Tim Patten scite author profile

Tim Patten

3Publications

44Citation Statements Received

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University of Göttingen

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Structure Elucidation of Lithium Compounds Using ⁷Li Residual Quadrupolar Couplings

Rüttger

Patten

Kretsch

et al. 2023

Chemistry A European J

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A new NMR method for the structure elucidation of lithium compounds under solution-like conditions is presented. It is based on the measurement of 7 Li residual quadrupolar couplings (RQCs) in a stretched polystyrene (PS) gel, and comparison to RQCs predicted from crystal or DFTderived model structures in combination with alignment tensors derived from one-bond 1 H, 13 C residual dipolar couplings (RDCs). The method was applied to five lithium model complexes containing monoanionic, bidentate bis(benzoxazole-2-yl)methanide, bis(benzothiazole-2yl)methanide and bis(pyridyl)methanide ligands, of which two are first introduced in this work. In agreement with the crystalline state, four complexes are monomeric with Li coordinated fourfold by two additional THF molecules, whereas in one complex bulky tBu groups only provide space for one additional THF molecule.

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An investigation of Solid‐State Emission of Halogenated Diphenyl Phosphanyl Anthracenes

Patten

Graw

Friedl

et al. 2023

Advanced Optical Materials

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are hardly predictable. It often happens that the strong emission observed in solution is completely quenched in the solid state. This phenomenon is known as aggregation-caused quenching (ACQ) and is mostly attributed to the strong, unfavorable intermolecular interactions present in the crystalline phase. [5] On the other hand, one may tailor aggregation in such a way that the photoluminescence may not only be observed in a solid state, but in fact can be significantly enhanced. Such an effect is called aggregationinduced emission (AIE) and was first described by Tang et al. in 2001. [6] It is an interesting and important phenomenon especially in view of its technological perspective, as it allows to control, up to a certain extent, the self-assembly of molecules via known intermolecular interactions, leading to introduction of light emission upon aggregation. Since the introduction of this concept, particular focus has been paid to single-component crystals and cocrystals in which the fine-tuned solid-state luminescence is controlled via π-π interactions, hydrogen and halogen bonds. [7,8] By selective reorganization of such synthons, it is possible to alter the molecular structure and thus also control the emission behavior. As a result, one may observe excimer/exciplex formation between two conjugated molecules one being the electron donor and another the electron acceptor building block. These form an intermolecular dimer/complex in the excited state which usually leads to the situation that the energy level of an excited complex is below that of the respective molecules involved, resulting in a red shift of emission compared to the original emission of the individual molecules. [9] Such a behavior was observed in recently published studies on a series of phosphanyl anthracenes and their sulfur oxidized analogues. [10,11,12] The presence of carefully targeted dominant face-to-face interactions between anthracene rings and lack of other strong noncovalent interactions (NCIs) resulted in excimer formation and promoted the solid-state AIE effect. Moreover, it was shown that in order to maximize the solid-state emission, the overlap between anthracene rings should be kept at around 45% and possibly the distance between the rings should be reduced to further shift the emission band.As mentioned above, also halogen bonds may play a major role in solid-state luminescence, in particular the so-called heavy atom effect. [7] It promotes intersystem crossing, thus enhances spin-orbit coupling between excited state electrons In today's world, the development and research of optoelectronic materials and devices based on solid-state luminescence is essential. Due to their versatile application possibilities, e.g. as light-emitting diodes or lasers, they are already indispensable. This work presents three halogenated anthracene derivatives [9-PPh 2 -10-X-(C 14 H 8 )] and their respective photoluminescent behavior in solution and in the solid state. The formation of halogen-π interactions in the solid state leads to unanti...

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Cover Feature: Structure Elucidation of Lithium Compounds Using ⁷Li Residual Quadrupolar Couplings (Chem. Eur. J. 23/2023)

Rüttger

Patten

Kretsch

et al. 2023

Chemistry A European J

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Shedding light on the structure and solvation state of lithium compounds in aligned solution: The residual quadrupolar coupling of 7Li in a range of lithium complexes due to the interaction of the electric field gradient (shown in its graphical tensor form) with the alignment in a stretched polymer gel has been investigated using NMR spectroscopy. The preferred orientation of the molecules in the anisotropic environment is illustrated in the background. More information can be found in the Research Article by M. John and co‐workers (DOI: 10.1002/chem.202203995).

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Tim Patten

Structure Elucidation of Lithium Compounds Using ⁷Li Residual Quadrupolar Couplings

An investigation of Solid‐State Emission of Halogenated Diphenyl Phosphanyl Anthracenes

Cover Feature: Structure Elucidation of Lithium Compounds Using ⁷Li Residual Quadrupolar Couplings (Chem. Eur. J. 23/2023)

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Tim Patten

Structure Elucidation of Lithium Compounds Using 7Li Residual Quadrupolar Couplings

An investigation of Solid‐State Emission of Halogenated Diphenyl Phosphanyl Anthracenes

Cover Feature: Structure Elucidation of Lithium Compounds Using 7Li Residual Quadrupolar Couplings (Chem. Eur. J. 23/2023)

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Structure Elucidation of Lithium Compounds Using ⁷Li Residual Quadrupolar Couplings

Cover Feature: Structure Elucidation of Lithium Compounds Using ⁷Li Residual Quadrupolar Couplings (Chem. Eur. J. 23/2023)