Search

Your search keyword '"Alexander Hepp"' showing total 246 results
Start Over Author "Alexander Hepp"
246 results on '"Alexander Hepp"'

1. On the thermodynamics of aggregation toward phosphorescent metallomesogens: From electronic tuning to supramolecular design

Author

Matias E. Gutierrez Suburu, Meik Blanke, Leon Geerkens, Alexander Hepp, Iván Maisuls, Jutta Kösters, Thorben Neumann, Jens Voskuhl, Michael Giese, and Cristian A. Strassert

Subjects
aggregation, metallomesogens, organometallic synthesis, phosphorescence, photophysics, supramolecular chemistry, Chemistry, QD1-999, Biology (General), QH301-705.5
Abstract

Abstract Two series with three Pt(II) complexes each (PtLPh‐n, PtLFpy‐n) bearing asymmetric tetradentate ligands as dianionic luminophores with variable alkyl chain lengths were synthesized. Hence, each ligand series is distinguished by one of its cyclometallating rings (phenyl vs. 2,6‐difluoropyrid‐3‐yl). Steady‐state and time‐resolved photoluminescence spectroscopic studies in diluted solutions at room temperature and in glassy matrices at 77 K show that the emissive state is mainly centered on the invariantly electron‐rich cyclometalated side while the second ring regulates the admixture of ligand‐centered and metal‐to‐ligand charge‐transfer character. Hence, the radiative rates can be controlled, as indicated by quantum‐mechanical calculations, which also explain the temperature‐dependent trend in the phosphorescence rate constants. Studies in condensed phases (single‐crystal X‐ray diffractometry, polarized optical microscopy, differential scanning calorimetry, steady‐state and time‐resolved photoluminescence micro(spectro)scopy) showed the development of a smectic A mesophase for the fluorinated species bearing the two longest alkyl chains. Nuclear magnetic resonance‐based studies on the thermodynamics of aggregation in solution confirm the marked enthalpic stabilization of aggregates mediated by the polar 2,6‐difluoropyrid‐3‐yl moiety (and to a lesser extent by dispersive forces between the alkyl chains). On the other hand, the negative entropy of aggregation is dominated by the restriction of degrees of freedom involving the peripheral alkyl moieties upon stacking, which becomes increasingly relevant for longer chains. All these factors control Pt···Pt coupling, a crucial interaction for the design of photofunctional mesogens based on Pt(II) complexes.

Published
2024
Full Text
View/download PDF

3. One Dianionic Luminophore with Three Coordination Modes Binding Four Different Metals: Toward Unexpectedly Phosphorescent Transition Metal Complexes

Author

Thomas M. Kirse, Iván Maisuls, Leander Spierling, Alexander Hepp, Jutta Kösters, and Cristian A. Strassert

Subjects
phosphorescence, photophysics, spectroscopy, synthesis, transition metal complexes, Science
Abstract

Abstract This work reports on a battery of coordination compounds featuring a versatile dianionic luminophore adopting three different coordination modes (mono, bi, and tridentate) while chelating Pd(II), Pt(II), Au(III), and Hg(II) centers. An in‐depth structural characterization of the ligand precursor (H2L) and six transition metal complexes ([HLPdCNtBu], [LPtCl], [LPtCNtBu], [LPtCNPhen], [HLHgCl], and [LAuCl]) is presented. The influence of the cations and coordination modes of the luminophore and co‐ligands on the photophysical properties (including photoluminescence quantum yields (ΦL), excited state lifetimes (τ), and average (non‐)radiative rate constants) are evaluated at various temperatures in different phases. Five complexes show interesting photophysical properties at room temperature (RT) in solution. Embedment in frozen glassy matrices at 77 K significantly boosts their luminescence by suppressing radiationless deactivation paths. Thus, the Pt(II)‐based compounds provide the highest efficiencies, with slight variations upon exchange of the ancillary ligand. In the case of [HLPdCNtBu], both ΦL and τ increase over 30‐fold as compared to RT. Furthermore, the Hg(II) complex achieves, for the first time in its class, a ΦL exceeding 60% and millisecond‐range lifetimes. This demonstrates that a judicious ligand design can pave the way toward versatile coordination compounds with tunable excited state properties.

Published
2024
Full Text
View/download PDF

4. Superparamagnetic Nanoparticles with Phosphorescent Complexes as Hybrid Contrast Agents: Integration of MRI and PLIM

Author

Maria Belen Rivas Aiello, Thomas M. Kirse, Gabriel C. Lavorato, Bastian Maus, Iván Maisuls, Shivadharshini Kuberasivakumaran, Stefan Ostendorp, Alexander Hepp, Michael Holtkamp, Elin L. Winkler, Uwe Karst, Gerhard Wilde, Cornelius Faber, Carolina Vericat, and Cristian A. Strassert

Subjects
magnetic nanohybrids, magnetic resonance imaging (MRI), nanoparticles, photoluminescence lifetime imaging micro(spectro)scopy (PLIM), phosphorescent Pt(II) complexes, time-resolved microscopy, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Two different hybrid nanosystems are prepared by loading highly crystalline, monodisperse magnetite nanocubes (MNCs) with phosphorescent Pt(II) complexes (PtCxs). One involves the encapsulation of the hydrophobic PtCx1 within an amphiphilic comb polymer (MNC@poly(maleic anhydride‐alt‐1‐octadecene) [PMAO]–PtCx1), whereas the other involves the direct binding of the hydrophilic PtCx2 to the surface of the MNC mediated by a ligand‐exchange procedure (MNC@OH–PtCx2). Both systems are evaluated as potential candidates for multimodal imaging in magnetic resonance imaging (MRI) and photoluminescence lifetime imaging micro(spectro)scopy (PLIM). PLIM measurements on agarose phantoms demonstrate significantly longer excited‐state lifetimes compared to the short‐lived autofluorescence of biological background. Additionally, both nanosystems perform as effective MRI contrast agents (CAs): the r2* values are 3–4 times higher than for the commercial CA ferucarbotran. MNC@PMAO–PtCx1 particles also cause significant increases in r2. While the ligand exchange procedure efficiently anchors PtCxs to the MNC surface, the polymeric encapsulation ensures higher colloidal stability, contributing to differences in PLIM and MRI outcomes. In these results, the successful integration of two complementary noninvasive imaging modalities within a single nanosystem is confirmed, serving as the impetus for further investigation of such systems as advanced multimodal–multiscale imaging agents with dual orthogonal readouts.

Published
2024
Full Text
View/download PDF

5. Modification of the Bridging Unit in Luminescent Pt(II) Complexes Bearing C^N*N and C^N*N^C Ligands

Author

Stefan Buss, María Victoria Cappellari, Alexander Hepp, Jutta Kösters, and Cristian A. Strassert

Subjects
soluble triplet emitters, synthesis of Pt(II) complexes, (time-resolved) photoluminescence spectroscopy, Chemistry, QD1-999
Abstract

In this work, we explored the synthesis and characterization of Pt(II) complexes bearing different tri- and tetradentate luminophores acting as C^N*N- and C^N*N^C-chelators. Thus, we investigated diverse substitution patterns in order to improve their processability and assessed the effects of structural variations on their excited state properties. Hence, a detailed analysis of the different synthetic pathways is presented; the photophysical properties were studied by using steady-state and time-resolved photoluminescence spectroscopy. We determined the absorption and emission spectra, the photoluminescence efficiencies, and the excited state lifetimes of the complexes in fluid solutions at room temperature and frozen glassy matrices at 77 K. Finally, a structure–property relationship was established, showing that the decoration of the bridging unit on the tridentate luminophores only marginally affects the excited state properties, whereas the double cyclometallation related to the tetradentate chelator prolongs the excited state lifetime and increases the photoluminescence quantum yield.

Published
2023
Full Text
View/download PDF

6. Dual Emissive Zn(II) Naphthalocyanines: Synthesis, Structural and Photophysical Characterization with Theory-Supported Insights towards Soluble Coordination Compounds with Visible and Near-Infrared Emission

Author

Sidharth Thulaseedharan Nair Sailaja, Iván Maisuls, Alexander Hepp, Dana Brünink, Nikos L. Doltsinis, Andreas Faust, Sven Hermann, and Cristian A. Strassert

Subjects
dual fluorescence, multiscale–multimodal imaging, photoacoustic/optoacoustic spectroscopy, steady-state and time-resolved multiphoton micro(spectro)scopy (FLIM), (TD-)DFT, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Metal phthalocyaninates and their higher homologues are recognized as deep-red luminophores emitting from their lowest excited singlet state. Herein, we report on the design, synthesis, and in-depth characterization of a new class of dual-emissive (visible and NIR) metal naphthalocyaninates. A 4-N,N-dimethylaminophen-4-yl-substituted naphthalocyaninato zinc(II) complex (Zn-NMe2Nc) and the derived water-soluble coordination compound (Zn-NMe3Nc) exhibit a near-infrared fluorescence from the lowest ligand-centered state, along with a unique push–pull-supported luminescence in the visible region of the electromagnetic spectrum. An unprecedentedly broad structural (2D-NMR spectroscopy and mass spectrometry) as well as photophysical characterization (steady-state state and time-resolved photoluminescence spectroscopy) is presented. The unique dual emission was assigned to two independent sets of singlet states related to the intrinsic Q-band of the macrocycle and to the push–pull substituents in the molecular periphery, respectively, as predicted by TD-DFT calculations. In general, the elusive chemical aspects of these macrocyclic compounds are addressed, involving both reaction conditions, thorough purification, and in-depth characterization. Besides the fundamental aspects that are investigated herein, the photoacoustic properties were exemplarily examined using phantom gels to assess their tomographic imaging capabilities. Finally, the robust luminescence in the visible range arising from the push–pull character of the peripheral moieties demonstrated a notable independence from aggregation and was exemplarily implemented for optical imaging (FLIM) through time-resolved multiphoton micro(spectro)scopy.

Published
2024
Full Text
View/download PDF

7. Synthesis and Photophysical Evaluation of Isoleptic Pt(II) and Pd(II) Complexes Utilizing N^N^N Ligands as Luminophoric Chelators with Different Ancillary Ligands

Author

Silpa Padmakumar Sheelakumari, María Victoria Cappellari, María Belen Rivas Aiello, Alexander Hepp, and Cristian Alejandro Strassert

Subjects
Pt(II) and Pd(II) complexes, synthesis, structural characterization, steady-state and time-resolved photoluminescence spectroscopy, Inorganic chemistry, QD146-197
Abstract

We herein report on the synthesis and structural characterization, as well as on the photophysical properties, of a series of isoleptic Pt(II) and Pd(II) complexes featuring tridentate N^N^N chelators as luminophores while bearing diverse ancillary co-ligands. Six new palladium complexes were synthesized using 2,6-bis(3-(tert-butyl/trifluoromethyl)-1H-1,2,4-triazol-5-yl)pyridine (tbu or CF3, respectively) in combination with four distinct ancillary ligands, namely: 4-amylpyridine (AmPy), 2,6-dimethylphenyl isonitrile (CNR), triphenylphosphane (PPh3), and 1,3,5-triaza-7-phosphaadamantane (PTA). Thus, two novel Pt(II) complexes incorporating the co-ligands CNR and PTA were explored. The remaining platinum-based complexes, namely CF3-Pt-AmPy, tbu-Pt-AmPy, CF3-Pt-PPh3, and tbu-Pt-PPh3, were re-synthesized according to our previous work for a systematic comparison with their Pd(II) homologues. Thus, photophysical studies were performed in different solvents and conditions. The Pt(II) complexes demonstrated comparable or superior photophysical characteristics in toluene when compared with their solutions in liquid dichloromethane at room temperature. In contrast, the Pd(II) complexes exhibited no significant photoluminescence in dichloromethane, but a surprisingly clear emission was observed for tbu-Pd-AmPy, tbu-Pd-CNR, and tbu-Pd-PPh3 in liquid toluene at room temperature. The significant differences regarding excited state lifetimes and photoluminescence quantum yields underscore the impact of solvent selection on photophysical characteristics, emphasizing the need to consider metal-ligand interactions, as well as the surrounding microenvironment, for a comprehensive interpretation of their photophysical properties. In addition, it is clear that AmPy and CNR render better luminescence efficiencies, whereas PTA is only suitable in toluene.

Published
2024
Full Text
View/download PDF

8. A Neutral Pyridine-Pyrazole-Based N^N*N^N Ligand as a Tetradentate Chromophore for Diverse Transition Metal Cations

Author

Tobias Theiss, María Victoria Cappellari, Jutta Kösters, Alexander Hepp, and Cristian A. Strassert

Subjects
pyridine-pyrazole-based N^N*N^N ligand, transition metal complexes, time-resolved and steady-state photoluminescence spectroscopy, synthesis, structural characterization, Inorganic chemistry, QD146-197
Abstract

Herein, the synthesis and the structural as well as the photophysical characterization of five transition metal complexes bearing a neutral pyridine-pyrazole-based N^N*N^N ligand (L) acting as a tetradentate chelator are reported. The luminophore can be synthesized via two different pathways. An alkyl chain with a terminal tert-butyl moiety was inserted on the bridging nitrogen atom to enhance the solubility of the complexes in organic solvents. Due to the neutral character of L, metal ions with different charges and electronic configurations can be chelated. Thus, complexes with Pt(II) (C1), Ag(I) (C2), Zn(II) (C3), Co(II) (C4) and Fe(II) (C5) were synthesized. Single-crystal X-ray diffraction experiments showed that complex C2 exhibits a completely different structure in the crystalline state if compared with C3 and C5, i.e., depending on the chelated cation. The UV-vis absorption and the NMR spectra showed that the complexes dissociate in liquid solutions, except for the Pt(II)-based coordination compound. Therefore, the photophysical properties of the complexes and of the ligand were studied in the solid state. For the Pt(II)-based species, a characteristic metal-perturbed ligand-centered phosphorescence was traceable, both in dilute solutions as well as in the solid state.

Published
2024
Full Text
View/download PDF

9. The Effect of Monodentate Co-Ligands on the Properties of Pt(II) Complexes Bearing a Tridentate C^N*N-Luminophore

Author

Stefan Buss, Leon Geerkens, María Victoria Cappellari, Alexander Hepp, Jutta Kösters, and Cristian A. Strassert

Subjects
soluble triplet emitters, synthesis of Pt(II) complexes, co-ligand exchange, time-resolved photoluminescence spectroscopy, structural characterization, photophysics, Organic chemistry, QD241-441
Abstract

In this study, the insertion of different monodentate co-ligands on Pt(II) complexes bearing a monoanionic C^N*N luminophore as a tridentate chelator was achieved beyond the previously reported chlorido- ([PtCl(L)]) and cyanido-decorated ([PtCN(L)]) analogues. To investigate the impact of the auxiliary ligand on the photophysical properties, we introduced a neutral carbonyl-ligand and observed a lower photoluminescence quantum yield (ΦL) than with a cyanido moiety. However, the direct substitution of the chlorido co-ligand by a NO-related derivative was not successful. Interestingly, the attempted reduction of the successfully inserted nitrito-N-ligand in [PtNO2(L)] resulted in the oxidation of the Pt(II)-center to Pt(IV), as demonstrated by X-ray diffractometry. For comparison, the trifluoroacetato Pt(II) and chlorido Pt(IV) complexes ([PtTFA(L)] and [PtCl3(L)], respectively) were also synthesized. The photophysical characterization revealed similar photoluminescence profiles for all complexes, indicating a weak effect of the co-ligand on the excited state; in fact, all complexes display emission from metal-perturbed ligand-centered states (even the Pt(IV) species). Nonetheless, longer excited state lifetimes (τav) suggest a reduced thermally-activated radiationless deactivation via metal-centered states upon exchange of the chlorido units for other monodentate entities, yet without significantly improving the overall ΦL at room temperature. The irreversible oxidation waves (measured via cyclic voltammetry) mostly stem from the Pt(II)-center; the co-ligand-related drop of these potentials correlates with the increasing σ-donating capacities of the ancillary ligand. In summary, an enhanced π-acceptor capacity does not necessarily improve the ΦL and can even impair radiative rates by compromising the perturbative participation of the metal center on the emissive triplet state; in addition, strong σ-donor abilities improve the phosphorescence efficiencies by hampering the thermal population of dissociative electronic configurations related to the participation of antibonding d*-orbitals at the metal center.

Published
2023
Full Text
View/download PDF

10. Pt(II) Complexes with Tetradentate C^N*N^C Luminophores: From Supramolecular Interactions to Temperature-Sensing Materials with Memory and Optical Readouts

Author

Matias E. Gutierrez Suburu, Meik Blanke, Alexander Hepp, Oliver Maus, Dominik Schwab, Nikos L. Doltsinis, Wolfgang G. Zeier, Michael Giese, Jens Voskuhl, and Cristian A. Strassert

Subjects
Pt(II) complex, organometallic compounds, phosphorescent complexes, thermochromism, Organic chemistry, QD241-441
Abstract

A series of four regioisomeric Pt(II) complexes (PtLa-n and PtLb-n) bearing tetradentate luminophores as dianionic ligands were synthesized. Hence, both classes of cyclometallating chelators were decorated with three n-hexyl (n = 6) or n-dodecyl (n = 12) chains. The new compounds were unambiguously characterized by means of multiple NMR spectroscopies and mass spectrometry. Steady-state and time-resolved photoluminescence spectroscopy as well quantum chemical calculations show that the effect of the regioisomerism on the emission colour and on the deactivation rate constants can be correlated with the participation of the Pt atom on the excited state. The thermal properties of the complexes were studied by DSC, POM and temperature-dependent steady-state photoluminescence spectroscopy. Three of the four complexes (PtLa-12, PtLb-6 and PtLb-12) present an intriguing thermochromism resulting from the responsive metal–metal interactions involving adjacent monomeric units. Each material has different transition temperatures and memory capabilities, which can be tuned at the intermolecular level. Hence, dipole–dipole interactions between the luminophores and disruption of the crystalline packing by the alkyl groups are responsible for the final properties of the resulting materials.

Published
2023
Full Text
View/download PDF

11. Naphthalonitriles featuring efficient emission in solution and in the solid state

Author

Sidharth Thulaseedharan Nair Sailaja, Iván Maisuls, Jutta Kösters, Alexander Hepp, Andreas Faust, Jens Voskuhl, and Cristian A. Strassert

Subjects
aggregation caused quenching (acq), aggregation-induced emission enhancement (aiee), naphthalonitriles (ncns), solution and solid state emitters (ssse), solvent quenching (sq), Science, Organic chemistry, QD241-441
Abstract

In this work, a series of γ-substituted diphenylnaphthalonitriles were synthesized and characterized. They show efficient emission in solution and in the aggregated state and their environment responsiveness is based on having variable substituents at the para-position of the two phenyl moieties. The excited state properties were fully investigated in tetrahydrofuran (THF) solutions and in THF/H2O mixtures. The size of the aggregates in aqueous media were measured by dynamic light scattering (DLS). The steady-state and time-resolved photoluminescence spectroscopy studies revealed that all the molecules show intense fluorescence both in solution and in the aggregated state. In THF solutions, a blue emission was observed for the unsubstituted (H), methyl- (Me) and tert-butyl- (t-Bu) substituted γ-diphenylnaphthalonitriles, which can be attributed to a weak π-donor capability of these groups. On the other hand, the methoxy- (OMe), methylsulfanyl- (SMe) and dimethylamino- (NMe2) substituted compounds exhibit a progressive red-shift in emission compared to H, Me and t-Bu due to a growing π-electron donating capability. Interestingly, upon aggregation in water-containing media, H, Me and t-Bu show a slight red-shift of the emission and a blue-shift is observed for OMe, SMe and NMe2. The crystal structure of Me allowed a detailed discussion of the structure–property relationship. Clearly, N-containing substituents such as NMe2 possess more electron-donating ability than the S-based moieties such as SMe. Moreover, it was found that NMe2 showed higher luminescence quantum yields (ΦF) in comparison to SMe, indicating that N-substituted groups could enhance the fluorescence intensity. Therefore, the π-donor nature of the substituents on the phenyl ring constitutes the main parameter that influences the photophysical properties, such as excited state lifetimes and photoluminescence quantum yields. Hence, a series of highly luminescent materials from deep blue to red emission depending on substitution and environment is reported with potential applications in sensing, bioimaging and optoelectronics.

Published
2020
Full Text
View/download PDF

13. Substitutions of PrP N-terminal histidine residues modulate scrapie disease pathogenesis and incubation time in transgenic mice.

Author

Sabina Eigenbrod, Petra Frick, Uwe Bertsch, Gerda Mitteregger-Kretzschmar, Janina Mielke, Marko Maringer, Niklas Piening, Alexander Hepp, Nathalie Daude, Otto Windl, Johannes Levin, Armin Giese, Vignesh Sakthivelu, Jörg Tatzelt, Hans Kretzschmar, and David Westaway

Subjects
Medicine, Science
Abstract

Prion diseases have been linked to impaired copper homeostasis and copper induced-oxidative damage to the brain. Divalent metal ions, such as Cu2+ and Zn2+, bind to cellular prion protein (PrPC) at octapeptide repeat (OR) and non-OR sites within the N-terminal half of the protein but information on the impact of such binding on conversion to the misfolded isoform often derives from studies using either OR and non-OR peptides or bacterially-expressed recombinant PrP. Here we created new transgenic mouse lines expressing PrP with disrupted copper binding sites within all four histidine-containing OR's (sites 1-4, H60G, H68G, H76G, H84G, "TetraH>G" allele) or at site 5 (composed of residues His-95 and His-110; "H95G" allele) and monitored the formation of misfolded PrP in vivo. Novel transgenic mice expressing PrP(TetraH>G) at levels comparable to wild-type (wt) controls were susceptible to mouse-adapted scrapie strain RML but showed significantly prolonged incubation times. In contrast, amino acid replacement at residue 95 accelerated disease progression in corresponding PrP(H95G) mice. Neuropathological lesions in terminally ill transgenic mice were similar to scrapie-infected wt controls, but less severe. The pattern of PrPSc deposition, however, was not synaptic as seen in wt animals, but instead dense globular plaque-like accumulations of PrPSc in TgPrP(TetraH>G) mice and diffuse PrPSc deposition in (TgPrP(H95G) mice), were observed throughout all brain sections. We conclude that OR and site 5 histidine substitutions have divergent phenotypic impacts and that cis interactions between the OR region and the site 5 region modulate pathogenic outcomes by affecting the PrP globular domain.

Published
2017
Full Text
View/download PDF

26. Toward a Human-Readable State Machine Extraction

Author

Michaela Brunner, Alexander Hepp, Johanna Baehr, and Georg Sigl

Subjects
Hardware_PERFORMANCEANDRELIABILITY, Electrical and Electronic Engineering, Computer Graphics and Computer-Aided Design, Hardware_LOGICDESIGN, Computer Science Applications
Abstract

The target of sequential reverse engineering is to extract the state machine of a design. Sequential reverse engineering of a gate-level netlist consists of the identification of so-called state flip-flops (sFFs), as well as the extraction of the state machine. The second step can be solved with an exact approach if the correct sFFs and the correct reset state are provided. For the first step, several more or less heuristic approaches exist. This work investigates sequential reverse engineering with the objective of a human-readable state machine extraction. A human-readable state machine reflects the original state machine and is not overloaded by additional design information. For this purpose, the work derives a systematic categorization of sFF sets, based on properties of single sFFs and their sets. These properties are determined by analyzing the degrees of freedom in describing state machines as the well-known Moore and Mealy machines. Based on the systematic categorization, this work presents an sFF set definition for a human-readable state machine, categorizes existing sFF identification strategies, and develops four post-processing methods. The results show that post-processing predominantly improves the outcome of several existing sFF identification algorithms.

Published
2022

27. Monoanionic C^N^N Luminophores and Monodentate C-Donor Co-Ligands for Phosphorescent Pt(II) Complexes: A Case Study Involving Their Photophysics and Cytotoxicity

Author

Iván Maisuls, Felix Boisten, Marian Hebenbrock, Julian Alfke, Lina Schürmann, Beate Jasper-Peter, Alexander Hepp, Melanie Esselen, Jens Müller, and Cristian A. Strassert

Subjects
Inorganic Chemistry, Luminescence, Molecular Structure, Quantum Theory, Antineoplastic Agents, Physical and Theoretical Chemistry, Ligands, Carbon, Platinum
Abstract

A family of Pt(II) complexes bearing monoanionic C^N^N ligands as luminophoric units as well as a set of monodentate ligands derived from allenylidene and carbene species were synthesized and characterized in terms of structure and photophysical properties. In addition, we present the extraordinary molecular structure of a phosphorescent complex carrying an allenylidene ligand. Depending on the co-ligand, an effect can be observed in the photoluminescence lifetimes and quantum yields as well as in the radiative and radiation less deactivation rate constants. Their correlation with the substitution pattern was analyzed by comparing the photoluminescence in fluid solution at room temperature and in frozen glassy matrices at 77 K. Moreover, in order to gain a deeper understanding of the electronic states responsible for the optical properties, density functional theory calculations were performed. Finally, the cytotoxicity of the complexes was evaluated

Published
2022

29. Reactivity of the Bicyclic Amido‐Substituted Silicon(I) Ring Compound Si 4 {N(SiMe 3 )Mes} 4 with FLP‐Type Character

Author

Felicitas Lips, Kevin Schwedtmann, Jörn Droste, Alexander Hepp, Milica Feldt, Benedikt J. Guddorf, Jan Keuter, Michael Ryan Hansen, and Michael Quest

Subjects
Bicyclic molecule, Chemistry, Organic Chemistry, Protonation, General Chemistry, Medicinal chemistry, Catalysis, Frustrated Lewis pair, Adduct, chemistry.chemical_compound, Reactivity (chemistry), Lewis acids and bases, Carbene, Diphenylacetylene
Abstract

The bicyclic amido-substituted silicon(I) ring compound Si4 {N(SiMe3 )Mes}4 2 (Mes=Mesityl=2,4,6-Me3 C6 H2 ) features enhanced zwitterionic character and different reactivity from the analogous compound Si4 {N(SiMe3 )Dipp}4 1 (Dipp=2,6-i Pr2 C6 H3 ) due to the smaller mesityl substituents. In a reaction with the N-heterocyclic carbene NHC Me4 (1,3,4,5-tetramethyl-imidazol-2-ylidene), we observe adduct formation to give Si4 {N(SiMe3 )Mes}4 ⋅ NHC Me4 (3). This adduct reacts further with the Lewis acid BH3 to yield the Lewis acid-base complex Si4 {N(SiMe3 )Mes}4 ⋅ NHC Me4 ⋅ BH3 (4). Coordination of AlBr3 to 2 leads to the adduct 5. Calculated proton affinities and fluoride ion affinities reveal highly Lewis basic and very weak Lewis acidic character of the low-valent silicon atoms in 1 and 2. This is confirmed by protonation of 1 and 2 with Brookharts acid yielding 6 and 7. Reaction with diphenylacetylene only occurs at 111 °C with 2 in toluene and is accompanied by fragmentation of 2 to afford the silacyclopropene 8 and the trisilanorbornadiene species 9.

Published
2021

30. Reactivity of Ruthenium(II) Complexes Bearing Bis-NHC Ligands

Author

Alexander Hepp, Patrick D. Dutschke, Tobias Lübbering, and F. Ekkehardt Hahn

Subjects
chemistry.chemical_classification, Bearing (mechanical), Ethylene, Chemistry, Organic Chemistry, chemistry.chemical_element, Salt (chemistry), law.invention, Ruthenium, Inorganic Chemistry, chemistry.chemical_compound, law, Polymer chemistry, Reactivity (chemistry), Physical and Theoretical Chemistry, Methylene, Linker
Abstract

Bis-imidazolium salts bearing N-2-fluorobenzyl substituents and methylene, ethylene, or propylene linkers ([H2-4]Br2–[H2-6]Br2) and the bis-imidazolium salt [H2-8]Br2 featuring an ethylene linker a...

Published
2021

35. Sterically constrained tricyclic phosphine: redox behaviour, reductive and oxidative cleavage of P–C bonds, generation of a dilithium phosphaindole as a promising synthon in phosphine chemistry

Author

Stephen Schulz, Alexander Brand, Werner Uhl, Jan J. Weigand, and Alexander Hepp

Subjects
Dilithium, Steric effects, Chemistry, chemistry.chemical_compound, chemistry, Bicyclic molecule, Phosphinidene, Synthon, General Chemistry, Ring (chemistry), Medicinal chemistry, Derivative (chemistry), Phosphine
Abstract

The redox behaviour of sterically constrained tricyclic phosphine 3a was investigated by spectroelectrochemistry. The data suggested a highly negative reduction potential with the reversible formation of a dianionic species. Accordingly, 3a reacted with two equivalents of Li/naphthalene by reductive cleavage of a P–C bond of one of the PC4 heterocycles. The resulting dilithium compound 5 represents a phosphaindole derivative with annulated aromatic C6 and PC4 rings. It is an interesting starting material for the synthesis of new heterocyclic molecules, as was shown by treatment with Me2SiCl2 and PhPCl2. The structures of the products (6 and 7) formally reflect ring expansion by insertion of silylen or phosphinidene fragments into a P–C bond of 3a. Treatment of 3a with H2O2 did not result in the usually observed transfer of a single O atom to phosphorus, but oxidative cleavage of a strained PC4 ring afforded a bicyclic phosphinic acid, R2PO2H., Sterically constrained tricyclic phosphines with annulated five- and six-membered rings show fascinating chemical and redox reactivity as indicated by sophisticated in situ UV-vis CV and multi-pulse chronoamperometry.

Published
2021

36. Naphthalonitriles featuring efficient emission in solution and in the solid state

Author

Jens Voskuhl, Andreas Faust, Cristian A. Strassert, Jutta Kösters, Alexander Hepp, Sidharth Thulaseedharan Nair Sailaja, and Iván Maisuls

Subjects
solvent quenching (sq), Photoluminescence, Organic Chemistry, Chemie, Crystal structure, Photochemistry, naphthalonitriles (ncns), Full Research Paper, solution and solid state emitters (ssse), lcsh:QD241-441, Chemistry, chemistry.chemical_compound, lcsh:Organic chemistry, chemistry, Dynamic light scattering, Excited state, aggregation-induced emission enhancement (aiee), Molecule, lcsh:Q, lcsh:Science, Spectroscopy, Luminescence, Tetrahydrofuran, aggregation caused quenching (acq)
Abstract

In this work, a series of γ-substituted diphenylnaphthalonitriles were synthesized and characterized. They show efficient emission in solution and in the aggregated state and their environment responsiveness is based on having variable substituents at the para-position of the two phenyl moieties. The excited state properties were fully investigated in tetrahydrofuran (THF) solutions and in THF/H2O mixtures. The size of the aggregates in aqueous media were measured by dynamic light scattering (DLS). The steady-state and time-resolved photoluminescence spectroscopy studies revealed that all the molecules show intense fluorescence both in solution and in the aggregated state. In THF solutions, a blue emission was observed for the unsubstituted (H), methyl- (Me) and tert-butyl- (t-Bu) substituted γ-diphenylnaphthalonitriles, which can be attributed to a weak π-donor capability of these groups. On the other hand, the methoxy- (OMe), methylsulfanyl- (SMe) and dimethylamino- (NMe2) substituted compounds exhibit a progressive red-shift in emission compared to H, Me and t-Bu due to a growing π-electron donating capability. Interestingly, upon aggregation in water-containing media, H, Me and t-Bu show a slight red-shift of the emission and a blue-shift is observed for OMe, SMe and NMe2. The crystal structure of Me allowed a detailed discussion of the structure–property relationship. Clearly, N-containing substituents such as NMe2 possess more electron-donating ability than the S-based moieties such as SMe. Moreover, it was found that NMe2 showed higher luminescence quantum yields (ΦF) in comparison to SMe, indicating that N-substituted groups could enhance the fluorescence intensity. Therefore, the π-donor nature of the substituents on the phenyl ring constitutes the main parameter that influences the photophysical properties, such as excited state lifetimes and photoluminescence quantum yields. Hence, a series of highly luminescent materials from deep blue to red emission depending on substitution and environment is reported with potential applications in sensing, bioimaging and optoelectronics.

Published
2020

37. Comparison of Phosphorescent Pt(II) Complexes with C^N^N vs N^N^N Chelators and Caffeine-Based NHC-co-ligands

Author

Thomas M. Kirse, Joschua Lüke, Iván Maisuls, Alexander Hepp, and Cristian A. Strassert

Subjects
General Medicine, Physical and Theoretical Chemistry, Biochemistry
Abstract

In this work, we explored coordination compounds featuring caffeine-based carbene co-ligands and tridentate dianionic pincer luminophores derived from 2,6-bis(1H-1,2,4-triazol-5-yl)pyridine (N), as well as from 2-phenyl-6-(1H-1,2,4-triazol-5-yl)pyridine (C), bearing either Ad (adamantyl) or tBu (tertiary butyl) substituents. The new 2-phenyl-6-(1H-1,2,4-triazol-5-yl)pyridine-based ligand precursors along with four Pt(II) complexes, namely Pt(C-tBu), Pt(C-Ad), Pt(N-tBu) and Pt(N-Ad) were characterized. Further on, the influence of the different substituents at the chelating luminophores and of the caffeine-based NHC-co-ligand on the photophysical properties (including photoluminescence quantum yields (Φ

Published
2022

40. Preparation of Complexes Bearing N‐Alkylated, Anionic or Protic CAACs Through Oxidative Addition of 2‐Halogenoindole Derivatives

Author

Constantin G. Daniliuc, F. Ekkehardt Hahn, Jonas Blumenberg, Alexander Hepp, and Sebastian Termühlen

Subjects
Tetrafluoroborate, oxidative addition, Protonation, Alkylation, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, Catalysis, chemistry.chemical_compound, protic CAACs, chloro indolium salts, CAAC complexes, Indole test, 010405 organic chemistry, Ligand, Communication, General Medicine, General Chemistry, chloro indole, Toluene, Oxidative addition, Communications, 0104 chemical sciences, chemistry, Yield (chemistry), CAAC and pCAAC Complexes
Abstract

CAAC precursors 2‐chloro‐3,3‐dimethylindole 1 and 2‐chloro‐1‐ethyl‐3,3‐dimethylindolium tetrafluoroborate 2BF4 have been prepared and oxidatively added to [M(PPh3)4] (M=Pd, Pt). Salt 2BF4 reacts with [Pd(PPh3)4] in toluene at 25 °C over 4 days to yield complex cis‐[3]BF4 featuring an N‐ethyl substituted CAAC, two cis‐arranged phosphines and a chloro ligand. Compound trans‐[3]BF4 was obtained from the same reaction at 80 °C over 1 day. Salt 2BF4 reacts with [Pt(PPh3)4] to give cis‐[4]BF4. The neutral indole derivative 1 adds oxidatively to [Pt(PPh3)4] to give trans‐[5] featuring a CAAC ligand with an unsubstituted ring‐nitrogen atom. This nitrogen atom has been protonated with py⋅HBF4 to give trans‐[6]BF4 bearing a protic CAAC ligand. The PdII complex trans‐[7]BF4 bearing a protic CAAC ligand was obtained in a one‐pot reaction from 1 and [Pd(PPh3)4] in the presence of py⋅HBF4., Cyclic (alkyl)(amino)carbene (CAAC) precursor salt 2BF4 reacts with [M(PPh3)4] (M=Pd, Pt) to give cis/trans‐[3]BF4 and cis‐[4]BF4, in which the CAAC ligand bears an unusual N‐alkyl substituent. trans‐[5] has a unique anionic CAAC ligand with an unsubstituted ring‐nitrogen atom which can be protonated to give trans‐[6]BF4 bearing a protic CAAC (pCAAC) ligand.

Published
2020

41. Reactivity of an NHC-Coordinated Trisilacyclopropylidene with Transition Metal Carbonyl Compounds

Author

Benedikt J. Guddorf, Felicitas Lips, Constantin G. Daniliuc, Alexander Hepp, and Milica Feldt

Subjects
Inorganic Chemistry, chemistry, Transition metal, Organic Chemistry, Polymer chemistry, chemistry.chemical_element, Reactivity (chemistry), Physical and Theoretical Chemistry, Tungsten
Abstract

The reaction of the NHC-coordinated trisilacyclopropylidene F with freshly prepared W(CO)6–n(thf)n (n = 1, 2) yielded in addition to the targeted tungsten pentacarbonyl complex 1 the unexpected NHC...

Published
2020

42. New Reactivity Patterns in 3H‐Phosphaallene Chemistry [Aryl‐P=C=C(H)‐tBu]: Hydroboration of the C=C Bond, Deprotonation and Trimerisation

Author

Ernst-Ulrich Würthwein, Alexander Hepp, Werner Uhl, and Jonas C. Tendyck

Subjects
chemistry.chemical_classification, Full Paper, Double bond, Aryl, Organic Chemistry, General Chemistry, Full Papers, Borane, Medicinal chemistry, Catalysis, Frustrated Lewis pair, Inorganic Chemistry, chemistry.chemical_compound, Hydroboration, Deprotonation, chemistry, hydroboration, phosphaallenes, Molecule, trimerisation, Reactivity (chemistry), frustrated Lewis pairs, lithium phosphides
Abstract

3H‐Phosphaallenes, R−P=C=C(H)C−R’ (3), are accessible in a multigram scale on a new and facile route and show a fascinating chemical reactivity. BH3(SMe2) and 3 a (R=Mes*, R’=tBu) afforded by hydroboration of the C=C bonds of two phosphaallene molecules an unprecedented borane (7) with the B atom bound to two P=C double bonds. This compound represents a new FLP based on a B and two P atoms. The increased Lewis acidity of the B atom led to a different reaction course upon treatment of 3 a with H2B‐C6F5(SMe2). Hydroboration of a C=C bond of a first phosphaallene is followed in a typical FLP reaction by the coordination of a second phosphaallene molecule via B−C and P−B bond formation to yield a BP2C2 heterocycle (8). Its B−P bond is short and the B‐bound P atom has a planar surrounding. Treatment of 3 a with tBuLi resulted in deprotonation of the β‐C atom of the phosphaallene (9). The Li atom is bound to the P atom as demonstrated by crystal structure determination, quantum chemical calculations and reactions with HCl, Cl‐SiMe3 or Cl‐PtBu2. The thermally unstable phosphaallene Ph−P=C=C(H)‐tBu gave a unique trimeric secondary product by P−P, P−C and C−C bond formation. It contains a P2C4 heterocycle and was isolated as a W(CO)4 complex with two P atoms coordinated to W (15)., Renewed interest: 3H‐Phosphaallenes are highly functional compounds with a fascinating perspective in various chemical transformations. Hydroboration of the C=C bond afforded a BP2 FLP or a BP2C2 heterocycle and deprotonation yielded a reactive Li phosphide. A new secondary product was obtained by trimerisation of a sterically low shielded phosphaallene via P−P, P−C and C−C bond formation.

Published
2020

45. MCl2 Molecules (M = Zn, Cd, Hg) Coordinated by Trifunctional E/P2-Based FLPs (E = Ga, In): Chelating Coordination of the Metal Atoms and Activation of M–Cl Bonds by E–Cl Interactions

Author

Alexander Hepp, Werner Uhl, and Marten Uebing

Subjects
chemistry.chemical_classification, Chemistry, Organic Chemistry, Salt (chemistry), Grignard reagent, Medicinal chemistry, Frustrated Lewis pair, Inorganic Chemistry, Metal, visual_art, visual_art.visual_art_medium, Molecule, Chelation, Physical and Theoretical Chemistry
Abstract

Two equivalents of the phosphinylvinyl Grignard reagent Mes2PC[MgCl(THF)2]═CHPh (2) reacted with MeGaCl2, EtGaCl2, or MeInCl2 by salt elimination and formation of the frustrated Lewis pairs 4–6, wh...

Published
2020

46. Al/N-based active Lewis pairs: isocyanate insertion products as efficient nucleophiles employed for the facile generation of highly functional molecules

Author

Marcus Layh, Julia Horstmann, Alexander Hepp, and Werner Uhl

Subjects
chemistry.chemical_compound, Functional importance, Nucleophile, 010405 organic chemistry, Chemistry, General Chemistry, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, Isocyanate, 0104 chemical sciences
Abstract

The previously reported active Lewis pair (ALP) i Bu2Al–N(2-Ad)NC5H10 (1) (2-Ad = 2-adamantyl) is readily accessible by hydroalumination of the hydrazone H10C5N–N=(2-C10H14) with H–Al i Bu2. Treatment of 1 with two equivalents of isocyanates R-N=C=O yields six-membered AlC2N2O heterocycles 2 (2a, R = Ph; 2b, R = p-Tol) by dual insertion into the Al–N bonds. 2a reacts as a nucleophile with carboxylic acid chlorides R-C(O)–Cl [R = CH2 t Bu, p-Tol, H2CCH(Me)C6H4(4-CH2CHMe2) (Ibu-profen acid chloride), 0.5 (1,4-C6H4)] to afford by elimination of i Bu2AlCl and hydrolysis new triuret derivatives R-C(O)[N(Ph)C(O)]2–N(2-Ad)NC5H10 (3a to 3d) as colourless, sparingly soluble solids in moderate (3c) to high (3b) yields. The analogous reaction of 2a with (p-Tol)–C(Cl)=N(p-Tol) leads to the imidoyl derivative (p-Tol)N=C(p-Tol)[N(Ph)C(O)]2–N(2-Ad)NC5H10 (4a), which showed a fast exchange of phenyl and tolyl groups to yield a mixture of isomers. The analogous reaction of 2b affords the corresponding compound 4b for which a single isomer is isolated despite the scrambling of substituents.

Published
2020

47. A Geometrically Constrained Tricyclic Phosphine: Coordination, Ring Expansion by Insertion of CO into a P–C Bond, and Lewis Acid Initiated Formation of an Oligocyclic Molecule with a P2C22 backbone

Author

Alexander Hepp, Alexander Brand, Philipp Wegener, and Werner Uhl

Subjects
Inorganic Chemistry, chemistry.chemical_classification, chemistry.chemical_compound, chemistry, Stereochemistry, Organic Chemistry, Atom, Molecule, Lewis acids and bases, Physical and Theoretical Chemistry, Ring (chemistry), Phosphine, Tricyclic
Abstract

The geometrically constrained tricyclic phosphine 3b has two annulated five-membered PC4 heterocycles with the P atom in a bridgehead position. Treatment with (THF)M(CO)5 (M = Cr, Mo, and W) afford...

Published
2020

49. Synthesis of RhIII and IrIII Complexes Bearing Chelating Di-NHC Ligands Obtained from N9-Imidazolium-Substituted Adenine

Author

Tristan Tsai Yuan Tan, Rebeca Nayely Osorio Yáñez, F. Ekkehardt Hahn, and Alexander Hepp

Subjects
Inorganic Chemistry, chemistry.chemical_compound, 010405 organic chemistry, Chemistry, Organic Chemistry, Chelation, Physical and Theoretical Chemistry, 010402 general chemistry, Acetonitrile, 01 natural sciences, Medicinal chemistry, Derivative (chemistry), 0104 chemical sciences
Abstract

The N9-imidazolium-substituted adenine derivative H-1Cl reacts with [MCl2(Cp*)]2 (M = Rh, Ir) in acetonitrile at 75 °C with formation of the CNHC^N3adenine chelate complexes [3]Cl and [4]Cl, respec...

Published
2020

50. An intermolecular FLP System derived from an NHC-coordinated trisilacyclopropylidene

Author

Felicitas Lips, Constantin G. Daniliuc, Benedikt J. Guddorf, Alexander Hepp, and Douglas W. Stephan

Subjects
010405 organic chemistry, Intermolecular force, Silylene, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Yield (chemistry), Acetone, Lewis acids and bases, Ionic compound
Abstract

The NHC-coordinated trisilacyclopropylidene (A) is shown to behave as the basic component of an FLP used in combination with the Lewis acid B(C6F4H)3 (i.e. B(2,3,5,6-C6F4H)3). This FLP cleaves dihydrogen highly selectively at room temperature giving rise to the ionic compound [(NHC)SiH(Mes2SiSiMes2)][HB(C6F4H)3] 1 in 90% isolated yield. Further reaction of the FLP with Ph2NH and acetone yielded compounds [(NHC)SiH(Mes2SiSiMes2)][Ph2NB(C6F4H)3] 2 and [(NHC)SiH(Mes2SiSiMes2)][MeC(CH2)OB(C6F4H)3] 3 in 75% and 80% yield, respectively. Reaction of the FLP with N2O results in the oxidation of the silylene center affording [((NHC)SiOB(C6F4H)3)(Mes2SiSiMes2)] 4 in 53% yield. These products are spectroscopically characterized and an X-ray structure of 4 is reported.

Published
2020

Catalog

Books, media, physical & digital resources
See catalog results