Publications

Amarendra N. Maity, Brigitte Schwederski, Biprajit Sarkar, Stanislav Zalis, Jan Fiedler, Sanjib Kar, Goutam K. Lahiri, Carole Duboc, Matthias Grunert, Philipp Guetlich, and Wolfgang. Kaim. Tetranuclear Complexes of Fe(CO)2(C5H5)+ with TCNX Ligands (TCNX = TCNE, TCNQ, TCNB): Intramolecular Electron Transfer Alternatives in Compounds (m4-TCNX)MLn4. Inorganic Chemistry, (46)18:7312--7320, 2007. [PUMA: DFT EPR cyclopentadienyl dicarbonyl electrochem electron geometry iron redox structure tetracyanoethene tetracyanoquinodimethane transfer transfer;Moessbauer transfer;electronic transfer;optimized]

Eberhard Waldhoer, Juergen Poppe, Wolfgang Kaim, Edgardo H. Cutin, Monica E. Garcia Posse, and Nestor E. Katz. EPR Evidence for Low-Lying MLCT States in Tetracyanoiron and -ruthenium Complexes with Strongly p-Accepting Chelate Ligands. Comparison with Isoelectronic Tetracarbonylmetal Species. Inorganic Chemistry, (34)11:3093--3096, 1995. [PUMA: azobispyridine azobispyridine;ESR azobispyridine;electrochem bipyrazine charge complex;MLCT cyano cyano;iron iron redox ruthenium transfer]

Amarendra Nath Maity, Brigitte Schwederski, and Wolfgang. Kaim. The redox pair (μ4-TCNE)Fe(CO)2(C5H5)44+/3+: Surprisingly small metal-ligand interaction and the first resolved EPR hyperfine structure (13C, 14N, 57Fe) of a tetranuclear complex with TCNE-. Inorganic Chemistry Communications, (8)7:600--602, 2005. [PUMA: MLCT band bridged charge complex complex;EPR complex;metal complex;redox complex;tetracyanoethylene coordinated coupling cyclopentadienyl cyclopentadienyliron dicarbonyl hyperfine interaction iron ligand nitrogen potential prepn spectrum tetracyanoethylene tetranuclear transfer]

Markus Glockle, Nestor E. Katz, Michael Ketterle, and Wolfgang. Kaim. Qualitatively and quantitatively different solvatochromism of the MLCT and MMCT absorption bands of centrosymmetric acceptor-bridged diiron(II,II) and diiron(III,II) cyanide complexes. Inorganica Chimica Acta, (336):55--60, 2002. [PUMA: absorption charge complex cyano iron mixed solvatochromism transfer valence]

Mark R. Ringenberg, Max Schwilk, Florian Wittkamp, Ulf-Peter Apfel, and Wolfgang. Kaim. Organometallic Fe-Fe Interactions: Beyond Common Metal-Metal Bonds and Inverse Mixed-Valent Charge Transfer. Chemistry - A European Journal, (23)8:1770--1774, 2017. [PUMA: bond calcn;mol carbonyl charge complex crystal ferrocenyl iron mol optimized prepn;mixed redox spectroelectrochem structure transfer valent]

Mark R. Ringenberg, Max Schwilk, Florian Wittkamp, Ulf-Peter Apfel, and Wolfgang. Kaim. Organometallic Fe-Fe Interactions: Beyond Common Metal-Metal Bonds and Inverse Mixed-Valent Charge Transfer. Chemistry - A European Journal, (23)8:1770--1774, 2017. [PUMA: bond calcn;mol carbonyl charge complex crystal ferrocenyl iron mol optimized prepn;mixed redox spectroelectrochem structure transfer valent]

Markus Glockle, Nestor E. Katz, Michael Ketterle, and Wolfgang. Kaim. Qualitatively and quantitatively different solvatochromism of the MLCT and MMCT absorption bands of centrosymmetric acceptor-bridged diiron(II,II) and diiron(III,II) cyanide complexes. Inorganica Chimica Acta, (336):55--60, 2002. [PUMA: absorption charge complex cyano iron mixed solvatochromism transfer valence]

Amarendra Nath Maity, Brigitte Schwederski, and Wolfgang. Kaim. The redox pair (μ4-TCNE)Fe(CO)2(C5H5)44+/3+: Surprisingly small metal-ligand interaction and the first resolved EPR hyperfine structure (13C, 14N, 57Fe) of a tetranuclear complex with TCNE-. Inorganic Chemistry Communications, (8)7:600--602, 2005. [PUMA: MLCT band bridged charge complex complex;EPR complex;metal complex;redox complex;tetracyanoethylene coordinated coupling cyclopentadienyl cyclopentadienyliron dicarbonyl hyperfine interaction iron ligand nitrogen potential prepn spectrum tetracyanoethylene tetranuclear transfer]

Eberhard Waldhoer, Juergen Poppe, Wolfgang Kaim, Edgardo H. Cutin, Monica E. Garcia Posse, and Nestor E. Katz. EPR Evidence for Low-Lying MLCT States in Tetracyanoiron and -ruthenium Complexes with Strongly p-Accepting Chelate Ligands. Comparison with Isoelectronic Tetracarbonylmetal Species. Inorganic Chemistry, (34)11:3093--3096, 1995. [PUMA: azobispyridine azobispyridine;ESR azobispyridine;electrochem bipyrazine charge complex;MLCT cyano cyano;iron iron redox ruthenium transfer]

Amarendra N. Maity, Brigitte Schwederski, Biprajit Sarkar, Stanislav Zalis, Jan Fiedler, Sanjib Kar, Goutam K. Lahiri, Carole Duboc, Matthias Grunert, Philipp Guetlich, and Wolfgang. Kaim. Tetranuclear Complexes of Fe(CO)2(C5H5)+ with TCNX Ligands (TCNX = TCNE, TCNQ, TCNB): Intramolecular Electron Transfer Alternatives in Compounds (m4-TCNX)MLn4. Inorganic Chemistry, (46)18:7312--7320, 2007. [PUMA: DFT EPR cyclopentadienyl dicarbonyl electrochem electron geometry iron redox structure tetracyanoethene tetracyanoquinodimethane transfer transfer;Moessbauer transfer;electronic transfer;optimized]

Amarendra Nath Maity, Brigitte Schwederski, and Wolfgang. Kaim. The redox pair (μ4-TCNE)Fe(CO)2(C5H5)44+/3+: Surprisingly small metal-ligand interaction and the first resolved EPR hyperfine structure (13C, 14N, 57Fe) of a tetranuclear complex with TCNE-. Inorganic Chemistry Communications, (8)7:600--602, 2005. [PUMA: MLCT band bridged charge complex complex;EPR complex;metal complex;redox complex;tetracyanoethylene coordinated coupling cyclopentadienyl cyclopentadienyliron dicarbonyl hyperfine interaction iron ligand nitrogen potential prepn spectrum tetracyanoethylene tetranuclear transfer]