Charge and electron transfer from metal-to-carbon bonds of Main Group organometallics MRn (M = Al, Ga, Zn) to aromatic N-heterocycles: Colored precursor compounds and radical complex formation. Inorganica Chimica Acta, (225)1-2:23--34, 1994. [PUMA: Group aluminum bond carbon charge gallium metal organometallic organometallic;Main organometallic;heterocycle reaction transfer zinc]
Coordinative aspects of single electron exchange between Main group or transition metal compounds and unsaturated organic substrates. Studies in Physical and Theoretical Chemistry, (78)Electron Proton Transfer Chem. Biol:45--69, 1992. [PUMA: Main electron exchange exchange;transition group metal organo review review;review single]
Singlet Diradical Complexes of Chromium, Molybdenum, and Tungsten with Azo Anion Radical Ligands from M(CO)6 Precursors. Inorganic Chemistry, (46)21:8584--8593, 2007. [PUMA: 6 Group arylamidophenylazopyridine crystal diradical diradical;Group diradical;electronic electrochem metal prepn redox singlet structure]
Interaction of frontier orbitals of Group 15 and Group 16 methides with the frontier orbitals of benzene. Journal of the American Chemical Society, (107)20:5600--5604, 1985. [PUMA: 15 16 16;methide Group MO;MO VA VIA affinity electron methide methide;electron spectra transmission]
Chemistry of C-Trimethylsilyl-Substituted Heterocarboranes. 28. Selective Alkylation and Reactivity of \dqCarbons Adjacent\dq and \dqCarbons Apart\dq Tetracarba-nido-dodecaborane(12) Derivatives toward Group 1 and Group 2 Metals. Synthetic, Spectroscopic, and Structural Investigations on Lithium-, Sodium-, Potassium-, Cesium-, and Magnesium-Complexed C4B8 Carboranes. Organometallics, (19)4:497--508, 2000. [PUMA: DFT Group IA alkylation;magnesacarborane calcn calcn;mol crystal geometry magnesacarborane;heterocarborane magnesium metal metalation metallacarborane optimized prepn structure substituted substituted;DFT trimethylsilyl]
2-Heteroatom-1,3-diazoles and quinoxaline as bridging p-acceptor ligands for Group VIB metal carbonyl fragments M(CO)5 (M = Cr, Mo, W). Synthesis, electrochemistry, absorption and emission spectroscopy. Zeitschrift fuer Anorganische und Allgemeine Chemie, (575):97--114, 1989. [PUMA: Group VIB carbonyl chalcogenadiazole chalcogenadiazole;selenadiazole chromium complex complex;Group complex;oxadiazole complex;quinoxaline complex;redn complex;thiadiazole complex;tungsten potential quinoxaline;molybdenum tungsten]
Paramagnetic main Group and transition metal complexes containing unsaturated nitrogen ligands. Journal of Organometallic Chemistry Library, (22)Organomet. Radical Processes:173--200, 1990. [PUMA: Group complex ligand main metal nitrogen paramagnetic review review;paramagnetic transition]
3,3'-Bipyridazine: The 'second-best' bidiazine ligand for metal carbonyl M(CO)4 fragments (M = chromium, molybdenum, tungsten). Inorganica Chimica Acta, (114)2:123--125, 1986. [PUMA: Group VIB bipyridazine bipyridazine;UV carbonyl]
Heterocubane cluster compounds (NEt4)Y:M(μ3-S)Re(CO)33(μ3-E) (M = W or Mo, Y = O or S, E = S or Se). Structures, spectroscopy, and electrochemistry. Zeitschrift fuer Anorganische und Allgemeine Chemie, (627)10:2430--2444, 2001. [PUMA: Group VIB chalcogen crystal heterocubane heterocubane;IR heterocubane;redox heterocubane;rhenium potential prepn;UV rhenium structure]
Four bridging bis chelate ligands with very low lying p* orbitals. MO perturbation calculations, electrochemistry, and spectroscopy of mononuclear and binuclear group 6 metal tetracarbonyl complexes. Inorganic Chemistry, (26)1:68--77, 1987. [PUMA: Group MO VIB azobipyridine bipyrimidine bischelant carbonyl;Group carbonyl;MO carbonyl;electronic carbonyl;energy electrochem electrochem;bipyrimidine electrochem;electrochem electrochem;pyridyltetrazine level pyridylpyrazine pyridyltetrazine;pyridylpyrazine transition]
Thermal and light induced electron transfer reactions of Main Group metal hydrides and organometallics. Topics in Current Chemistry, (169)Electron Transfer I:231--251, 1994. [PUMA: Group Main electron hydride induced light review;organometallic review;review transfer]
Chemical and electrochemical reduction of pentacarbonyl(4-cyanopyridine) complexes of chromium(0), molybdenum(0) and tungsten(0). Inorganic Chemistry, (23)4:504--506, 1984. [PUMA: Group VIB carbonyl chem chromium complex;ESR complex;tungsten cyanopyridine cyanopyridine;molybdenum electrochem electroredn electroredn;cyanopyridine electroredn;redn pentacarbonyl redn redn;electroredn]
Heterocyclic radical anions as ligands: An unexpected coordination change in pentacarbonylmetal complexes. Angewandte Chemie, (94)9:712--713, 1982. [PUMA: ESR VIB benzo benzochalcogenadiazole;oxadiazole carbonyl carbonyl;selenadiazole carbonyl;sulfadiazole group]
EPR Characteristics of the (NC)5M(NO)3- Ions (M = Fe, Ru, Os). Experimental and DFT Study Establishing NO.bul. as a Ligand. Inorganic Chemistry, (40)22:5704--5707, 2001. [PUMA: 8 ESR ESR;osmium ESR;ruthenium Group complex complex;iron cyano nitrosyl prepn]
Ambidentate ligand with high p-acceptor capacity: D6-metal complexes of 4,4'-bipyrimidine. Angewandte Chemie, (97)5:431--433, 1985. [PUMA: Group VIB bipyridine bipyrimidine bipyrimidine;bipyrimidine bipyrimidine;chromium bipyrimidine;tungsten carbonyl carbonyl;molybdenum carbonyl;redox electrochem metal ruthenium ruthenium;carbonyl transition]
Mono- and binuclear tri- and tetracarbonyl complexes of chromium(0), molybdenum(0), and tungsten(0) with the 2,2'-bipyrimidine radical anion. Inorganic Chemistry, (23)21:3365--3368, 1984. [PUMA: Group VIB anion;molybdenum bipyrimidine carbonyl carbonyl;ESR radical substitution tributylphosphine]
Coordination characteristics of four isomeric a-diimine ligands. p Molecular orbital perturbation calculations for the bidiazines and their correlation with the properties of group 6 metal carbonyl complexes. Journal of the American Chemical Society, (108)13:3578--3586, 1986. [PUMA: Group VIB basicity bidiazine bidiazine;Group bidiazine;bipyrazine bidiazine;electron bidiazine;molybdenum bidiazine;redox bidiazine;tungsten carbonyl carbonyl;bipyridazine carbonyl;bipyrimidine carbonyl;chromium configuration potential]
Structures and redox properties of metal complexes of the electron-deficient diphosphine chelate ligand R,R-quinoxP. Organometallics, (27)2:218--223, 2008. [PUMA: carbonyl complex complex;electrooxidn complex;electroredn complex;palladium crystal diphosphinoquinoxaline group platinum prepn structure structure;platinum structure;rhenium]
EPR study of electron transfer and group transfer in organoplatinum(II) and (IV) compounds. Journal of the Chemical Society, Perkin Transactions 2: Physical Organic Chemistry, 12:2573--2577, 1997. [PUMA: 4 anion;ESR chelate chelate;electron chelate;homolysis diazabutadiene diazabutadiene;methyl diazabutadiene;platinum electrochem group mesityl methyl organoplatinum photochem platinum radical radical;photohomolysis redn transfer]