TY - JOUR A1 - Kleinpeter, Erich A1 - Koch, Andreas T1 - Cyclazines-structure and aromaticity or antiaromaticity on the magnetic criterion JF - European journal of organic chemistry N2 - Structure and spatial magnetic properties, through-space NMR shieldings (TSNMRSs), of all ten cycl[2.2.2]azine to cycl[4.4.4]azine, hetero-analogues and the corresponding hydrocarbons have been calculated at the B3LYP/6-311G(d,p) theory level using the GIAO perturbation method and employing the nucleus independent chemical shift (NICS) concept. The TSNMRS values (actually, the ring current effect as measurable in H-1 NMR spectroscopy) are visualized as iso-chemical-shielding surfaces (ICSS) of various size and direction, and employed to readily qualify and quantify the degree of (anti)aromaticity. Results are confirmed by NMR [delta(H-1)/ppm, delta(N-15)/ppm] and geometry (planar, twisted, bow-shaped) data. The cyclazines N[2.2.2](-) up to N[2.4.4](-) are planar or at most slightly bowl-shaped and, due to coherent peripheral ring currents (except in N[2.3.3](-), N[2.3.4], N[3.3.4](+) and N[2.4.4](+)), develop aromaticity or anti-aromaticity of the whole molecules dependent on the number of peripheral conjugated pi electrons. The cyclazines N[2.3.3](-), N[2.3.4], N[3.3.4](+) and N[2.4.4](+) develop two ring currents of different direction within the same molecule, in which the dominating ring current proves to be paratropic (in N[3.3.4](+) diatropic) including the nodal N p(z) lone pair into the conjugation. The residual cyclazines N[3.4.4], N[4.4.4](-) and N[4.4.4](+) are heavily twisted and, therefore, are not developing peripheral or diverse ring currents. The TSNMRS information about cyclazines and the parent tricyclic annulene analogues is congruent subject to structure and number of peripheral or internal conjugated pi electrons, the corresponding (anti)aromaticity is in unequivocal accordance with Huckel's rule. KW - Aromaticity KW - Cyclazines KW - NMR spectroscopy KW - Peripheral ring current Y1 - 2022 U6 - https://doi.org/10.1002/ejoc.202101362 SN - 1434-193X SN - 1099-0690 VL - 2022 IS - 8 PB - Wiley-VCH CY - Weinheim ER - TY - THES A1 - Büchner, Robby T1 - Understanding local electronic structure variations in bio-inspired aromatic molecules T1 - Erkenntnisse über lokale Variationen der elektronischen Struktur in biologisch inspirierten aromatischen Molekülen N2 - In this thesis, the dependencies of charge localization and itinerance in two classes of aromatic molecules are accessed: pyridones and porphyrins. The focus lies on the effects of isomerism, complexation, solvation, and optical excitation, which are concomitant with different crucial biological applications of specific members of these groups of compounds. Several porphyrins play key roles in the metabolism of plants and animals. The nucleobases, which store the genetic information in the DNA and RNA are pyridone derivatives. Additionally, a number of vitamins are based on these two groups of substances. This thesis aims to answer the question of how the electronic structure of these classes of molecules is modified, enabling the versatile natural functionality. The resulting insights into the effect of constitutional and external factors are expected to facilitate the design of new processes for medicine, light-harvesting, catalysis, and environmental remediation. The common denominator of pyridones and porphyrins is their aromatic character. As aromaticity was an early-on topic in chemical physics, the overview of relevant theoretical models in this work also mirrors the development of this scientific field in the 20th century. The spectroscopic investigation of these compounds has long been centered on their global, optical transition between frontier orbitals. The utilization and advancement of X-ray spectroscopic methods characterizing the local electronic structure of molecular samples form the core of this thesis. The element selectivity of the near-edge X-ray absorption fine structure (NEXAFS) is employed to probe the unoccupied density of states at the nitrogen site, which is key for the chemical reactivity of pyridones and porphyrins. The results contribute to the growing database of NEXAFS features and their interpretation, e.g., by advancing the debate on the porphyrin N K-edge through systematic experimental and theoretical arguments. Further, a state-of-the-art laser pump – NEXAFS probe scheme is used to characterize the relaxation pathway of a photoexcited porphyrin on the atomic level. Resonant inelastic X-ray scattering (RIXS) provides complementary results by accessing the highest occupied valence levels including symmetry information. It is shown that RIXS is an effective experimental tool to gain detailed information on charge densities of individual species in tautomeric mixtures. Additionally, the hRIXS and METRIXS high-resolution RIXS spectrometers, which have been in part commissioned in the course of this thesis, will gain access to the ultra-fast and thermal chemistry of pyridones, porphyrins, and many other compounds. With respect to both classes of bio-inspired aromatic molecules, this thesis establishes that even though pyridones and porphyrins differ largely by their optical absorption bands and hydrogen bonding abilities, they all share a global stabilization of local constitutional changes and relevant external perturbation. It is because of this wide-ranging response that pyridones and porphyrins can be applied in a manifold of biological and technical processes. N2 - In dieser Arbeit werden die Abhängigkeiten von Ladungslokalisierung und -wanderung in zwei Klassen von aromatischen Molekülen untersucht: Pyridone und Porphyrine. Der Schwerpunkt liegt auf den Auswirkungen von Isomerie, Komplexierung, Lösung (in Wasser) und optischer Anregung, die mit verschiedenen entscheidenden biologischen Anwendungen spezifischer Mitglieder dieser Gruppen von Verbindungen einhergehen. Mehrere Porphyrine spielen eine Schlüsselrolle im Stoffwechsel von Pflanzen und Tieren. Die Nukleobasen, die die genetische Information in der DNA und RNA speichern, sind Pyridonderivate. Auch mehrere Vitamine basieren auf diesen beiden Stoffgruppen. Ziel dieser Arbeit ist es, die Frage zu beantworten, wie die elektronische Struktur dieser Molekülklassen modifiziert wird, sodass die vielfältigen Funktionen in der Natur ermöglicht werden. Die sich daraus ergebenden Erkenntnisse über die Wirkung konstitutioneller und externer Einflussfaktoren ermöglichen die Entwicklung neuer Verfahren in der Medizin, Katalyse, Solar- und Umwelttechnik. Die Gemeinsamkeit von Pyridonen und Porphyrinen ist ihr aromatischer Charakter. Da Aromatizität von Beginn der chemischen Physik an thematisiert wurde, spiegelt der Überblick relevanter theoretischer Modelle in dieser Arbeit auch die Entwicklung dieses Wissenschaftsgebiets im 20. Jahrhundert wieder. Die spektroskopische Untersuchung dieser Verbindungen konzentrierte sich lange Zeit auf die globalen, optischen Übergänge zwischen den Grenzorbitalen. Die Anwendung und Weiterentwicklung röntgenspektroskopischer Methoden zur Charakterisierung der lokalen elektronischen Struktur von molekularen Proben bilden den Kern dieser Arbeit. Die Elementselektivität der Röntgen-Nahkanten-Absorptions-Spektroskopie (NEXAFS) wird genutzt, um die unbesetzte Zustandsdichte an den Stickstoffatomen zu untersuchen, welche für die chemische Reaktivität von Pyridonen und Porphyrinen verantwortlich sind. Die Ergebnisse tragen zum wachsenden Bestand von NEXAFS-Spektren und ihrer Interpretation bei, z.B. indem sie die Debatte über die N K-Kante von Porphyrinen durch systematische experimentelle und theoretische Argumente voranbringen. Zudem wird ein modernes Laser-Pump – NEXAFS-Probe System verwendet, um den Relaxationsprozess eines photoangeregten Porphyrins auf atomarer Ebene zu charakterisieren. Die resonante inelastische Röntgenstreuung (RIXS) liefert komplementäre Ergebnisse, indem sie die höchsten besetzten Valenzniveaus einschließlich Symmetrieinformationen zugänglich macht. Es wird gezeigt, dass RIXS eine effektive experimentelle Methode ist, um detaillierte Informationen über die Ladungsdichten einzelner Tautomere in einem Gemisch zu erhalten. Zudem werden es die hochauflösenden RIXS-Spektrometer hRIXS und METRIXS, die im Rahmen dieser Arbeit mit in Betrieb genommen wurden, erlauben, Informationen zur ultraschnellen und thermischen Chemie von Pyridonen, Porphyrinen und vielen anderen Verbindungen zu gewinnen. Im Hinblick auf beide Klassen biologisch inspirierter, aromatischer Moleküle wird in dieser Arbeit gezeigt, dass sich Pyridone und Porphyrine zwar durch ihre optischen Absorptionsbanden und ihre Fähigkeit zu Wasserstoffbrückenbindungen unterscheiden, aber alle Verbindungen eine globale Stabilisierung lokaler Konstitutionsänderungen und relevanter äußerer Einflüsse aufweisen. Aufgrund dieser weitreichenden Anpassung können Pyridone und Porphyrine in einer Vielzahl von biologischen und technischen Prozessen eingesetzt werden. KW - NEXAFS KW - RIXS KW - X-ray spectroscopy KW - Aromaticity KW - Porphyrins KW - Pyridones KW - Röntgenspektroskopie KW - Aromatizität KW - Porphyrine KW - Pyridone KW - NEXAFS KW - RIXS Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-553192 ER - TY - JOUR A1 - Kleinpeter, Erich A1 - Koch, Andreas T1 - Paramagnetic ring current effects in anti-aromatic structures subject to substitution/annelation quantified by spatial magnetic properties (TSNMRS) JF - Tetrahedron N2 - The spatial magnetic properties, through-space NMR shieldings (TSNMRS), of the typically anti-aromatic cyclopentadienyl cation, cyclobutadiene, pentalene, s-indacene and of substituted/annelated analogues of the latter structures have been calculated using the CIAO perturbation method employing the nucleus independent chemical shift (NICS) concept and visualized as iso-chemical-shielding surfaces (ICSS) of various size and direction. The TSNMRS values were employed to visualize and quantify the dia(para) magnetic ring current effects in the studied compounds. The interplay of dia(para)magnetic ring current effects due to substitution/annelation caused by heavy exo-cyclic n,pi-electron delocalization can be qualified. KW - Aromaticity KW - Anti-aromaticity KW - Through-space NMR shieldings (TSNMRS) KW - GIAO KW - NICS KW - Annelation effect Y1 - 2018 U6 - https://doi.org/10.1016/j.tet.2017.12.020 SN - 0040-4020 VL - 74 IS - 7 SP - 700 EP - 710 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Kleinpeter, Erich A1 - Koch, Andreas T1 - Identification of mesomeric substructures by through-space NMR shieldings (TSNMRS). Trimethine cyanine/merocyanine-like or aromatic pi-electron delocalization? JF - Tetrahedron N2 - The spatial magnetic properties, through-space NMR shieldings (TSNMRS), of amino-substituted heteraromatic six-membered ring systems such as pyrylium/thiopyrylium analogues have been calculated using the GIAO perturbation method employing the nucleus independent chemical shift (NICS) concept and visualized as iso-chemical-shielding surfaces (ICSS) of various size and direction. The TSNMRS values were employed to quantify and visualize the existing aromaticity of the studied compounds. Due to strong conjugation of six-membered ring pi-electrons and lone pairs of the exo-cyclic amino substituents (restricted rotation about partial C,N double bonds) the interplay of still aromatic and already dominating trimethine cyanine/merocyanine-like substructures can be estimated. (C) 2017 Elsevier Ltd. All rights reserved. KW - Through-space NMR shieldings (TSNMRS) KW - GIAO KW - NICS KW - Benzenoid structures KW - Cyanine/merocyanine-like structures KW - Aromaticity Y1 - 2017 U6 - https://doi.org/10.1016/j.tet.2017.05.062 SN - 0040-4020 VL - 73 SP - 4265 EP - 4274 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Zborowski, Krzysztof Kazimierz A1 - Koch, Andreas A1 - Kleinpeter, Erich A1 - Proniewicz, Leonard Marian T1 - Searching for aromatic celate rings. Oxygen versus Thio and Seleno Ligands JF - Zeitschrift für physikalische Chemie : international journal of research in physical chemistry and chemical physics N2 - As a part of searching for fully aromatic chelate compounds, copper complexes of malondialdehyde as well as its sulfur and selenium derivatives were investigated using the DFT quantum chemical methods. Chelate complexes of both Cu(I) and Cu(II) ions wereconsidered. Aromaticity of the metal complexes studied were analyzed using NICS(0), NICS(1), PDI, I-ring, MCI, ICMCI and I-B aromaticity indices, and by TSNMRS visualizations of the spatial magnetic properties. It seems that partial aromaticityof studied chelates increases when oxygen atoms in malondialdehyde are replaced by sulfur and selenium. KW - Aromaticity KW - Chelatoaromaticity KW - Copper Metal Complexes KW - Quantum Chemical Calculations Y1 - 2014 U6 - https://doi.org/10.1515/zpch-2014-0528 SN - 0942-9352 VL - 228 IS - 8 SP - 869 EP - 878 PB - De Gruyter CY - Berlin ER - TY - JOUR A1 - Kleinpeter, Erich ED - Webb, GA T1 - Quantification and visualization of the anisotropy effect in NMR spectroscopy by through-space NMR shieldings JF - Annual reports on NMR spectroscopy JF - Annual Reports on NMR Spectroscopy N2 - The anisotropy effect of functional groups (respectively the ring-current effect of aryl moieties) in H-1 NMR spectra has been computed as spatial NICS (through-space NMR chemical shieldings) and visualized by iso-chemical-shielding surfaces of various size and low(high) field direction. Hereby, the anisotropy/ring-current effect, which proves to be the molecular response property of spatial NICS, can be quantified and can be readily employed for assignment purposes in proton NMR spectroscopy-characteristic examples of stereochemistry and position assignments (the latter in supramolecular structures) will be given. In addition, anisotropy/ring-current effects in H-1 NMR spectra can be quantitatively separated from the second dominant structural effect in proton NMR spectra, the steric compression effect, pointing into the reverse direction, and the ring-current effect, by far the strongest anisotropy effect, can be impressively employed to visualize and quantify (anti) aromaticity and to clear up standing physical-organic phenomena as are pseudo-, spherical, captodative, homo-and chelatoaromaticity, to characterize the pi-electronic structure of, for example, fulvenes, fulvalenes, annulenes or fullerenes and to differentiate aromatic and quinonoid structures. KW - Through-space NMR shielding (TSNMRS) KW - Anisotropy effect KW - Stereochemistry KW - Ring-current effect KW - Aromatic or quinonoid KW - Aromaticity KW - Chelatoaromaticity KW - Binding pocket position KW - Supramolecular compounds KW - Diastereomers assignment Y1 - 2014 SN - 978-0-12-800184-4 U6 - https://doi.org/10.1016/B978-0-12-800184-4.00003-5 SN - 0066-4103 VL - 82 SP - 115 EP - 166 PB - Elsevier CY - San Diego ER - TY - JOUR A1 - Kleinpeter, Erich A1 - Werner, Peter A1 - Koch, Andreas T1 - Push-pull allenes-conjugation, (anti)aromaticity and quantification of the push-pull character JF - Tetrahedron N2 - Structures, H-1/C-13 chemical shifts, and pi electron distribution/conjugation of an experimentally available and theoretically completed set of push-pull allenes Acc(2)C=C=CDon(2) (Acc=F, CHO, CF3, C N; Don=t-Bu, OMe, OEt, SMe, SEt, NCH2R) have been computed at the OFT level of theory. Both orthogonal linear and orthogonal bent structures have been obtained. In the latter case the push-pull character could be quantified by the quotient method. The C-13 chemical shift of the central allene carbon atom C-2 and chemical shift differences Delta delta(C-1, C-2) and Delta delta(C-2, C-3) of allene carbon atoms proved to be a quantitative alternative. TSNMRS of ring-closed push-pull allenes have been computed in addition and were employed to identify polar, carbene-like and carbone-like canonical structures of these molecules. KW - Push-pull allenes KW - Push-pull character KW - C-13 NMR spectroscopy KW - Quotient method KW - TSNMRS KW - ICSS KW - Aromaticity Y1 - 2013 U6 - https://doi.org/10.1016/j.tet.2013.01.027 SN - 0040-4020 VL - 69 IS - 11 SP - 2436 EP - 2445 PB - Elsevier CY - Oxford ER -