Your search keyword '"Hermanns, Volker"' showing total 13 results

1. Design, Synthese & Charakterisierung von neuen photoaktivierbaren, molekularen Werkzeugen

Author

Hermanns, Volker and Hermanns, Volker

Abstract

Molekulare Werkzeuge können in der Wissenschaft unter anderem dazu verwendet werden, biochemische Prozesse gezielt zu untersuchen, um sie somit besser zu verstehen. Dabei handelt es sich zum Beispiel, um kleine chemische Moleküle, die gezielt für ihr Anwendungsgebiet konzipiert worden sind. Mit Ihnen lassen sich z.B. Interaktionen zwischen (Makro-)Molekülen regulieren, chemische Gleichgewichte lokal verändern oder auch Botenstoffe zielgerichtet freisetzen. Die Effekte dieser temporären Einwirkung auf verschiedenste biologische Systeme können hilfreiche Erkenntnisse struktureller, funktioneller oder systematischer Art für die entsprechenden Forschungsgebiete liefern. Um die interdisziplinären Problemstellungen zielgerichtet mit den entsprechend zugeschnittenen Werkzeugen zu adressieren, ist es dabei jedoch absolut notwendig, dass ein umfassendes und über die Grenzen der jeweiligen Fachgebiete hinaus gehendes Verständnis der jeweiligen Fragestellungen entwickelt wird. Viele der bisher bekannten Werkzeuge benötigen für ihren Einsatz bis heute noch relativ harsche Reaktionsbedingungen, haben ein eingeschränktes Anwendungsfeld oder lassen sich nicht ausreichend Zeit- & Ortsaufgelöst „aktivieren“. Die Möglichkeit Licht als externes Trigger-Signal zu verwenden, um die entsprechenden molekularen Werkzeuge zu aktivieren (oder auch zu deaktivieren), überwindet genau diese Defizite und bringt neben der hohen zeitlichen und räumlichen Auflösung noch viele weitere Vorteile mit sich. Im Rahmen meiner Doktorarbeit ist es mir gelungen gemeinsam mit meinen Kooperationspartnern neue lichtaktivierbare molekulare Werkzeuge von Grund auf zu designen, zu synthetisieren, sie auf ihre photochemischen Eigenschaften zu untersuchen und sie anzuwenden. Durch die interdisziplinäre Zusammenarbeit mit Doktoranden aus der Organischen, Theoretischen und Physikalischen Chemie, konnte ein umfassendes Bild dieser neuen Substanzklassen aufgezeigt werden. Die verschiedenen Arten lichtaktivierbarer Werkz

Published

2024

2. Electronic circular dichroism unravels atropisomers of a broadly absorbing fulgide derivative

Author

Hermanns, Volker, Scheurer, Maximilian, Dreuw, Andreas, Wachtveitl, Josef, Braun, Markus, Heckel, Alexander, Hermanns, Volker, Scheurer, Maximilian, Dreuw, Andreas, Wachtveitl, Josef, Braun, Markus, and Heckel, Alexander

Abstract

We prepared and studied six atropisomers with different chiroptical properties emerging from a single, robust, broadly-absorbing fulgide photoswitch. After separation of the different atropisomers via HPLC on a chiral column, their isomerization processes at room temperature and the energy barriers of the different species were investigated in detail using spectroscopic and theoretical methods.

Published

2022

3. Inactivation of competitive decay channels leads to enhanced coumarin photochemistry

Author

Klimek, Robin, Asido, Marvin, Hermanns, Volker, Junek, Stephan, Wachtveitl, Josef, Heckel, Alexander, Klimek, Robin, Asido, Marvin, Hermanns, Volker, Junek, Stephan, Wachtveitl, Josef, and Heckel, Alexander

Abstract

In the development of photolabile protecting groups, it is of high interest to selectively modify photochemical properties with structural changes as simple as possible. In this work, knowledge of fluorophore optimization was adopted and used to design new coumarin- based photocages. Photolysis efficiency was selectively modulated by inactivating competitive decay channels, such as twisted intramolecular charge transfer (TICT) or hydrogen-bonding, and the photolytic release of the neurotransmitter serotonin was demonstrated. Structural modifications inspired by the fluorophore ATTO 390 led to a significant increase in the uncaging cross section that can be further improved by the simple addition of a double bond. Ultrafast transient absorption spectroscopy gave insights into the underlying solvent-dependent photophysical dynamics. The chromophores presented here are excellently suited as new photocages in the visible wavelength range due to their simple synthesis and their superior photochemical properties.

Published

2022

4. Electronic Circular Dichroism Unravels Atropisomers of a Broadly Absorbing Fulgide Derivative

Author

Hermanns, Volker, primary, Scheurer, Maximilian, additional, Dreuw, Andreas, additional, Wachtveitl, Josef, additional, Braun, Markus, additional, and Heckel, Alexander, additional

Published

2022

5. Inactivation of Competitive Decay Channels Leads to Enhanced Coumarin Photochemistry

Author

Klimek, Robin, primary, Asido, Marvin, additional, Hermanns, Volker, additional, Junek, Stephan, additional, Wachtveitl, Josef, additional, and Heckel, Alexander, additional

Published

2022

6. A long-lived fluorenyl cation: efficiency booster for uncaging and photobase properties

Author

Abdellaoui, Chahinez, primary, Hermanns, Volker, additional, Reinfelds, Matiss, additional, Scheurer, Maximilian, additional, Dreuw, Andreas, additional, Heckel, Alexander, additional, and Wachtveitl, Josef, additional

Published

2022

7. Rethinking Uncaging: A New Antiaromatic Photocage Driven by a Gain of Resonance Energy

Author

Hermanns, Volker, primary, Scheurer, Maximilian, additional, Kersten, Nils Frederik, additional, Abdellaoui, Chahinez, additional, Wachtveitl, Josef, additional, Dreuw, Andreas, additional, and Heckel, Alexander, additional

Published

2021

8. Photoswitchable 2‐phenyldiazenyl‐purines and their influence on DNA hybridization

Author

Grebenovsky, Nikolai Michal, Hermanns, Volker, Heckel, Alexander, Grebenovsky, Nikolai Michal, Hermanns, Volker, and Heckel, Alexander

Abstract

Recently, photochromic derivatives of nucleobases have drawn attention for regulating oligonucleotide hybridization with light for photopharmacological applications. The nucleobase moiety provides attractive interaction for hybridization, whereas the photochromic moiety can alter the interaction upon irradiation due to conformational changes. Herein we report the synthesis of 2‐phenyldiazenyl‐substituted 2’‐deoxyadenosine (dAAzo) and 2’‐deoxyguanosine (dGAzo) and investigate their influence in a DNA context by UV/Vis absorption, fluorescence and CD spectroscopies. For comparison, the literature‐known azobenzene C‐nucleoside DNAzo was used as a reference system. It could be shown that photochromic purines improve overall hybridization affinity compared to azobenzene C‐nucleosides. In particular, 2’‐deoxyadenosine analogue dAAzo increases melting temperatures by 7.5 °C in the favored trans state with 86 % of the switching efficiency of the reference system.

Published

2020

9. Photoswitchable 2‐Phenyldiazenyl‐Purines and their Influence on DNA Hybridization

Author

Grebenovsky, Nikolai, primary, Hermanns, Volker, additional, and Heckel, Alexander, additional

Published

2020

10. A Robust, Broadly Absorbing Fulgide Derivative as a Universal Chemical Actinometer for the UV to NIR Region.

Author

Reinfelds, Matiss, Hermanns, Volker, Halbritter, Thomas, Wachtveitl, Josef, Braun, Markus, Slanina, Tomáš, and Heckel, Alexander

Subjects

*ACTINOMETERS, *VISIBLE spectra, *PHOTOCHEMISTRY

Abstract

A fulgide photoswitch is presented as a novel actinometer for a broad range of wavelengths from the UV to the NIR region (340–700 nm). It is easily accessible and has a robust photochemistry and high fatigue resistance. Its photophysics and photochemistry are described in detail. Quantum yields of photoswitching were measured for a series of wavelengths and standardized against known standards (ferrioxalate actinometry, calibrated photodiode). We also present a method for the precise determination of photoswitching quantum yields by global analysis of the whole spectra and an alternative quick and easy method for rapid determination of photon fluxes. [ABSTRACT FROM AUTHOR]

Published

2019

11. <hl>Zur Existenz von Rechtsinversen linearer partieller Differentialoperatoren mit konstanten Koeffizienten auf B[loc][p,k](Ω)-Räumen

Author

Hermanns, Volker

Subjects

500 Naturwissenschaften und Mathematik » 510 Mathematik » 510 Mathematik, ddc:5:51:510, Fachbereich C - Mathematik und Naturwissenschaften » Mathematik und Informatik » Dissertationen

Abstract

In dieser Arbeit betrachten wir Rechtsinversenprobleme für lineare partielle Differentialoperatoren mit konstanten Koeffizienten auf Hörmanders lokalisierten Bp,k-Räumen. Ein zentrales Hilfsmittel ist eine Folgenraumdarstellung dieser Räume. In this thesis we consider right inverse problems for linear partial differential operators with constant coefficients on Hörmander's localized Bp,k-spaces. A main tool is a sequence space representation of these spaces.

Published

2005

12. Inactivation of Competitive Decay Channels Leads to Enhanced Coumarin Photochemistry.

Author

Klimek R, Asido M, Hermanns V, Junek S, Wachtveitl J, and Heckel A

Subjects

Hydrogen Bonding, Photochemistry, Photolysis, Coumarins chemistry, Fluorescent Dyes

Abstract

In the development of photolabile protecting groups, it is of high interest to selectively modify photochemical properties with structural changes as simple as possible. In this work, knowledge of fluorophore optimization was adopted and used to design new coumarin- based photocages. Photolysis efficiency was selectively modulated by inactivating competitive decay channels, such as twisted intramolecular charge transfer (TICT) or hydrogen-bonding, and the photolytic release of the neurotransmitter serotonin was demonstrated. Structural modifications inspired by the fluorophore ATTO 390 led to a significant increase in the uncaging cross section that can be further improved by the simple addition of a double bond. Ultrafast transient absorption spectroscopy gave insights into the underlying solvent-dependent photophysical dynamics. The chromophores presented here are excellently suited as new photocages in the visible wavelength range due to their simple synthesis and their superior photochemical properties., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

13. Rethinking Uncaging: A New Antiaromatic Photocage Driven by a Gain of Resonance Energy.

Author

Hermanns V, Scheurer M, Kersten NF, Abdellaoui C, Wachtveitl J, Dreuw A, and Heckel A

Abstract

Photoactivatable compounds for example photoswitches or photolabile protecting groups (PPGs, photocages) for spatiotemporal light control, play a crucial role in different areas of research. For each application, parameters such as the absorption spectrum, solubility in the respective media and/or photochemical quantum yields for several competing processes need to be optimized. The design of new photochemical tools therefore remains an important task. In this study, we exploited the concept of excited-state-aromaticity, first described by N. Colin Baird in 1971, to investigate a new class of photocages, based on cyclic, ground-state-antiaromatic systems. Several thio- and nitrogen-functionalized compounds were synthesized, photochemically characterized and further optimized, supported by quantum chemical calculations. After choosing the optimal scaffold, which shows an excellent uncaging quantum yield of 28 %, we achieved a bathochromic shift of over 100 nm, resulting in a robust, well accessible, visible light absorbing, compact new photocage with a clean photoreaction and a high quantum product (ϵ⋅Φ) of 893 M -1  cm -1 at 405 nm., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2021