Tracking excited-state charge and spin dynamics in iron coordination complexes
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Kelly J. Gaffney | Edward I. Solomon | Uwe Bergmann | Tsu-Chien Weng | Henrik T. Lemke | Christian Bressler | Dimosthenis Sokaras | Roberto Alonso-Mori | Andreas Galler | Wojciech Gawelda | Thomas Kroll | Wenkai Zhang | Matthieu Chollet | M. Nielsen | D. Sokaras | Diling Zhu | T. Kroll | U. Bergmann | T. Weng | Joseph S. Robinson | W. Gawelda | C. Bressler | Wenkai Zhang | E. Solomon | Ryan G. Hadt | R. Alonso-Mori | H. Lemke | A. Galler | M. Chollet | G. Vankó | K. Gaffney | D. Meyer | K. Kjær | Diling Zhu | Huiyang W Liang | T. V. Driel | Martin M. Nielsen | Robert W. Hartsock | Kasper S. Kjær | Katharina Kubiček | Huiyang W. Liang | Drew A. Meyer | Carola Purser | Zheng Sun | Tim B. van Driel | György Vankó | K. Kubiček | C. Purser | R. Hartsock | Zheng Sun | D. Zhu | K. Kubicek
[1] M. Nielsen,et al. Spin-state studies with XES and RIXS: From static to ultrafast. , 2013 .
[2] P. Gütlich,et al. Spin Crossover in Transition Metal Compounds II , 2004 .
[3] W. Gawelda. Time-resolved x-ray absorption spectroscopy of transition metal complexes , 2006 .
[4] R. A. Goldbeck,et al. Fast natural and magnetic circular dichroism spectroscopy. , 1997, Annual review of physical chemistry.
[5] D. Nocera,et al. Hydrogen Produced from Hydrohalic Acid Solutions by a Two-Electron Mixed-Valence Photocatalyst , 2001, Science.
[6] J. Cezar,et al. Mixed-valence behavior and strong correlation effects of metal phthalocyanines adsorbed on metals , 2011 .
[7] Frank Neese,et al. Probing valence orbital composition with iron Kbeta X-ray emission spectroscopy. , 2010, Journal of the American Chemical Society.
[8] M. Chergui,et al. Light-induced spin crossover in Fe(II)-based complexes: The full photocycle unraveled by ultrafast optical and X-ray spectroscopies , 2010 .
[9] Uwe Bergmann,et al. High resolution 1s core hole X-ray spectroscopy in 3d transition metal complexes—electronic and structural information , 2005 .
[10] J. Neter,et al. Applied Linear Regression Models , 1983 .
[11] F. D. Groot,et al. High-Resolution X-ray Emission and X-ray Absorption Spectroscopy , 2001 .
[12] Kristoffer Haldrup,et al. Femtosecond X-ray absorption spectroscopy at a hard X-ray free electron laser: application to spin crossover dynamics. , 2013, The journal of physical chemistry. A.
[13] R. Coffee,et al. Achieving few-femtosecond time-sorting at hard X-ray free-electron lasers , 2013, Nature Photonics.
[14] T. Moore,et al. Mimicking photosynthetic solar energy transduction. , 2001, Accounts of chemical research.
[15] S. Alvarez. Relationships between temperature, magnetic moment, and continuous symmetry measures in spin crossover complexes. , 2003, Journal of the American Chemical Society.
[16] A. Hauser. Intersystem crossing in the [Fe(ptz)6](BF4)2 spin crossover system (ptz=1‐propyltetrazole) , 1991 .
[17] Hugh T. Philipp,et al. X-ray tests of a Pixel Array Detector for coherent x-ray imaging at the Linac Coherent Light Source , 2009 .
[18] C. Sousa,et al. On the role of the metal‐to‐ligand charge transfer states in the light‐induced spin crossover in FeII (bpy)3 , 2011 .
[19] Christian Bressler,et al. Ultrafast nonadiabatic dynamics of [Fe(II)(bpy)(3)](2+) in solution. , 2007, Journal of the American Chemical Society.
[20] J. Simon,et al. Subpicosecond 1MLCT .fwdarw. 5T2 intersystem crossing of low-spin polypyridyl ferrous complexes , 1993 .
[21] J. McCusker,et al. Femtosecond Soft X-ray Spectroscopy of Solvated Transition-Metal Complexes: Deciphering the Interplay of Electronic and Structural Dynamics. , 2011, The journal of physical chemistry letters.
[22] M. Marcus,et al. Picosecond X-ray absorption spectroscopy of a photoinduced iron(II) spin crossover reaction in solution. , 2006, The journal of physical chemistry. A.
[23] D. Ratner,et al. First lasing and operation of an ångstrom-wavelength free-electron laser , 2010 .
[24] Uwe Bergmann,et al. A multi-crystal wavelength dispersive x-ray spectrometer. , 2012, The Review of scientific instruments.
[25] S. Ferrere,et al. Photosensitization of TiO2 by [FeII(2,2‘-bipyridine-4,4‘-dicarboxylic acid)2(CN)2]: Band Selective Electron Injection from Ultra-Short-Lived Excited States , 1998 .
[26] F. van Mourik,et al. Vibrational coherences and relaxation in the high-spin state of aqueous [Fe(II)(bpy)3]2+. , 2009, Angewandte Chemie.
[27] J. McCusker,et al. Femtosecond Excited-State Dynamics of an Iron(II) Polypyridyl Solar Cell Sensitizer Model , 2000 .
[28] A. Shukla,et al. Probing the 3d spin momentum with X-ray emission spectroscopy: the case of molecular-spin transitions. , 2006, The journal of physical chemistry. B.
[29] Rafael Abela,et al. Picosecond time-resolved X-ray emission spectroscopy: ultrafast spin-state determination in an iron complex. , 2010, Angewandte Chemie.
[30] C. Bostedt,et al. Spectral encoding of x-ray/optical relative delay. , 2011, Optics express.
[31] A. Fujishima,et al. Photoinduced Magnetization of a Cobalt-Iron Cyanide , 1996, Science.
[32] T. Netzel,et al. Lifetimes, spectra, and quenching of the excited states of polypyridine complexes of iron(II), ruthenium(II), and osmium(II) , 1980 .
[33] Akio Kotani,et al. Core Level Spectroscopy of Solids , 2008 .
[34] C. de Graaf,et al. Ultrafast deactivation mechanism of the excited singlet in the light-induced spin crossover of [Fe(2,2'-bipyridine)3]2+. , 2013, Chemistry.
[35] M. Krause,et al. Natural widths of atomic K and L levels, Kα X‐ray lines and several KLL Auger lines , 1979 .
[36] S. Johnson,et al. Femtosecond XANES Study of the Light-Induced Spin Crossover Dynamics in an Iron(II) Complex , 2009, Science.
[37] M. Nielsen,et al. Guest-host interactions investigated by time-resolved X‑ray spectroscopies and scattering at MHz rates: solvation dynamics and photoinduced spin transition in aqueous Fe(bipy)3(2+). , 2012, The journal of physical chemistry. A.
[38] C. de Graaf,et al. Study of the light-induced spin crossover process of the [Fe(II)(bpy)3]2+ complex. , 2010, Chemistry.
[39] H. Fujii,et al. Direct probing of spin state dynamics coupled with electronic and structural modifications by picosecond time-resolved XAFS. , 2010, Journal of the American Chemical Society.
[40] Yiping Feng,et al. A single-shot intensity-position monitor for hard x-ray FEL sources , 2011, Optical Engineering + Applications.