His primary scientific interests are in Photochemistry, Excited state, Ruthenium, Electron transfer and Chemical physics. His Photochemistry research incorporates themes from Artificial photosynthesis, Terpyridine and Anatase. His Excited state study which covers Nanotechnology that intersects with Semiconductor.
Petter Persson has researched Ruthenium in several fields, including Supramolecular chemistry and Ligand. His biological study spans a wide range of topics, including Intramolecular force and Molecule. His Chemical physics research integrates issues from Steric effects, Nanocrystal, Molecular conformation and Density functional theory.
Petter Persson focuses on Excited state, Photochemistry, Density functional theory, Chemical physics and Electron transfer. His Excited state research includes elements of Absorption spectroscopy, Carbene and Ground state. His study explores the link between Photochemistry and topics such as Ruthenium that cross with problems in Electron donor.
Petter Persson focuses mostly in the field of Density functional theory, narrowing it down to matters related to Physical chemistry and, in some cases, 2,2'-Bipyridine and Relaxation. The study incorporates disciplines such as Quantum chemistry, Nanocrystal, Nanotechnology and Anatase in addition to Chemical physics. As part of one scientific family, Petter Persson deals mainly with the area of Electron transfer, narrowing it down to issues related to the Molecule, and often Adsorption, Solar cell, Metal, Oxide and Inorganic chemistry.
His primary areas of investigation include Excited state, Carbene, Photochemistry, Theoretical chemistry and Transition metal. His Excited state study combines topics in areas such as Coordination complex, Ligand and Ruthenium. His research in Carbene intersects with topics in Chemical physics, Crystallography, Photosensitizer, Ground state and Absorption spectroscopy.
His research combines Molecule and Chemical physics. The various areas that Petter Persson examines in his Photochemistry study include Ultraviolet visible spectroscopy, Polymer, Photoluminescence and Density functional theory. The concepts of his Density functional theory study are interwoven with issues in Electrode potential, Catalysis and Silicon.
Petter Persson mainly investigates Excited state, Molecular physics, Carbene, Ligand and Scattering. His Excited state study incorporates themes from Relaxation and Coordination complex. His Molecular physics study integrates concerns from other disciplines, such as Vibronic coupling, Emission spectrum and Electron transfer.
His studies in Carbene integrate themes in fields like Crystallography, HEXA, Visible spectrum, Metal and Redox. His work deals with themes such as Photochemistry and Ground state, which intersect with Luminescence. As part of his studies on Photochemistry, Petter Persson often connects relevant areas like Absorption spectroscopy.
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Experimental evidence for sub-3-fs charge transfer from an aromatic adsorbate to a semiconductor
Joachim Schnadt;Paul A. Brühwiler;Luc Patthey;James N. O'Shea.
Quantum Chemical Study of Photoinjection Processes in Dye-Sensitized TiO2 Nanoparticles
Petter Persson;R. Bergström;S. Lunell.
Journal of Physical Chemistry B (2000)
Quantum Chemical Calculations of the Influence of Anchor-Cum-Spacer Groups on Femtosecond Electron Transfer Times in Dye-Sensitized Semiconductor Nanocrystals.
Petter Persson;Maria J. Lundqvist;Ralph Ernstorfer;William A. Goddard Iii.
Journal of Chemical Theory and Computation (2006)
DFT study of bare and dye-sensitized TiO2 clusters and nanocrystals
Maria J. Lundqvist;Mattias Nilsing;Petter Persson;Sten Lunell.
International Journal of Quantum Chemistry (2006)
A low-spin Fe( iii ) complex with 100-ps ligand-to-metal charge transfer photoluminescence
Pavel Chabera;Yizhu Liu;Om Prakash;Erling Thyrhaug.
Adsorption of Bi-Isonicotinic Acid on Rutile TiO2 (110)
L. Patthey;H. Rensmo;Petter Persson;K. Westermark.
Journal of Chemical Physics (1999)
Ultrafast Electron Dynamics in Solar Energy Conversion
Carlito S. Ponseca;Pavel Chábera;Jens Uhlig;Petter Persson.
Chemical Reviews (2017)
A 3.0 μs Room Temperature Excited State Lifetime of a Bistridentate RuII−Polypyridine Complex for Rod-like Molecular Arrays
Maria Abrahamsson;Michael Jäger;Tomas Österman;Lars Eriksson.
Journal of the American Chemical Society (2006)
Calculated Structural and Electronic Interactions of the Ruthenium Dye N3 with a Titanium Dioxide Nanocrystal
Petter Persson;Maria J. Lundqvist.
Journal of Physical Chemistry B (2005)
Iron sensitizer converts light to electrons with 92% yield
Tobias C. B. Harlang;Yizhu Liu;Olga Gordivska;Lisa A. Fredin.
Nature Chemistry (2015)
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