Your search keyword '"Urner, Lorenz M."' showing total 18 results

1. Intramolecular N−H⋅⋅⋅F Hydrogen Bonding Interaction in a Series of 4‐Anilino‐5‐Fluoroquinazolines: Experimental and Theoretical Characterization of Electronic and Conformational Effects

Author

Urner, Lorenz M, Lee, Ga Young, Treacy, Joseph W, Turlik, Aneta, Khan, Saeed I, Houk, KN, and Jung, Michael E

Subjects

Electronics, Fluorides, Fluorine, Hydrogen Bonding, Molecular Conformation, fluorine, hydrogen bonds, NMR spectroscopy, noncovalent interactions, quinazolines, Chemical Sciences, General Chemistry

Abstract

The 4-anilino-6,7-ethylenedioxy-5-fluoroquinazoline scaffold is presented as a novel model system for the characterization of the weak NH⋅⋅⋅F hydrogen bonding (HB) interaction. In this scaffold, the aniline NH proton is forced into close proximity with the nearby fluorine (dH,F ∼2.0 Å, ∠∼138°), and a through-space interaction is observed by NMR spectroscopy with couplings (1h JNH,F ) of 19±1 Hz. A combination of experimental (NMR spectroscopy and X-ray crystallography) and theoretical methods (DFT calculations) were used for the characterization of this weak interaction. In particular, the effects of conformational rigidity and steric compression on coupling were investigated. This scaffold was used for the direct comparison of fluoride with methoxy as HB acceptors, and the susceptibility of the NH⋅⋅⋅F interaction to changes in electron distribution and resonance was probed by preparing a series of molecules with different electron-donating or -withdrawing groups in the positions para to the NH and F. The results support the idea that fluorine can act as a weak HB acceptor, and the HB strength can be modulated through additive and linear electronic substituent effects.

Published

2022

2. Intramolecular N-H⋅⋅⋅F Hydrogen Bonding Interaction in a Series of 4-Anilino-5-Fluoroquinazolines: Experimental and Theoretical Characterization of Electronic and Conformational Effects.

Author

Urner, Lorenz M, Urner, Lorenz M, Young Lee, Ga, Treacy, Joseph W, Turlik, Aneta, Khan, Saeed I, Houk, KN, Jung, Michael E, Urner, Lorenz M, Urner, Lorenz M, Young Lee, Ga, Treacy, Joseph W, Turlik, Aneta, Khan, Saeed I, Houk, KN, and Jung, Michael E

Abstract

The 4-anilino-6,7-ethylenedioxy-5-fluoroquinazoline scaffold is presented as a novel model system for the characterization of the weak NH⋅⋅⋅F hydrogen bonding (HB) interaction. In this scaffold, the aniline NH proton is forced into close proximity with the nearby fluorine (dH,F ∼2.0 Å, ∠∼138°), and a through-space interaction is observed by NMR spectroscopy with couplings (1h JNH,F ) of 19±1 Hz. A combination of experimental (NMR spectroscopy and X-ray crystallography) and theoretical methods (DFT calculations) were used for the characterization of this weak interaction. In particular, the effects of conformational rigidity and steric compression on coupling were investigated. This scaffold was used for the direct comparison of fluoride with methoxy as HB acceptors, and the susceptibility of the NH⋅⋅⋅F interaction to changes in electron distribution and resonance was probed by preparing a series of molecules with different electron-donating or -withdrawing groups in the positions para to the NH and F. The results support the idea that fluorine can act as a weak HB acceptor, and the HB strength can be modulated through additive and linear electronic substituent effects.

Published

2022

3. Discovery of an Oral, Beyond-Rule-of-Five Mcl-1 Protein–Protein Interaction Modulator with the Potential of Treating Hematological Malignancies

Author

Romanov-Michailidis, Fedor, primary, Hsiao, Chien-Chi, additional, Urner, Lorenz M., additional, Jerhaoui, Soufyan, additional, Surkyn, Michel, additional, Miller, Bradley, additional, Vos, Ann, additional, Dominguez Blanco, Maria, additional, Bueters, Ruud, additional, Vinken, Petra, additional, Bekkers, Mariette, additional, Walker, David, additional, Pietrak, Beth, additional, Eyckmans, Werner, additional, Dores-Sousa, José Luís, additional, Joo Koo, Seong, additional, Lento, William, additional, Bauser, Marcus, additional, Philippar, Ulrike, additional, and Rombouts, Frederik J. R., additional

Published

2023

4. Intramolecular N−H⋅⋅⋅F Hydrogen Bonding Interaction in a Series of 4‐Anilino‐5‐Fluoroquinazolines: Experimental and Theoretical Characterization of Electronic and Conformational Effects

Author

Urner, Lorenz M., primary, Young Lee, Ga, additional, Treacy, Joseph W., additional, Turlik, Aneta, additional, Khan, Saeed I., additional, Houk, K. N., additional, and Jung, Michael E., additional

Published

2021

5. Nocturnal cerebral tissue oxygenation in lowlanders with chronic obstructive pulmonary disease travelling to an altitude of 2,590 m: Data from a randomised trial

Author

Furian, Michael, primary, Flueck, Deborah, additional, Scheiwiller, Philipp M., additional, Mueller‐Mottet, Séverine, additional, Urner, Lorenz M., additional, Latshang, Tsogyal D., additional, Ulrich, Silvia, additional, and Bloch, Konrad E., additional

Published

2021

6. Development of a Potent Brain-Penetrant EGFR Tyrosine Kinase Inhibitor against Malignant Brain Tumors

Author

Tsang, Jonathan E., primary, Urner, Lorenz M., additional, Kim, Gyudong, additional, Chow, Kingsley, additional, Baufeld, Lynn, additional, Faull, Kym, additional, Cloughesy, Timothy F., additional, Clark, Peter M., additional, Jung, Michael E., additional, and Nathanson, David A., additional

Published

2020

7. Automatic Processing of Nasal Pressure Recordings to Derive Continuous Side-Selective Nasal Airflow and Conductance

Author

Urner, Lorenz M, Kohler, Malcolm, Bloch, Konrad E, Urner, Lorenz M, Kohler, Malcolm, and Bloch, Konrad E

Abstract

Monitoring of nasal airflow and conductance provides crucial insights into the variable nature of the nasal resistance, nasal cycle, and ventilation. We have previously shown that tracking of pressure swings at the entrance of each nasal passage by a dedicated catheter system allows bilateral monitoring of nasal airflow over several hours but requires complex linearization and calibration procedures. Side-selective nasal conductance is derived from linearized and calibrated bilateral nasal pressure swings and corresponding driving pressure, i.e., the transnasal pressure difference derived from an epipharyngeal catheter. Manual analysis of such recordings and computation of instantaneous conductance as the ratio of flow to driving pressure over several hours is extremely tedious, time consuming, and therefore not suitable for routine practice. To address this point, we developed and validated a software for automatic processing of nasal and epipharyngeal pressure recordings as a convenient tool for studying the nasal ventilation. The software applies an eight-parameter logistic model to transform nasal pressure swings into side-selective estimates of airflow that are calibrated and further processed along with epipharyngeal pressure to compute bilateral nasal conductance over consecutive, user-selectable time-segments. Essential processing steps include (1) offset correction, (2) low-pass filtering, (3) cross-correlation, (4) cutting of signals into individual breaths, (5) normalization, (6) ensemble averaging to obtain a mean pressure signal for each nasal side, (7) derivation of airflow, conductance, and further variables. Among four evaluated algorithms for calculation of nasal conductance, the derivative of the airflow-pressure curve according to the mean value theorem agreed closest with the gold standard, i.e., the conductance derived from airflow measured by a pneumotachograph attached to an oral-nasal mask and transnasal pressure. In combination with the nasa

Published

2019

8. Automatic Processing of Nasal Pressure Recordings to Derive Continuous Side-Selective Nasal Airflow and Conductance

Author

Urner, Lorenz M., primary, Kohler, Malcolm, additional, and Bloch, Konrad E., additional

Published

2019

9. Systematic Variation of Cyanobuta-1,3-dienes and Expanded Tetracyanoquinodimethane Analogues as Electron Acceptors in Photoactive, Rigid Porphyrin Conjugates

Author

Urner Lorenz M., Sekita Michael, Trapp Nils, Schweizer W. Bernd, Wörle Michael, Gisselbrecht Jean-Paul, Boudon Corinne, Guldi Dirk M., and Diderich. François

Published

2015

10. Porphyrin Donor and Tunable Push-Pull Acceptor Conjugates-Experimental Investigation of Marcus Theory

Author

Reekie, Tristan A., primary, Sekita, Michael, additional, Urner, Lorenz M., additional, Bauroth, Stefan, additional, Ruhlmann, Laurent, additional, Gisselbrecht, Jean-Paul, additional, Boudon, Corinne, additional, Trapp, Nils, additional, Clark, Timothy, additional, Guldi, Dirk M., additional, and Diederich, François, additional

Published

2017

11. Systematic Variation of Cyanobuta‐1,3‐dienes and Expanded Tetracyanoquinodimethane Analogues as Electron Acceptors in Photoactive, Rigid Porphyrin Conjugates

Author

Urner, Lorenz M., primary, Sekita, Michael, additional, Trapp, Nils, additional, Schweizer, W. Bernd, additional, Wörle, Michael, additional, Gisselbrecht, Jean‐Paul, additional, Boudon, Corinne, additional, Guldi, Dirk M., additional, and Diederich, François, additional

Published

2014

12. Cyanobuta‐1,3‐dienes as Novel Electron Acceptors for Photoactive Multicomponent Systems

Author

Tancini, Francesca, primary, Monti, Filippo, additional, Howes, Kara, additional, Belbakra, Abdelhalim, additional, Listorti, Andrea, additional, Schweizer, W. Bernd, additional, Reutenauer, Philippe, additional, Alonso‐Gómez, José‐Lorenzo, additional, Chiorboli, Claudio, additional, Urner, Lorenz M., additional, Gisselbrecht, Jean‐Paul, additional, Boudon, Corinne, additional, Armaroli, Nicola, additional, and Diederich, François, additional

Published

2013

13. Ligand-switchable Substrates for a Ubiquitin-Proteasome System

Author

Egeler, Emily L., primary, Urner, Lorenz M., additional, Rakhit, Rishi, additional, Liu, Corey W., additional, and Wandless, Thomas J., additional

Published

2011

14. Cyanobuta-1,3-dienes as Novel Electron Acceptors for Photoactive Multicomponent Systems.

Author

Tancini, Francesca, Monti, Filippo, Howes, Kara, Belbakra, Abdelhalim, Listorti, Andrea, Schweizer, W. Bernd, Reutenauer, Philippe, Alonso‐Gómez, José‐Lorenzo, Chiorboli, Claudio, Urner, Lorenz M., Gisselbrecht, Jean‐Paul, Boudon, Corinne, Armaroli, Nicola, and Diederich, François

Subjects

DIOLEFINS, ELECTROPHILES, CHARGE exchange, CHEMICAL synthesis, STEADY-state flow, LUMINESCENCE spectroscopy

Abstract

The synthesis, electrochemical, and photophysical properties of five multicomponent systems featuring a ZnII porphyrin (ZnP) linked to one or two anilino donor-substituted pentacyano- (PCBD) or tetracyanobuta-1,3-dienes (TCBD), with and without an interchromophoric bridging spacer (S), are reported: ZnP-S-PCBD ( 1), ZnP-S-TCBD ( 2), ZnP-TCBD ( 3), ZnP-(S-PCBD)2 ( 4), and ZnP-(S-TCBD)2 ( 5). By means of steady-state and time-resolved absorption and luminescence spectroscopy (RT and 77 K), photoinduced intramolecular energy and electron transfer processes are evidenced, upon excitation of the porphyrin unit. In systems equipped with the strongest acceptor PCBD and the spacer ( 1, 4), no evidence of electron transfer is found in toluene, suggesting ZnP→PCBD energy transfer, followed by ultrafast (<10 ps) intrinsic deactivation of the PCBD moiety. In the analogous systems with the weaker acceptor TCBD ( 2, 5), photoinduced electron transfer occurs in benzonitrile, generating a charge-separated (CS) state lasting 2.3 μs. Such a long lifetime, in light of the high Gibbs free energy for charge recombination (Δ GCR=−1.39 eV), suggests a back-electron transfer process occurring in the so-called Marcus inverted region. Notably, in system 3 lacking the interchromophoric spacer, photoinduced charge separation followed by charge recombination occur within 20 ps. This is a consequence of the close vicinity of the donor-acceptor partners and of a virtually activationless electron transfer process. These results indicate that the strongly electron-accepting cyanobuta-1,3-dienes might become promising alternatives to quinone-, perylenediimide-, and fullerene-derived acceptors in multicomponent modules featuring photoinduced electron transfer. [ABSTRACT FROM AUTHOR]

Published

2014

15. Cyanobuta-1,3-dienes as Novel Electron Acceptors for Photoactive Multicomponent Systems

Author

Francesca Tancini, Kara Howes, W. Bernd Schweizer, Andrea Listorti, Jean-Paul Gisselbrecht, José Lorenzo Alonso-Gómez, Abdelhalim Belbakra, Corinne Boudon, Filippo Monti, Claudio Chiorboli, François Diederich, Philippe Reutenauer, Nicola Armaroli, Lorenz M. Urner, Tancini, Francesca, Monti, Filippo, Howes, Kara, Belbakra, Abdelhalim, Listorti, Andrea, Schweizer, W. Bernd, Reutenauer, Philippe, Alonso Gómez, José Lorenzo, Chiorboli, Claudio, Urner, Lorenz M, Gisselbrecht, Jean Paul, Boudon, Corinne, Armaroli, Nicola, and Diederich, François

Subjects

chemistry.chemical_classification, electron acceptors, Chemistry, cyanobuta-1, Organic Chemistry, General Chemistry, Electron acceptor, porphyrins, Photochemistry, 7. Clean energy, Acceptor, Porphyrin, Catalysis, Photoinduced electron transfer, photoinduced electron transfer, Electron transfer, chemistry.chemical_compound, Benzonitrile, photoinduced energy transfer, singlet oxygen luminescence, Photoinduced charge separation, Intramolecular force, 3-dienes

Abstract

The synthesis, electrochemical, and photophysical properties of five multicomponent systems featuring a Zn(II) porphyrin (ZnP) linked to one or two anilino donor-substituted pentacyano- (PCBD) or tetracyanobuta-1,3-dienes (TCBD), with and without an interchromophoric bridging spacer (S), are reported: ZnP-S-PCBD (1), ZnP-S-TCBD (2), ZnP-TCBD (3), ZnP-(S-PCBD)2 (4), and ZnP-(S-TCBD)2 (5). By means of steady-state and time-resolved absorption and luminescence spectroscopy (RT and 77 K), photoinduced intramolecular energy and electron transfer processes are evidenced, upon excitation of the porphyrin unit. In systems equipped with the strongest acceptor PCBD and the spacer (1, 4), no evidence of electron transfer is found in toluene, suggesting ZnP→PCBD energy transfer, followed by ultrafast (

Published

2013

16. Intramolecular N-H⋅⋅⋅F Hydrogen Bonding Interaction in a Series of 4-Anilino-5-Fluoroquinazolines: Experimental and Theoretical Characterization of Electronic and Conformational Effects.

Author

Urner LM, Young Lee G, Treacy JW, Turlik A, Khan SI, Houk KN, and Jung ME

Subjects

Electronics, Hydrogen Bonding, Molecular Conformation, Fluorides, Fluorine

Abstract

The 4-anilino-6,7-ethylenedioxy-5-fluoroquinazoline scaffold is presented as a novel model system for the characterization of the weak NH⋅⋅⋅F hydrogen bonding (HB) interaction. In this scaffold, the aniline NH proton is forced into close proximity with the nearby fluorine (d H,F ∼2.0 Å, ∠∼138°), and a through-space interaction is observed by NMR spectroscopy with couplings ( 1h J NH,F ) of 19±1 Hz. A combination of experimental (NMR spectroscopy and X-ray crystallography) and theoretical methods (DFT calculations) were used for the characterization of this weak interaction. In particular, the effects of conformational rigidity and steric compression on coupling were investigated. This scaffold was used for the direct comparison of fluoride with methoxy as HB acceptors, and the susceptibility of the NH⋅⋅⋅F interaction to changes in electron distribution and resonance was probed by preparing a series of molecules with different electron-donating or -withdrawing groups in the positions para to the NH and F. The results support the idea that fluorine can act as a weak HB acceptor, and the HB strength can be modulated through additive and linear electronic substituent effects., (© 2021 Wiley-VCH GmbH.)

Published

2022

17. Porphyrin Donor and Tunable Push-Pull Acceptor Conjugates-Experimental Investigation of Marcus Theory.

Author

Reekie TA, Sekita M, Urner LM, Bauroth S, Ruhlmann L, Gisselbrecht JP, Boudon C, Trapp N, Clark T, Guldi DM, and Diederich F

Abstract

We report on a series of electron donor-acceptor conjugates incorporating a Zn II -porphyrin-based electron donor and a variety of non-conjugated rigid linkers connecting to push-pull chromophores as electron acceptors. The electron acceptors comprize multicyanobutadienes or extended tetracyanoquinodimethane analogues with first reduction potentials ranging from -1.67 to -0.23 V vs. Fc + /Fc in CH 2 Cl 2 , which are accessible through a final-step cycloaddition-retroelectrocyclization (CA-RE) reaction. Characterization of the conjugates includes electrochemistry, spectroelectrochemistry, DFT calculations, and photophysical measurements in a range of solvents. The collected data allows for the construction of multiple Marcus curves that consider electron-acceptor strength, linker length, and solvent, with data points extending well into the inverted region. The enhancement of electron-vibration couplings, resulting from the rigid spacers and, in particular, multicyano-groups in the conformationally highly fixed push-pull acceptor chromophores affects the charge-recombination kinetics in the inverted region drastically., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

18. Cyanobuta-1,3-dienes as novel electron acceptors for photoactive multicomponent systems.

Author

Tancini F, Monti F, Howes K, Belbakra A, Listorti A, Schweizer WB, Reutenauer P, Alonso-Gómez JL, Chiorboli C, Urner LM, Gisselbrecht JP, Boudon C, Armaroli N, and Diederich F

Abstract

The synthesis, electrochemical, and photophysical properties of five multicomponent systems featuring a Zn(II) porphyrin (ZnP) linked to one or two anilino donor-substituted pentacyano- (PCBD) or tetracyanobuta-1,3-dienes (TCBD), with and without an interchromophoric bridging spacer (S), are reported: ZnP-S-PCBD (1), ZnP-S-TCBD (2), ZnP-TCBD (3), ZnP-(S-PCBD)2 (4), and ZnP-(S-TCBD)2 (5). By means of steady-state and time-resolved absorption and luminescence spectroscopy (RT and 77 K), photoinduced intramolecular energy and electron transfer processes are evidenced, upon excitation of the porphyrin unit. In systems equipped with the strongest acceptor PCBD and the spacer (1, 4), no evidence of electron transfer is found in toluene, suggesting ZnP→PCBD energy transfer, followed by ultrafast (<10 ps) intrinsic deactivation of the PCBD moiety. In the analogous systems with the weaker acceptor TCBD (2, 5), photoinduced electron transfer occurs in benzonitrile, generating a charge-separated (CS) state lasting 2.3 μs. Such a long lifetime, in light of the high Gibbs free energy for charge recombination (ΔG(CR)=-1.39 eV), suggests a back-electron transfer process occurring in the so-called Marcus inverted region. Notably, in system 3 lacking the interchromophoric spacer, photoinduced charge separation followed by charge recombination occur within 20 ps. This is a consequence of the close vicinity of the donor-acceptor partners and of a virtually activationless electron transfer process. These results indicate that the strongly electron-accepting cyanobuta-1,3-dienes might become promising alternatives to quinone-, perylenediimide-, and fullerene-derived acceptors in multicomponent modules featuring photoinduced electron transfer., (Copyright © 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014