2011 - Fellow of the American Association for the Advancement of Science (AAAS)
2010 - Fellow of the American Chemical Society
Her primary scientific interests are in Photochemistry, Stereochemistry, Excited state, Phenazine and Ligand. Her Photochemistry study integrates concerns from other disciplines, such as Quantum yield, Quenching, Molecule and Solvent. Her Stereochemistry research also works with subjects such as
Her Excited state research includes themes of Halide, Oxygen and Photosensitizer. Her studies deal with areas such as DNA damage and Phenanthroline as well as Phenazine. Her research integrates issues of Crystallography, Singlet oxygen and Ruthenium in her study of Ligand.
Her scientific interests lie mostly in Photochemistry, Excited state, Ligand, Crystallography and Ruthenium. The concepts of her Photochemistry study are interwoven with issues in Quenching and Molecule. Claudia Turro usually deals with Excited state and limits it to topics linked to Quantum yield and Singlet oxygen.
Her research in Ligand intersects with topics in Phenazine, Stereochemistry and Dissociation. Her research investigates the connection between Crystallography and topics such as Density functional theory that intersect with problems in Intersystem crossing and Metal. Her Ruthenium study also includes
Claudia Turro mainly investigates Photochemistry, Excited state, Ligand, Catalysis and Molecule. Her study in the fields of Electron acceptor under the domain of Photochemistry overlaps with other disciplines such as Red light. Her work deals with themes such as Crystallography, Denticity, Phenazine and Electron transfer, which intersect with Excited state.
Her studies deal with areas such as Carbanion, Delocalized electron, Density functional theory and Ground state as well as Crystallography. Her Ligand study combines topics in areas such as Photodissociation, Steric effects and Ruthenium. Her work carried out in the field of Molecule brings together such families of science as Electron donor and Quinoxaline.
Her primary scientific interests are in Ligand, Excited state, Photochemistry, Molecule and Ground state. Her Ligand research focuses on Steric effects and how it connects with Denticity, Molecular orbital, Quantum yield and Biological activity. Her Singlet state study in the realm of Excited state interacts with subjects such as Ultrafast laser spectroscopy.
Her biological study spans a wide range of topics, including HOMO/LUMO, Drug delivery and Quinoxaline. The various areas that Claudia Turro examines in her Molecule study include Photocatalysis, Catalysis, Hydrogen and Chromophore. Her Ground state research is multidisciplinary, incorporating perspectives in Crystallography, Delocalized electron, Absorption and Density functional theory.
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Photoinduced electron transfer mediated by a hydrogen-bonded interface
Claudia Turro;Chi K. Chang;George E. Leroi;Robert I. Cukier.
Journal of the American Chemical Society (1992)
Proton Transfer Quenching of the MLCT Excited State of Ru(phen)2dppz2+ in Homogeneous Solution and Bound to DNA
Claudia Turro;Stefan H. Bossmann;Yonchu Jenkins;Jacqueline K. Barton.
Journal of the American Chemical Society (1995)
Control and utilization of ruthenium and rhodium metal complex excited states for photoactivated cancer therapy
Jessica D. Knoll;Claudia Turro.
Coordination Chemistry Reviews (2015)
DNA binding and photocleavage in vitro by new dirhodium(II) dppz complexes: correlation to cytotoxicity and photocytotoxicity.
Alfredo M. Angeles-Boza;Patricia M. Bradley;Patty K.-L. Fu;Sara E. Wicke.
Inorganic Chemistry (2004)
Efficient DNA photocleavage by [Ru(bpy)2(dppn)]2+ with visible light
Yujie Sun;Lauren E. Joyce;Nicole M. Dickson;Claudia Turro.
Chemical Communications (2010)
Luminescence Quenching in Supramolecular Systems: A Comparison of DNA- and SDS Micelle-Mediated Photoinduced Electron Transfer between Metal Complexes
M. R. Arkin;E. D. A. Stemp;C. Turro;N. J. Turro.
Journal of the American Chemical Society (1996)
Cellular Toxicity Induced by the Photorelease of a Caged Bioactive Molecule: Design of a Potential Dual-Action Ru(II) Complex
Mark A. Sgambellone;Amanda David;Robert N. Garner;Kim R. Dunbar.
Journal of the American Chemical Society (2013)
Ru(II) complexes of new tridentate ligands: unexpected high yield of sensitized 1O2.
Yao Liu;Richard Hammitt;Daniel A. Lutterman;Lauren E. Joyce.
Inorganic Chemistry (2009)
Energy Transfer from Nucleic Acids to Tb(III): Selective Emission Enhancement by Single DNA Mismatches
Patty K.-L. Fu and;Claudia Turro.
Journal of the American Chemical Society (1999)
Photoinitiated DNA Binding by cis-[Ru(bpy)2(NH3)2]2+.
Tanya N. Singh;Claudia Turro.
Inorganic Chemistry (2004)
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