii I., Salhi-Benachenhou, Nessima, Hossain, Kamal, Gupta, Arvind Kumar, Messinger, Johannes, Thapper, Anders, Lundberg, Marcus, Boniolo, Manuel, Chernev, Petko, Cheah, Mun Hon, Heizmann, Philipp A., Huang, Ping, Shylin, Sergii I., Salhi-Benachenhou, Nessima, Hossain, Kamal, Gupta, Arvind Kumar, Messinger, Johannes, Thapper, Anders, and Lundberg, Marcus

Abstract

Developing new transition metal catalysts requires understanding of how both metal and ligand properties determine reactivity. Since metal complexes bearing ligands of the Py5 family (2,6-bis-[(2-pyridyl)methyl] pyridine) have been employed in many fields in the past 20 years, we set out here to understand their redox properties by studying a series of base metal ions (M = Mn, Fe, Co, and Ni) within the Py5OH (pyridine-2,6-diylbis[di-(pyridin-2-yl)methanol]) variant. Both reduced (M-II) and the one-electron oxidized (M-III) species were carefully characterized using a combination of X-ray crystallography, X-ray absorption spectroscopy, cyclic voltammetry, and density-functional theory calculations. The observed metal-ligand interactions and electrochemical properties do not always follow consistent trends along the periodic table. We demonstrate that this observation cannot be explained by only considering orbital and geometric relaxation, and that spin multiplicity changes needed to be included into the DFT calculations to reproduce and understand these trends. In addition, exchange reactions of the sixth ligand coordinated to the metal, were analysed. Finally, by including published data of the extensively characterised Py5OMe (pyridine-2,6-diylbis[di-(pyridin-2-yl)methoxymethane])complexes, the special characteristics of the less common Py5OH ligand were extracted. This comparison highlights the non-innocent effect of the distal OH functionalization on the geometry, and consequently on the electronic structure of the metal complexes. Together, this gives a complete analysis of metal and ligand degrees of freedom for these base metal complexes, while also providing general insights into how to control electrochemical processes of transition metal complexes.

Published
2021
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23. Functional characterization of monomeric photosystem II core preparations from Thermosynechococcus elongatus with or without the Psb27 protein

Author

Mamedov, Fikret, Nowaczyk, Marc M., Thapper, Anders, Rogner, Matthias, and Styring, Stenbjorn

Subjects
Photosystem II -- Research, Synechococcus -- Research, Electron paramagnetic resonance spectroscopy -- Usage, Biological sciences, Chemistry
Abstract

Two monomeric fractions of photosystem II (PS II) core particles from the thermophilic cyanobacterium Thermosynechococcus elongatus are investigated using flash-induced variable fluorescence kinetics and EPR spectroscopy. Many differences are observed in the function of redox components in [PS II Monomers/+Psb27] and [PS II monomers/-Psb27].

Published
2007

24. Understanding the Performance of NiO Photocathodes with Alkyl-Derivatized Cobalt Catalysts and a Push-Pull Dye

Author

Materna, Kelly L., Beiler, Anna M., Thapper, Anders, Ott, Sascha, Tian, Haining, Hammarström, Leif, Materna, Kelly L., Beiler, Anna M., Thapper, Anders, Ott, Sascha, Tian, Haining, and Hammarström, Leif

Abstract

Mesoporous NiO photocathodes containing the push-pull dye PB6 and alkyl-derivatized cobaloxime catalysts were prepared using surface amide couplings and analyzed for photocatalytic proton reduction catalysis. The length of the alkyl linker used to derivatize the cobalt catalysts was found to correlate to the photocurrent with the highest photocurrent observed using shorter alkyl linkers but the lowest one for samples without linker. The alkyl linkers were also helpful in slowing dye-NiO charge recombination. Photoelectrochemical measurements and femtosecond transient absorption spectroscopic measurements suggested electron transfer to the surfaceimmobilized catalysts occurred; however, H-2 evolution was not observed. Based on UV-vis, X-ray fluorescence spectroscopy (XRF), and X-ray photoelectron spectroscopy (XPS) measurements, the cobalt catalyst appeared to be limiting the photocathode performance mainly via cobalt demetallation from the oxime ligand. This study highlights the need for a deeper understanding of the effect of catalyst molecular design on photocathode performance.

Published
2020
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25. Spin transition in a ferrous chloride complex supported by a pentapyridine ligand

Author

Boniolo, Manuel, Shylin, Sergii I., Chernev, Petko, Cheah, Mun Hon, Heizmann, Philipp A., Huang, Ping, Salhi-Benachenhou, Nessima, Hossain, Kamal, Thapper, Anders, Lundberg, Marcus, Messinger, Johannes, Boniolo, Manuel, Shylin, Sergii I., Chernev, Petko, Cheah, Mun Hon, Heizmann, Philipp A., Huang, Ping, Salhi-Benachenhou, Nessima, Hossain, Kamal, Thapper, Anders, Lundberg, Marcus, and Messinger, Johannes

Abstract

Ferrous chloride complexes [(FeLxCl)-L-II] commonly attain a high-spin state independently of the supporting ligand(s) and temperature. Herein, we present the first report of a complete spin crossover with T-1/2 = 80 K in [Fe-II(Py5OH)Cl](+) (Py5OH = pyridine-2,6-diylbis[di(pyridin-2-yl)methanol]). Both spin forms of the complex are analyzed by X-ray spectroscopy and DFT calculations.

Published
2020
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26. Using Surface Amide Couplings to Assemble Photocathodes for Solar Fuel Production Applications

Author

Materna, Kelly L., Lalaoui, Noémie, Laureanti, Joseph A., Walsh, Aaron P., Pettersson-Rimgard, Belinda, Lomoth, Reiner, Thapper, Anders, Ott, Sascha, Shaw, Wendy J., Tian, Haining, Hammarström, Leif, Materna, Kelly L., Lalaoui, Noémie, Laureanti, Joseph A., Walsh, Aaron P., Pettersson-Rimgard, Belinda, Lomoth, Reiner, Thapper, Anders, Ott, Sascha, Shaw, Wendy J., Tian, Haining, and Hammarström, Leif

Abstract

A facile surface amide-coupling method was examined to attach dye and catalyst molecules to silatrane-decorated NiO electrodes. Using this method, electrodes with a push-pull dye were assembled and characterized by photoelectrochemistry and transient absorption spectroscopy. The dye-sensitized electrodes exhibited hole injection into NiO and good photoelectrochemical stability in water, highlighting the stability of the silatrane anchoring group and the amide linkage. The amide-coupling protocol was further applied to electrodes that contain a molecular proton reduction catalyst for use in photocathode architectures. Evidence for catalyst reduction was observed during photoelectrochemical measurements and via photocathodes.

Published
2020
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27. Electronic and geometric structure effects on one-electron oxidation of first-row transition metals in the same ligand framework

Author

Boniolo, Manuel, primary, Chernev, Petko, additional, Cheah, Mun Hon, additional, Heizmann, Philipp A., additional, Huang, Ping, additional, Shylin, Sergii I., additional, Salhi, Nessima, additional, Hossain, Md Kamal, additional, Gupta, Arvind K., additional, Messinger, Johannes, additional, Thapper, Anders, additional, and Lundberg, Marcus, additional

Published
2021
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29. A density functional study of oxygen atom transfer reactions between biological oxygen atom donors and molybdenum(IV) bis(dithiolene) complexes

Author

Thapper, Anders, Deeth, Robert J., and Nordlander, Ebbe

Subjects
Chemistry, Inorganic -- Research, Oxides -- Composition, Density functionals -- Usage, Chemical reactions -- Analysis, Coordination compounds -- Composition, Molybdenum compounds, Chemistry
Abstract

Research has been conducted on oxygen atom transfer reactions. The use of density functional theory calculations in investigating these reactions from the biological oxygen atom donors trimethylamine N-oxide and dimethyl sulfoxide to the molybdenum(IV) complexes is described.

Published
2002

33. The unperturbed oxo-sulfido functional group cis-Mo (super)VI OS related to that in the xanthine oxidase family of molybdoenzymes: synthesis, structural characterization, and reactivity aspects

Author

Thapper, Anders, Donahue, James P., Musgrave, Kristin B., Willer, Michael W., Nordlander, Ebbe, Hedman, Britt, Hodgson, Keith O., and Holm, R.H.

Subjects
Chemistry, Inorganic -- Research, Oxidases -- Research, Xanthine -- Research, Sulfides -- Research, Chemistry
Abstract

Research has been conducted on the oxo-sulfido functional group, essential to the activity of the xanthine oxidase family of the enzymes. A route to the molecules that contain this group is described.

Published
1999

34. Computer modeling of the oxygen-atom transfer reaction between hydrogen sulfite and a molybdenum(VI) dioxo complex

Author

Thapper, Anders, Deeth, Robert J., and Nordlander, Ebbe

Subjects
Sulfites -- Research, Molybdenum compounds -- Research, Coordination compounds -- Research, Chemistry
Abstract

The oxidation of HSO3- by [MoVIO2(mnt)2]2- (mnt2- = 1,2-dicyanoethylenedithiolate) was examined through density functional techniques and extended Huckel computations. Findings showed that the favored pathway requires the attack of the sulphur atom of HSO3- on one of the oxo groups of the molybdenum dioxo unit with concomitant hydrogen atom transfer to the other oxo group.

Published
1999

35. Structural features of molecular electrocatalysts in multi-electron redox processes for renewable energy : recent advances

Author

Das, Biswanath, Thapper, Anders, Ott, Sascha, Colbran, Stephen B., Das, Biswanath, Thapper, Anders, Ott, Sascha, and Colbran, Stephen B.

Abstract

Understanding the structural features of molecular electrocatalysts for carbon dioxide reduction and water oxidation is essential for manufacturing next generation catalysts for renewable energy. We will discuss the crucial structural motifs of those catalysts that have shown novel characteristics in recent years in terms of electrocatalytic efficacy (high TON, TOF and low overpotential), product selectivity and mechanisms. Both inorganic and organic homogeneous catalysts are scrutinized in this review. We will also highlight electrocatalysts with dual activity (i.e. they are able to catalyze both water oxidation and CO2 reduction) as an interesting prospect from the point of view of a single catalyst electrolyzer: a possible design for future easy-to-manufacture effective electrolyzers. This discussion will enrich the overall knowledge on the electrocatalyst design, an important step towards the development of efficient catalysts with cutting edge designs for a renewable energy future and practical applications.

Published
2019
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36. Synthesis and properties of a heterobimetallic iron-manganese complex and its comparison with homobimetallic analogues

Author

Bedin, Michele, Agarwala, Hemlata, Marx, Jennifer, Schünemann, Volker, Ott, Sascha, Thapper, Anders, Bedin, Michele, Agarwala, Hemlata, Marx, Jennifer, Schünemann, Volker, Ott, Sascha, and Thapper, Anders

Abstract

Heterobimetallic cofactors containing one manganese and one iron ion have recently been found within the di-metal carboxylate protein family. Herein we report the synthesis and characterization of three binuclear metal complexes with Fe-Fe, Mn-Mn, and Fe-Mn metal composition. All three complexes use the same ligand framework, the BPMP ligand (HBPMP=2,6-bis[(bis (-2-pyridylmethyl)amine) methyl]-4-methylphenol)) with two additional acetate ligands bridging the two metals. In terms of stability towards metal exchange, the Fe-Mn is more stable than the Mn-Mn complex but less stable than the Fe-Fe complex. Cyclic voltammetry shows that the Fe-Mn complex behaves markedly different than the homobimetallic complexes. The Fe-Mn complex also shows higher reactivity with O-2 than both the Fe-Fe and the Mn-Mn counterparts.

Published
2019
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37. A new tri-nuclear Cu-carbonate cluster utilizing CO2 as a C1-building block - reactive intermediates, a probable mechanism, and EPR and magnetic studies

Author

Das, Biswanath, Bhadbhade, Mohan, Thapper, Anders, Ling, Chris D., Colbran, Stephen B., Das, Biswanath, Bhadbhade, Mohan, Thapper, Anders, Ling, Chris D., and Colbran, Stephen B.

Abstract

This work demonstrates that simple copper-bipyridine compounds and atmospheric CO2 react to produce useful/complex materials under appropriate conditions. Starting from a distorted square planar copper(II) complex, [((tbu)bpy)CuCl2]((tbu)bpy = 4-tert-butyl-2-(4-tert-butylpyridin-2-yl)pyridine), an air-sensitive, copper(I) complex,[((tbu)bpy)(2)Cu-I][BF4], which exhibits a distorted tetrahedral geometry, was synthesized and characterized. Reactions of [((tbu)bpy)(2)Cu-I][BF4] with CO2 inside a sealed tube and with air were carried out over a week and three weeks, respectively. A new tricopper(II)-carbonato cluster, [{((tbu)bpy)(2)Cu}(3)(mu-CO3)][PF6](4), was isolated with three distorted octahedral copper(II) centres bound by a carbonate-bridge formed from atmospheric CO2. NMR and UV-Vis spectroscopic analyses coupled with previous reports point to a multi-step process in the formation of a trinuclear Cu-II-carbonato cluster that includes the probable involvement of mu-hydroxo-bridged dicopper(II) type intermediates.

Published
2019
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38. Expanding the Landscape of Phosphorous‐Based Open Shell Species: Stable Mono‐, Di‐, and Trianionic Radicals Based on a Contorted Triphosphaalkene.

Author

Ansari, Mohd Asif, Deka, Rajesh, Thapper, Anders, and Orthaber, Andreas

Subjects
*ELECTRON paramagnetic resonance, *MOLECULAR structure, *ELECTRON configuration, *POLYCYCLIC aromatic hydrocarbons, *RADICAL anions
Abstract

The stepwise reduction of the highly contorted truxene‐based triphosphaalkene 1 using KC8 led to the isolation of mono‐, di‐, and tri‐anionic species. The solid‐state molecular structures of mono‐ and diradical anionic species were elucidated by single crystal X‐ray diffractions, revealing elongated P−C bonds and a pronounced “indene” aromatization compared to the parent system. All three radical species displayed distinct Electron Paramagnetic Resonance (EPR) spectra, providing compelling evidence for the open‐shell electronic configuration of both the diradical and triradical species—an observation unprecedented in any previously reported phosphorous‐based anionic polyradicals. Mulliken spin density calculations revealed a dominant localization of radical spin on a single phosphorous atom in the monoanion. In the dianion, spin localization is observed on two phosphorous atoms (~34 % each), with a minor contribution from the third phosphorous (0.13 %), while the trianion demonstrates a uniform distribution of spin density (~30 %) across each phosphorous atom. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Metal Reconstitution of Iron Rubredoxin with Copper

Author

Pais, Ricardo Jorge, Pauleta, Sofia, Thapper, Anders, G.Wedd, Anthony, and Moura, José J.G.

Abstract

Here, we report the preparation and characterization of a Cu-substituted Desulfovibrio vulgaris Hildenborough rubredoxin derivate, as a model for copper transport and to study the reactivity of Cu(I) and Cu(II) towards four sulfur tetrahedral coordination.

Published
2018
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45. Artificial Photosynthesis for Solar Fuels – an Evolving Research Field within AMPEA, a Joint Programme of the European Energy Research Alliance

Author

Thapper, Anders, primary, Styring, Stenbjörn, additional, Saracco, Guido, additional, Rutherford, A. William, additional, Robert, Bruno, additional, Magnuson, Ann, additional, Lubitz, Wolfgang, additional, Llobet, Antoni, additional, Kurz, Philipp, additional, Holzwarth, Alfred, additional, Fiechter, Sebastian, additional, Groot, Huub De, additional, Campagna, Sebastiano, additional, Braun, Artur, additional, Bercegol, Hervé, additional, and Artero, Vincent, additional

Published
2018
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46. Homogeneous Water Oxidation by Half-Sandwich Iridium(III) N-Heterocyclic Carbene Complexes with Pendant Hydroxy and Amino Groups

Author

Mahanti, Bani, González Miera, Greco, Martínez-Castro, Elisa, Bedin, Michele, Martín-Matute, Belen, Ott, Sascha, Thapper, Anders, Mahanti, Bani, González Miera, Greco, Martínez-Castro, Elisa, Bedin, Michele, Martín-Matute, Belen, Ott, Sascha, and Thapper, Anders

Abstract

Herein, we report three IrIIICp* complexes with hydroxy- or amino-functionalized N-heterocyclic carbene (NHC) ligands that catalyze efficient water oxidation induced by addition of ceric ammonium nitrate (CAN). The pendant hydroxy or amino groups are very important for activity, and the complexes with heteroatom-functionalized NHC ligands show up to 15 times higher rates of oxygen evolution in CAN-induced water oxidation than a reference IrIIICp* complex without heteroatom functionalization. The formation of molecular high-valent Ir intermediates that are presumably involved in the rate-determining step for water oxidation is established by UV/Vis spectroscopy and ESI-MS under turnover conditions. The hydroxy groups on the NHC ligands, as well as chloride ligands on the iridium center are proposed to structurally stabilize the high-valent species, and thereby improve the catalytic activity. The IrIII complex with a hydroxy-functionalized NHC shows the highest catalytic activity with a TON of 2500 obtained in 3 h and with ~90 % yield relative to the amount of oxidant used., Export Date: 11 December 2017; Article

Published
2017
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49. Artificial Photosynthesis for Solar Fuels - an Evolving Research Field within AMPEA, a Joint Programme of the European Energy Research Alliance

Author

Thapper, Anders, Styring, Stenbjörn, Saracco, Guido, Rutherford, A. William, Robert, Bruno, Magnuson, Ann, Lubitz, Wolfgang, Llobet, Antoni, Kurz, Philipp, Holzwarth, Alfred, Fiechter, Sebastian, de Groot, Huub, Campagna, Sebastiano, Braun, Artur, Bercegol, Hervé, Artero, Vincent, Thapper, Anders, Styring, Stenbjörn, Saracco, Guido, Rutherford, A. William, Robert, Bruno, Magnuson, Ann, Lubitz, Wolfgang, Llobet, Antoni, Kurz, Philipp, Holzwarth, Alfred, Fiechter, Sebastian, de Groot, Huub, Campagna, Sebastiano, Braun, Artur, Bercegol, Hervé, and Artero, Vincent

Abstract

On the path to an energy transition away from fossil fuels to sustainable sources, the European Union is for the moment keeping pace with the objectives of the Strategic Energy Technology-Plan. For this trend to continue after 2020, scientific breakthroughs must be achieved. One main objective is to produce solar fuels from solar energy and water in direct processes to accomplish the efficient storage of solar energy in a chemical form. This is a grand scientific challenge. One important approach to achieve this goal is Artificial Photosynthesis. The European Energy Research Alliance has launched the Joint Programme "Advanced Materials & Processes for Energy Applications” (AMPEA) to foster the role of basic science in Future Emerging Technologies. European researchers in artificial photosynthesis recently met at an AMPEA organized workshop to define common research strategies and milestones for the future. Through this work artificial photosynthesis became the first energy research sub-field to be organised into what is designated "an Application” within AMPEA. The ambition is to drive and accelerate solar fuels research into a powerful European field - in a shorter time and with a broader scope than possible for individual or national initiatives. Within AMPEA the Application Artificial Photosynthesis is inclusive and intended to bring together all European scientists in relevant fields. The goal is to set up a thorough and systematic programme of directed research, which by 2020 will have advanced to a point where commercially viable artificial photosynthetic devices will be under development in partnership with industry

Published
2017

50. Kinetic, structural, and EPR studies reveal that aldehyde oxidoreductase from Desulfovibrio gigas does not need a sulfido ligand for catalysis and give evidence for a direct Mo-C interaction in a biological system

Author

Santos-Silva, Teresa, Ferroni, Felix, Thapper, Anders, Marangon, Jacopo, Gonzalez, Pablo J., Rizzi, Alberto C., Moura, Isabel, Moura, Jose J.G., Romao, Maria J., and Brondino, Carlos D.

Subjects
Aldehydes -- Chemical properties, Crystallography -- Usage, Electron paramagnetic resonance -- Evaluation, Ethylene glycol -- Chemical properties, Oxidoreductases -- Chemical properties, Oxidoreductases -- Structure, Oxidoreductases -- Thermal properties, Sulfur bacteria -- Physiological aspects, Enzyme inhibitors -- Structure, Enzyme inhibitors -- Chemical properties, Molybdenum -- Chemical properties, Chemistry
Abstract

The steady-state kinetic studies of aldehyde oxidoreductase from Desulfovibrio gigas (DgAOR) with the inhibitors cyanide, ethylene glycol, glycerol, and arsenite, together with crystallographic and EPR studies of the enzyme after reaction with the two alcohols are reported. Addition of ethylene glycol and glycerol to dithionite-reduced DgAOR which yields rhombic Mo(V) EPR signals, suggested that the nearly square pyramidal coordination of the active enzyme is distorted upon alcohol inhibition.

Published
2009

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