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Thomas Renger

Univ.-Prof. Dr. Thomas Renger

Univ.-Prof. Dr. Thomas Renger (Back to Team Overview)
Head of the Institute

P212
Phone: +43 732 2468 5151
Fax: +43 732 2468 5152
thomas.renger(/\t)jku.at

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Publikationen

Publikationstyp: Aufsatz / Paper in SCI-Expanded-Zeitschrift

Sobakinskaya E., Schmidt am Busch M., Renger T.
Theory of FRET 'Spectroscopic Ruler' for Short Distances: Application to Polyproline, in: Physical Chemistry B, Number 122, Page(s) 54-67, 2018.
Müh F., Plöckinger M., Renger T.
Electrostatic Asymmetry in the Reaction Center of Photosystem II, in: JOURNAL OF PHYSICAL CHEMISTRY LETTERS, Volume 8, Number 4, Page(s) 850-858, 2017.
Lindorfer D., Müh F., Renger T.
Origin of non-conservative circular dichroism of the CP29 antenna complex of photosystem II, in: PHYSICAL CHEMISTRY CHEMICAL PHYSICS, Volume 19, Number 11, Page(s) 7524-7536, 2017.
Reimers J., Biczysko M., Bruce D., Coker D., Frankcombe T., Hashimoto H., Hauer J., Jankowiak R., Kramer T., Linnanto J., Mamedov F., Müh F., Rätsep M., Renger T., Styring S., Wan J., Wang Z., Wang-Otomo Z., Weng Y., Yang C., Zhang J., Freiberg A., Krauszs E.
Challenges facing an understanding of the nature of low-energy excited states in photosynthesis, in: BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS, Volume 1857, Number 9, Page(s) 1627-1640, 2016.
Adolphs J., Berrer M., Renger T.
Hole-Burning Spectroscopy on Excitonically Coupled Pigments in Proteins: Theory Meets Experiment, in: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, Volume 138, Number 9, Page(s) 2993-3001, 2016.
Hall J., Renger T., Müh F., Krauszs E.
The lowest-energy chlorophyll of photosystem II is adjacent to the peripheral antenna: Emitting states of CP47 assigned via circularly polarized luminescence, in: BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS, Volume 1857, Number 9, Page(s) 1580-1593, 2016.
Kaucikas M., Maghlaoui K., Barber J., Renger T., Van Thor J.
Ultrafast infrared observation of exciton equilibration from oriented single crystals of photosystem II, in: Nature Communications, Volume 7, Number 13977, 2016.
Müh F., Plöckinger M., Ortmayer H., Schmidt am Busch M., Lindorfer D., Adolphs J., Renger T.
The quest for energy traps in the CP43 antenna of photosystem II, in: Journal of photochemistry and photobiology. B, Biology, Volume 152, Page(s) 286-300, 2015.
Dinh T., Renger T.
Towards an exact theory of linear absorbance and circular dichroism of pigment-protein complexes: Importance of non-secular contributions, in: Journal of Chemical Physics, Volume 142, Number 3, Page(s) 034104, 2015.
Skandary S., Hussels M., Konrad A., Renger T., Müh F., Bommer M., Zouni A., Meixner A., Brecht M.
Variation of Exciton-Vibrational Coupling in Photosystem II Core Complexes from Thermosynechococcus elongatus as revealed by Single-Molecule Spectroscopy, in: JOURNAL OF PHYSICAL CHEMISTRY B, Volume 119, Number 11, Page(s) 4203-4210, 2015.
Collette F., Renger T., Schmidt am Busch M.
Revealing the Functional States in the Active Site of BLUF Photoreceptors from Electrochromic Shift Calculations, in: The Journal of Physical Chemistry B, Volume 118, Number 38, Page(s) 11109-11119, 2014.
Adolphs J., Müh F., Madjet M., Renger T.
Calculation of pigment transition energies in the FMO protein: From simplicity to complexity and back, in: Photosynthesis Research, Volume 95, Number 2-3, 2008.
Müh F., Madjet M., Adolphs J., Abdurahman A., Rabenstein B., Ishikita H., Knapp E., Renger T.
(alpha)-helices direct excitation energy flow in the Fenna-Matthews Olson protein, in: Proc. Natl. Acad. Sci. USA, Volume 104, Number 43, Page(s) 104 (43): 16862-7, 2007.
Müh F., Madjet M., Adolphs J., Renger T.
Structure-based calculation of pigment transition energies in light-harvesting antennae, in: Photosynthesis Research, Volume 91, Number 2-3, 2007.
Adolphs J., Renger T., Müh F., Madjet M.
Theory of optical spectra - How proteins control excitation energy transfer, in: Photosynthesis Research, Volume 91, Number 2-3, 2007.

Publikationstyp: Aufsatz / Paper in SSCI-Zeitschrift

Megow J., Koerzdorfer T., Renger T., Sparenberg M., Blumstengel S., May V.
Reply to "Comment on 'Calculating Optical Absorption Spectra of Thin Polycrystalline Organic Films: Structural Disorder and Site-Dependent van der Waals Interaction", in: JOURNAL OF PHYSICAL CHEMISTRY C, Volume 119, Number 32, Page(s) 18818-18820, 2015.
Megow J., Roehr M., Schmidt am Busch M., Renger T., Mitric R., Kirstein S., Rabe J., May V.
Site-dependence of van der Waals interaction explains exciton spectra of double-walled tubular J-aggregates, in: PHYSICAL CHEMISTRY CHEMICAL PHYSICS, Volume 17, Number 10, Page(s) 6741-6747, 2015.
Jurinovich S., Viani L., Prandi I., Renger T., Mennucci B.
Towards an ab initio description of the optical spectra of light-harvesting antennae: application to the CP29 complex of photosystem II, in: PHYSICAL CHEMISTRY CHEMICAL PHYSICS, Volume 17, Number 22, Page(s) 14405-14416, 2015.
Müh F., Lindorfer D., Schmidt am Busch M., Renger T.
Towards a structure-based exciton Hamiltonian for the CP29 antenna of photosystem II, in: Phys.Chem.Chem.Phys., Volume 16, Number 24, Page(s) 11848-11863, 2014.
Shibata Y., Nishi S., Kawakami K., Shen J., Renger T.
Photosystem II Does Not Possess a Simple Excitation Energy Funnel: Time-Resolved Fluorescence Spectroscopy Meets Theory, in: J. Am. Chem. Soc., Volume 135, Number 18, 2013.
Haslmayr J., Renger T.
Qualitative change of character of dispersive interaction with intermolecular distance, in: J. Chem. Phys., Volume 139, Number 4, Page(s) 044103, 2013.
Renger T., Madjet M., Schmidt am Busch M., Adolphs J., Müh F.
Structure-based modeling of energy transfer in photosynthesis, in: Photosynthesis Research, Volume 116, Number 2-3, 2013.
Renger T., Müh F.
Understanding photosynthetic light-harvesting: a bottom up theoretical approach, in: Phys.Chem.Chem.Phys., Volume 15, Number 10, 2013.
Schoth M., Richter M., Knorr A., Renger T.
Line narrowing of excited.state transitions in nonlinear polarization spectroscopy: application to water-soluble chlorophyll-binding protein, in: Physical Review Letters, Volume 108, Number 17, Page(s) 178104, 2012.
Renger T., Klinger A., Steinecker F., Schmidt am Busch M., Numata J., Müh F.
Normal Mode Analysis of the Spectral Density of the Fenna-Matthews-Olson Light-Harvesting Protein: How the Protein Dissipates the Excess Energy of Excitons, in: Journal of Physical Chemistry B, Volume 116, Number 50, Page(s) 14565-14580, 2012.
Müh F., Renger T.
Refined structure-based simulation of plant light-harvesting complex II: Linear optical spectra of trimers and aggregates, in: Biochimica et Biophysica Acta-Bioenergetics, Volume 1817, Number 8, Page(s) 1446-1460, 2012.
Müh F., Madjet M., Renger T.
Structure-based simulation of linear optical spectra of the CP43 core antenna of photosystem II, in: Photosynthesis Research, Volume 111, Number 1-2, Page(s) 87-101, 2012.
Renger T., Müh F.
Theory of excitonic couplings in dielectric media Foundation of Poisson-TrEsp method and application to photosystem I trimers, in: Photosynthesis Research, Volume 111, Number 1-2, Page(s) 47-52, 2012.
Renger T., Madjet M., Knorr A., Müh F.
How the molecular structure determines the flow of excitation energy in plant light-havesting complex II, in: J. Plant Physiol., Volume 168, Number 12, 2011.
Renger T., Schlodder E.
Optical properties, excitation energy and primary charge transfer in photosystem II: Theory meets experiment, in: Journal of Photochemistry and Photobiology B-Biology, Volume 104, 2011.
Schmidt am Busch M., Müh F., Madjet M., Renger T.
The Eighth Bacteriochlorophyll Completes the Excitation Energy Funnel in the FMO Protein, in: J. Phys. Chem. Lett., Volume 2, Number 2, 2011.
Renger G., Pieper J., Theiss C., Trostmann I., Paulsen H., Renger T., Eichler H., Schmitt F.
Water soluble chlorophyll binding protein of higher plants: A most suitable model system for basic analyses of pigment-pigment and pigment-protein interactions in chlorophyll protein complexes, in: Journal of Plant Physiology, Volume 168, Page(s) 1462-1472, 2011.
Madjet M., Renger T., Hopper D., Mc Cune M., Chakraborty H., Rost J., Manson S.
Photoionization of Xe inside C-60: Atom-fullerene hybridization, giant cross-section enhancement, and correlation confinement resonances, in: Physical Review, Volume 81, Number 013202, Page(s) Seitenanzahl nicht angegeben, 2010.
Müh F., Madjet M., Renger T.
Structure-based identification of energy sinks in plant light-harvesting complex II, in: Journal of Physical Chemistry B, Volume 114, Number 42, 2010.
Adolphs J., Müh F., Madjet M., Schmidt am Busch M., Renger T.
Strucure-based calculations of optical spectra of photosystem I suggest an asymmetric light-harvesting process, in: J. Am. Chem. Soc., Volume 132, Number 10, 2010.
Müh F., Renger T., Zouni A.
Crystal structure of cyanobacterial photosystem II at 3.0 angstrom resolution: A closer look at the antenna system and the small membrane-intrinsic subunits, in: Plant Physiology and Biochemistry, Volume 46, 2008.
Renger T., Grundkötter B., Madjet M., Müh F.
Theory of solvatochromic shifts in nonpolar solvents reveals a new spectroscopic rule, in: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, Volume 105, Number 36, 2008.

Publikationstyp: Aufsatz / Paper in sonstiger referierter Fachzeitschrift

Renger T., Schlodder E.
Primary photophysical processes in photosystem II: Bridging the gap between crystal structure and optical spectr, 2010.
Madjet M., Müh F., Renger T.
Deciphering the Influence of Short-Range Electronic Couplings on Optical Properties of Molecular Dimers: Application to ”Special Pairs” in Photosynthesis, in: Journal of Physical Chemistry B, Volume 113, Number 37, 2009.
Abdurahman A., Renger T.
Density functional studies of iron-porphyrin cation with small ligands X (X: O, CO, NO, O2, N2, H2O, N2O, CO2, 2009.
Chakraborty H., Madjet M., Renger T., Rost J., Manson S.
Photoionization of hybrid states in endohedral fullerenes, 2009.
Renger T.
Theory of excitation energy transfer: from structure to function, 2009.
Renger T., Madjet M., Müh F., Trostmann I., Schmitt F., Theiss C., Paulsen H., Eichler H., Knorr A., Renger G.
Thermally activated superradiance and intersystem crossing in the water-soluble chlorophyll binding protein, in: Journal of Physical Chemistry B, Volume 113, Number 29, 2009.
Richter M., Renger T., Knorr A.
A Bloch equation approach to intensity dependent optical spectra of light harvesting complex II pump-probe spectra, 2008.
Müh F., Renger T., Zouni A.
Crystal structure of cyanobacterial photosystem II at 3.0 °A resolution: A closer look at the antenna system and the small membrane-intrinsic, 2008.
Renger T., Renger G.
Excited State Dynamics in Recombinant Water-Soluble Chlorophyll Proteins (WSCP) from Cauliflower Investigated by Transient Fluorescence Spectroscopy, 2008.
Raszewski G., Renger T.
Light-harvesting in photosystem II core complexes is limited by the transfer to the trap: Can the core complex turn into a photoprotective mode ?, 2008.
Zhu H., May V., Röder B., Madjet M., Renger T.
Linear Absorbance of the Pheophorbid-a DAB dendrimer P4 in Solution: Computational studies using a mixed qunatum classical methodology, 2008.
Renger T.
New and Notable: A new spectroscopic tool for analyzing excitonic structure and dynamics in pigment-protein complexes, 2008.
Renger G., Renger T.
Photosystem II: The machinery of photosanthetic water splitting, 2008.
Schlodder E., Coleman W., Nixon P., Cohen R., Renger T., Diner B.
Site-Directed Mutations at D1-His198 and D1-Thr179 of Photosystem II in Synechocystis sp. PCC 6803: Deciphering the spectral properties of the PSII Reaction Center, 2008.
Schlodder E., Renger T., Raszewski G., Coleman W., Nixon P., Cohen R., Diner B.
Site-Directed Mutations at D1-Thr179 of Photosystem II in Synechocystis sp. PCC 6803 modify the spectral properties of the accessory chlorophyll in the D1-branch of the reaction center, 2008.
Raszewski G., Diner B., Schlodder E., Renger T.
Spectral properties of reaction center pigments in intact photosystem II reaction centers: Revision of the multimer model, 2008.
Renger T., Schlodder E.
The Primary Electron Donor of Photosystem II of the Cyanobacterium Acaryochloris Marina is a Chlorophyll d and the Water Oxidation is driven by a Chlorophyll a / Chlorophyll d Heterodimer, 2008.
Schlodder E., Renger T.
The Primary Electron Donor of Photosystem II of the Cyanobacterium Acaryochloris Marina is a Chlorophyll d and the Water Oxidation is driven by a Chlorophyll a / Chlorophyll d Heterodimer, 2008.
Renger T., Grundkötter B., Madjet M., Müh F.
Theory of solvatochromic shifts in non-polar solvents reveals a new spectroscopic rule, 2008.
Renger T., Kühn O.
Molekulare Energietrichter, 2007.
Richter M., Renger T., Renger G., Knorr A.
Non-perturbative theory for the optical response to strong light of the light harvesting complex LHC II of plants: saturation of the fluorescence quantum yield, 2007.
Theiss C., Trostmann I., Andree S., Schmitt F., Renger T., Eichler H., Paulsen H., Renger G.
Pigment-pigment and pigment-protein interactions in recombinant water-soluble chlorophyll proteins (WSCP) from cauliflower, 2007.
Theiss C., Trostmann I., Renger T., Madjet M., Andree S.
Pigment-pigment and pigment-protein interactions in recombinant water-soluble chlorophyll proteins (WSCP) from cauliflower, 2007.
Renger T., Trostmann I., Theiss C., Madjet M., Richter M., Paulsen H., Eichler H., Knorr A., Renger G.
Refinement of a structural model of a pigment-protein complex by accurate optical lineshape theory and experiments, 2007.
Zhu H., May V., Röder B., Madjet M., Renger T.
The Pheophorbid-a DAB dendrimer P4 in Solution: MD-Simulations based studies of exciton states, 2007.
May V., Zhu H., Renger T., Madjet M.
The Pheophorbid-a DAB dendrimer P4 in Solution: MD-Simulations based studies of exciton states, 2007.
Adolphs J., Renger T.
How proteins trigger excitation energy transfer in the FMO complex of green sulfur bacteria, in: Biophys. J., Volume 91, Number 8, Page(s) 2778-97, 2006.
Madjet M., Abdurahman A., Renger T.
Interpigment Coulomb couplings from ab—initio transition charges: Application to strongly coupled pigments in photosynthetic antennae and reaction centers, 2006.
Richter M., Ahn K., Knorr A., Schliwa A., Bimberg D., Madjet M., Renger T.
Theory of Excitation Transfer in Coupled Nanostructures - From Quantum Dots to Light Harvesting Complexes, 2006.
Renger T., Raszewski G., Saenger W.
Theory of optical spectra of photosystem II reaction centers: Location of the triplet state and the identity of the primary electron donor, 2005.
Raszewski G., Saenger W., Renger T.
Theory of optical spectra of photosystem II reaction centers: Location of the triplet state and the identity of the primary electron donor, 2005.
Renger T.
Theory of Optical Spectra Involving Charge Transfer States: Dynamic Localization Predicts a Temperature Dependent Optical Band Shift, 2004.
Renger T., Marcus R.
Variable—Range Hopping Electron Transfer through Disordered Bridge States: Application to DNA, 2003.
Renger T., Marcus R.
On the Relation of Protein Dynamics and Exciton-Relaxation in Pigment-Protein Complexes: An Estimation of the Spectral Density and a Theory for the Calculation of Optical Spectra, 2002.
Renger T., Marcus R.
Photophysical Properties of PS-2 Reaction Centers and a Discrepancy in Exciton Relaxation Times, 2002.
Schütze J., Brüggemann B., Renger T., May V.
Theory of linear absorption spectra of biological and non-biological chromophore complexes, 2001.
Renger T., May V., Kühn O.
Ultrafast Excitation Energy Transfer Dynamics in Photosynthetic Pigment-Protein Complexes, 2001.
Renger T., May V., Sundström V., Kühn O.
Anharmonic Oscillator Approach to the Exciton-Exciton Annihilation Dynamics in Molecular Aggregates, 2000.
May V., Scheller R., Renger T.
Comparative Theoretical Studies on Exciton Dynamics in Biological and Artificial Chromophore Complexes, 2000.
May V., Renger T.
Simulations of Frequency Domain Spectra: Structure-Function Relationships in Photosynthetic Pigment-Protein Complexes, 2000.
Renger T., May V., Voigt J., Kühn O.
Theory of Pump-Probe-Spectroscopy on the Light Harvesting Complex of Photosystem II, 2000.
May V., Renger T.
Theory of Sub-Picosecond Exciton Motion in Photosynthetic Antenna Systems, 2000.
Schirrmeister D., Neugebauer F., Renger T., May V.
Photo-induced ultrafast phenomena in molecular complexes, 1998.
Renger T., May V.
Ultrafast Exciton Motion in Photosynthetic Antenna Complexes: The FMO-Complex, 1998.
Kühn O., Renger T., May V., Voigt J., Pullerits T., Sundström V.
Exciton-Vibrational Coupling in Photosynthetic Antenna Complexes: Theory meets Experiment, 1997.
Renger T., May V.
Influence of higher excited Singlet States on ultrafast Exciton Motion in Pigment-Protein Complexes, 1997.
Renger T., May V.
Multiple Exciton Effects in Molecular Aggregates: Application to a Photosynthetic Antenna Complex, 1997.
May V., Renger T.
Multiple Exciton Effects in Molecular Aggregates: Application to a Photosynthetic Antenna Complex, 1997.
Renger T., May V.
Theory of Multiple Exciton Effects in the Photosynthetic Antenna Complex LHC-II, 1997.
Voigt J., Renger T., Schödel R., Schrötter T., Pieper J., Redlin H.
Excitonic Effects in the Light-Harvesting Chl a/b-Protein Complex of Higher Plants, 1996.
Kühn O., Renger T., May V.
On the Theory of Ultrafast Exciton Transfer Dynamics: The Chlorophyll a/b Dimer, 1996.
Renger T., Kühn O., Voigt J., May V.
Theory of Pump-Probe-Spectroscopy on the Light Harvesting Complex of Photosystem II, 1996.

Publikationstyp: Aufsatz / Paper in Tagungsband (referiert)

Schoth M., Richter M., Knorr A., Renger T.
Theory of line narrowing in Nonlinear Polarization Spectroscopy, in: IEEE Photonics Soc. (Eds.): 2012 Conference on Lasers and Electro-Optics, 2012.
Marcus R., Beratan D., Nitzan A., Kauffmann H., Knoester J., Renger T., Harris R., Olaya-Castro A., Robb M., Cogdell R., Fleming G.
Discussions on Session 2B: Quantum effects in chemistry, in: Elsevier Science BV (Eds.): Procedia Chemistry, Series Procedia Chemistry, Volume 3, Number 1, 2011.
Nitzan A., Vedral V., Mukamel S., Whaley K., Renger T., Engel G., Cogdell R., Klinman J., Kosloff R.
Discussions on Session 3A: Quantum dynamic theory, in: Elsevier Science BV (Eds.): Procedia Chemistry, Series Procedia Chemistry, Volume 3, Number 1, 2011.
Harris R., Vedral V., Hore P., Lekkerkerker H., Olaya-Castro A., van Grondelle R., Miller R., Nelson K., Mukamel S., Renger T., Aspuru-Guzik A.
Discussions on Session 3B: Quantum dynamic theory, in: Elsevier Science BV (Eds.): Procedia Chemistry, Series Procedia Chemistry, Volume 3, Number 1, 2011.
Cogdell R., Renger T., van Grondelle R., Rice S., Engel G., Olaya-Castro A., Cheng Y., Mukamel S., Pullerits T., Harris R., Ratner M., Miller R., Nelson K., Marcus R., Fleming G.
Discussions on Session 4A: Quantum effects in biology: photosynthesis, in: Elsevier Science BV (Eds.): Procedia Chemistry, Series Procedia Chemistry, Volume 3, Number 1, 2011.
Renger T.
Modeling of photosynthetic light-harvesting: From structure to function, in: Elsevier Science BV (Eds.): Procedia Chemistry, Series Procedia Chemistry, Volume 3, Number 1, 2011.
Richter M., Carmele A., Renger T., Knorr A.
Optical Bloch equantions for light harvesting complexes: pump probe spectra and saturation dynamics at high light intensity excitation, in: 2009 Conference on Lasers & Electro-Optics Europe & 11th European Quantum Electronics Conference (CLEO/EQEC), 2009.
Schlodder E., Bordignon E., Renger T.
Spectral properties of the PS1 reaction center from T. elongatus: Structure-based modeling of optical spectra in Photosynthesis: Fundamental aspects to global perspectives, Proceedings of the 13th International Congress on Photosynthesis, in: Spectral properties of the PS1 reaction center from T. elongatus: Structure-based modeling of optical spectra in Photosynthesis: Fundamental aspects to global perspectives, Proceedings of the 13th Int, 2004.
Raszewski G., Saenger W., Renger T.
Theory of optical spectra of photosystem II reaction centers: From structure to function in Photosynthesis: Fundamental aspects to global perspectives, Proceedings of the 13th International Congress on Photosynthesis, in: Theory of optical spectra of photosystem II reaction centers: From structure to function in Photosynthesis: Fundamental aspects to global perspectives, Proceedings of the 13th International Congress o, 2004.

Publikationstyp: Aufsatz / Paper in Sammelwerk (referiert)

Müh F., Renger T.
Structure-Based Calculation of Pigment-Protein and Excitonic Pigment-Pigment Coupling in Photosynthetic Light-Harvesting Complexes, in: A. van der Est & J. Golbeck (Eds.): The Biophysics of Photosynthesis, Page(s) 3-44, Springer, 2014.

Publikationstyp: Handbuch (Erstauflage)

Renger T., Holzwarth A.
Theory of excitation energy transfer and optical spectra of photosynthetic systems in Biophysical Techniques in Photosynthesis, Volume 2, Springer-Verlag, 2008.
Renger T.
Basic Photophysical Principles: Absorption of Light, Excitation Energy Transfer and Electron Transfer Reactions in Comprehensive Series in Photosciences: Primary Processes of Photosynthesis: Basic Principles and Apparatus, Springer-Verlag, 2007.
Renger T., Schlodder E.
Modeling of Optical Spectra and Light Harvesting in Photosystem I in Photosystem I: The Plastocyanin Ferredoxin Oxidoreductase in Photosynthesis, Springer Netherlands, 2006.
 

Gehaltene Vorträge

Vortragstyp: Hauptvortrag / Eingeladener Vortrag auf einer Tagung

  1. Light-harvesting and trapping of excitation energy in photosystem II (04.10.2017)
  2. Structure-Based Theory of Light-Harvesting in Photosystem II (23.05.2017)
  3. Electrostatics of Excited Electronic States of Chromophores in Protein (19.07.2016)
  4. Water-soluble chlorophyllbinding protein (WSCP): An interesting system for the development of theory and modeling (18.12.2015)
  5. Different strategies to collect light in photosynthesis: A bottom up theoretical approach (16.12.2015)
  6. Linking structure and spectroscopy of photosynthetic complexes by theory (19.09.2015)
  7. The water-soluble chlorophyll protein (WSCP): An interesting system for the development of theory and modeling (13.07.2015)
  8. Challenges in Theory of Light-Harvesting in Photosynthesis (22.01.2015)
  9. Theory of Light-Harvesting in Photosynthesis: From Structure to Function (02.12.2014)
  10. Modeling photosynthetic light-harvesting: A bottom up approach (29.10.2013)
  11. How the protein dissipates the excess energy of excitons: Insights from structure-based calculations of the spectral density (10.08.2013)
  12. How proteins dissipate the excess energy of excitons in light-harvesting complexes (08.07.2013)
  13. How the Protein Dissipates the Excess Energy of Excitons: Insights from a Normal Mode Analysis of the Spectral Density (09.04.2013)
  14. Towards a STructure-based Understanding of Excitation Energy Transfer in Light-Harvesting Complex II (21.02.2013)
  15. Theory of Light-Harvesting in Photosyntesis (05.02.2012)
  16. Modeling light-harvesting in photosynthesis (23.01.2012)
  17. Theory of light-harvesting in the FMO-protein of green sulfur bacteria and the LHC-II of higher plants: From structure to function (02.08.2011)
  18. Theory of optical spectra and dissipative exciton motion in photosynthetic pigment-protein complexes: From structure to function (20.04.2011)
  19. Theory of Light-Harvesting in Photosynthetic Pigment-Protein Complexes (16.03.2011)
  20. Dynamical Theory and Calculation of Parameters of Light-Harvesting (09.03.2011)

Vortragstyp: Vortrag auf einer Tagung (referiert)

  1. Modeling of photosynthetic light-harvesting: From structure to function (14.10.2010)
  2. Theory of excitation energy transfer and optical spectra of pigment protein complexes: From structure to function (16.09.2010)
  3. Theory of light-harvesting in the FMO protein and photosystem I: From structure to function (19.08.2010)
  4. Calculation of optical properties of pigments in proteins and non-polar solvents (11.10.2008)
  5. Calculation of optical properties of pigments in photosynthetic proteins and non-polar solvents: theory meets experiment (09.09.2008)
  6. The Primary Reactions in Photosystem II: Theory of Excitation Energy and Charge Transfer (08.08.2006)
  7. Theory of Excitation Energy Transfer and Optical Spectra of Photosynthetic Pigment-Protein Complexes (12.05.2006)
  8. Introduction of PhD thesis of P. Kjellberg Formation and dynamics of molecular excitons and their fingerprints in nonlinear spectroscopy public examination of P. Kjellberg (16.04.2006)
  9. Light harvesting in photosynthetic pigment-protein complexes: Theory of optical spectra and calculation of parameters by quantum chemical/ electrostatic methods (08.04.2006)
  10. Non-Markovian density matrix theories of optical spectra as applied to pigment-protein complexes (06.12.2005)
  11. Non-Markovian density matrix theories of optical spectra: Vibrational sidebands and temperature dependent optical band shifts (20.05.2005)
  12. Theory of exciton relaxation and optical spectra: Application to reaction centers of bacteria, PSI and PSII (12.10.2004)
  13. Theory of exciton relaxation and optical spectra: Application to reaction centers of bacteria, PSI and PSII (12.08.2004)
  14. Energy transfer in photosynthetic pigment—protein complexes: A theory for optical spectra (13.11.2002)

Vortragstyp: Vortrag auf einer Tagung (nicht referiert)

  1. Light-Harvesting in Photosystem II Cores: From Structure to Function (27.03.2017)
  2. Theory of color tuning in biological photoreceptors: From structure to function (09.06.2015)
  3. Building principles of photosynthetic light-harvesting antennae: Theory meets experiment (19.10.2014)
  4. Linking Structure and Optical Spectra to Understand Light-Harvesting in Photosystem II (03.10.2014)
  5. Towards an exact theory of linear absorption and CD of pigment protein complexes (25.09.2014)
  6. The Role of Electrostatics and Quantum Dynamics in the Modeling of Optical Spectra and Energy Transfer in Chromophre-Protein Complexes (17.09.2014)
  7. Simulating Optical Spectra of Photosytem II Light-Harvesting Complexes (16.09.2014)
  8. Bottom Up Theoretical Approach to Light-Harvesting in Photosystem II (30.05.2014)
  9. Theory of light-harvesting in photosynthesis: from structure to quantum dynamics (28.05.2014)

Vortragstyp: Eingeladener Vortrag an Universität

  1. Structure-Based Theory of Light Harvesting in Photosystem II (02.02.2017)
  2. Different Strategies for Collecting Light in Photosynthesis: Insights from Structure-Based Theory (05.02.2015)
  3. Theory of Light-Harvesting in Pigment-Protein Complexes (14.11.2014)
  4. Theory of photosynthetic light-harvesting: a bottom up approach (19.11.2013)
  5. Theory of light-harvesting in photosynthesis: From structure to function (03.09.2013)
  6. Structure-based Modeling of Light-Harvesting in Photosynthesis (11.03.2013)
  7. Building Principles of Photosynthetic Light-Harvesting Antennae: A bottom-up theoretical approach (28.01.2013)
  8. Building principles of photosynthetic light-harvesting antennae: A bottom up theoretical approach (11.12.2012)
  9. Photosynthetic Light-Harvesting: A bottom-up theoretical approach (27.11.2012)
  10. Building principles of photosynthetic light-harvesting antennae: Theory meets experiment (05.06.2012)
  11. Theory of excitation energy transfer and optical spectra of LHC-II: From structure to function (18.04.2012)
  12. Theory of light-harvesting in photosynthetic pigment-protein complexes (07.06.2011)
  13. Modeling of photosynthetic light-harvesting: From structure to function (17.05.2011)
  14. Theory of light-harvesting in the FMO-protein of green sulfur bacteria and the LHC-II of higher plants: From structure to function (17.05.2011)
  15. Theory of light-harvesting in pigment-protein complexes (21.04.2011)
  16. Introduction to techniques used to model photosynthesis (07.03.2011)

Vortragstyp: Eingeladener Vortrag an anderen Institutionen

  1. Theory of light-harvesting in photosynthesis: From structure to function (19.09.2009)
  2. Theory of light-harvesting and trapping in photosystem II core complexes (08.07.2009)
  3. Theory of light-harvesting in photosynthesis: From structure to function (15.02.2009)
  4. Excitation energy and primary charge transfer in photosystem II: Theory meets experiment (09.09.2007)
  5. Theory of light-harvesting and optical spectra: From structure to function (07.07.2007)
  6. Theory of light-harvesting in pigment-protein complexes (03.03.2007)
  7. Theory of optical spectra of PS-II core particles: Primary electron donor, charge and triplet localization (20.05.2006)
  8. Theory of light harvesting in photosynthetic proteins (15.05.2006)
  9. Theory of excitation energy transfer and optical spectra of the major light harvesting complex of photosystem II (04.04.2006)
  10. Theory of Excitation Transfer in Coupled Nanostructures- From Quantum Dots to Light Harvesting Complexes (02.02.2006)
  11. Primary reactions and optical spectra of PS-II reaction centers: Theory meets experiment (10.10.2005)
  12. From structure to function: What optical spectra of photosystem II reaction centers tell us (06.06.2005)
  13. Dynamical theories of energy transfer and optical spectra as applied to experimental results (05.05.2004)
  14. DNA Electron transfer through disordered bridge states (06.06.2003)
  15. Theory of optical spectra (05.05.2003)
  16. Theory of DNA electron transfer (10.11.2002)
  17. Energy transfer in photosynthetic pigment—protein complexes: A theory for optical spectra (02.11.2002)
  18. Exciton relaxation in photosynthetic pigment-protein complexes: A theory for optical spectra (10.10.2002)
  19. DNA Electron Transfer Through Partly Delocalized Bridge States: Enhancement of the Rate by Disorder (05.05.2002)
  20. On the relation of protein dynamics and exciton relaxation: Calculation of photophysical properties of monomer (B777), dimer (B820) and oligomer (PS-2 reaction center) complexes (10.04.2002)
  21. Exciton dynamics in photosynthetic antennae: The role of protein vibrations (03.03.2000)

Vortragstyp: Posterpräsentation

  1. Theory of Hole-Burning and Difference Fluorescence Line-Narrowing Spectra of Pigment-Protein Complexes (23.05.2017)
  2. The Origin of Non-Conservative Circular Dichroism of the CP29 Antenna of PSII (21.05.2017)
  3. Low-energy chlorophylls in photosystem II and the electrostatic asymmetry of the reaction center (09.08.2016)
  4. Theory of Light-Harvesting and Optical Spectra: Challenges and Recent Developments (04.08.2016)
  5. Origin of Non-Conservative Circular Dichroism of the CP29 Antenna of Photosystem II (27.07.2016)
  6. Theory of hole-burning spectra of pigment-protein complexes (27.07.2016)
  7. Electrochromic shift calculations exhibit the light-activation mechanism of BLUF photoreceptors (12.03.2014)
  8. Electrochromic shift calculations exhibit the light-activation mechanism of BLUF photoreceptors (01.02.2014)
  9. Different Strategies for Collecting Light: Insights from Structure-Based Theory (11.08.2013)
  10. Towards a non-perturbative theory of optical spectra of pigment protein complexes (09.04.2013)
  11. Towards a STructure-based Understanding of Excitation Energy Transfer in Light-Harvesting Complex II (21.02.2013)
  12. Towards a Structure-based Understanding of Excitation Energy Transfer in Plant Light-Harvesting Complex II (21.02.2013)
  13. Theory of light-harvesting in the FMO complex: The 8th bacteriochlorophyll completetes the excitation energy funnel (25.08.2010)
  14. Dielectric and transport properties of dense Coulomb systems (13.02.2006)
 

Forschungsprojekte:

  1. Nano-Analytik von zellulären Systemen (DK W-1250) (Anfangsjahr: 2014)
  2. Theorie des Lichtsammelns in der Photosynthese (Anfangsjahr: 2012)
  3. Theory of Light-Harvesting in Photosynthesis (Anfangsjahr: 2012)
   

Scientific Community Services

Typ: Veranstaltungsorganisation: Summer School / Doctoral Colloquium

  1. DK Nanocell Summerschool (01.07.2016-03.07.2016)
 
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