Publications
2-Aminopyridine and Related Ligands to Support Metal-Metal Bonded Compounds. Comprehensive Coordination Chemistry III (Third Edition). 1:Pages406-427.
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2021. Anilinopyridinate-supported Ru2x+ (x = 5 or 6) paddlewheel complexes with labile axial ligands. Dalton Transactions.
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2017. Aryl C–H Amination by Diruthenium Nitrides in the Solid State and in Solution at Room Temperature: Experimental and Computational Study of the Reaction Mechanism. Journal of the American Chemical SocietyJournal of the American Chemical Society. 133(33):13138-13150.
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2011. Aryl C−H Bond Amination by an Electrophilic Diruthenium Nitride. Journal of the American Chemical SocietyJournal of the American Chemical Society. 132(35):12228-12230.
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2010. Assessing Metal–Metal Multiple Bonds in Cr-Cr, Mo-Mo, and W-W Compounds and a Hypothetical U-U Compound: A Quantum Chemical Study Comparing DFT and Multireference Methods. Chemistry – A European JournalChemistry – A European Journal. 18:1737-1749.
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2012. Axial Ligand Coordination to the C–H Amination Catalyst Rh2(esp)2: A Structural and Spectroscopic Study. Inorganic Chemistry. 54(17):8817-8824.
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2015. Capturing the missing [AgF2]- anion within an Ru2(iii/iii) dimeric dumbbell complex. Dalton Transactions. :-.
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2016. Catalyst-Controlled and Tunable, Chemoselective Silver-Catalyzed Intermolecular Nitrene Transfer: Experimental and Computational Studies. Journal of the American Chemical Society.
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2016. Catalyst-Controlled Nitrene Transfer by Tuning Metal:Ligand Ratios: Insight into the Mechanisms of Chemoselectivity. Organometalics. 36
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2017. Chemically Reversible Four-Electron Oxidation and Reduction Utilizing Two Inorganic Functional Groups. Journal of the American Chemical SocietyJournal of the American Chemical Society. 133(9):2856-2859.
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2011. Chloro and Azido Diruthenium Complexes Bearing Electron-Rich N,N′,N′′-Triphenylguanidinate Ligands. Inorganic ChemistryInorganic Chemistry. 48(20):9846-9852.
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2009. .
2023. Cobalt complexes of the chelating dicarboxylate ligand “esp”: a paddlewheel-type dimer and a heptanuclear coordination cluster . Dalton Transactions. 47(39):13887-13893.
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2018. Comparison of Reactivity and Enantioselectivity between Chiral Bimetallic Catalysts: Bismuth-Rhodium- and Dirhodium-Catalyzed Carbene Chemistry. ACS Catalysis. 8(11):10676–10682.
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2018. Completing the series of Group VI heterotrimetallic M2Cr(dpa)4Cl2 (M2 = Cr2, Mo2, MoW and W2) compounds and investigating their metal–metal interactions using density functional theory. Inorganica Chimica Acta. 424:241-247.
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2015. .
2023. A convenient, high-yielding, chromatography-free method for the insertion of transition metal acetates into porphyrins. Polyhedron. :-.
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2012. Coordination Chemistry of 2,2’-Dipyridylamine: The Gift That Keeps on Giving. Comments on Inorganic ChemistryComments on Inorganic Chemistry. 36(1):17-37.
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2016. Covalent Attachment of Catalyst Molecules to Conductive Diamond: CO2 Reduction Using “Smart” Electrodes. Journal of the American Chemical SocietyJournal of the American Chemical Society.
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2012. Crystals in Which Some Metal Atoms are More Equal Than Others: Inequalities From Crystal Packing and Their Spectroscopic/Magnetic Consequences. Journal of the American Chemical SocietyJournal of the American Chemical Society. 132(40):14261-14272.
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2010. A Definitive Answer to a Bonding Quandary? The Role of One-Electron Resonance Structures in the Bonding of a {Cu3S2}3+ Core Chemistry – A European JournalChemistry – A European Journal. 16:2719-2724.
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2010. Delocalized Metal–Metal and Metal–Ligand Multiple Bonding in a Linear RuRuN Unit: Elongation of a Traditionally Short RuN Bond. Angewandte Chemie International EditionAngewandte Chemie International Edition. 47:10102-10105.
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2008. Diamagnetic Corrections and Pascal's Constants. Journal of Chemical EducationJournal of Chemical Education. 85(4):532.
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2008. Direct Observation of Node-to-Node Communication in Zeolitic Imidazolate Frameworks. Journal of the American Chemical Society. 140(37):11573–11576.
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2018. Direct Spectroscopic Characterization of a Transitory Dirhodium Donor-Acceptor Carbene Complex. Science.
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2013. Dirhodium Catalysts That Bear Redox Noninnocent Chelating Dicarboxylate Ligands and Their Performance in Intra- and Intermolecular C–H Amination. European Journal of Inorganic ChemistryEuropean Journal of Inorganic Chemistry. 2012:562-568.
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2012. Do Metal–Metal Multiply-Bonded “Ligands” Have a trans Influence? Structural and Magnetic Comparisons of Heterometallic CrCr···Co and MoMo···Co Interactions European Journal of Inorganic ChemistryEuropean Journal of Inorganic Chemistry. 2008:5569-5572.
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2008. Electrolyte Dependence of CO2 Electroreduction: Tetraalkylammonium Ions Are Not Electrocatalysts. ACS CatalysisACS Catalysis. 5(2):703-707.
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2015. Electronic structure and spectroscopy of "superoxidized" iron centers in model systems: theoretical and experimental trends. Physical Chemistry Chemical Physics. 10(30):4361-4374.
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2008. Electronic Structure of Anilinopyridinate-Supported Ru25+ Paddlewheel Compounds. Inorganic Chemistry. 56
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2017. Electronic Structure of Ni2E2 Complexes (E = S, Se, Te) and a Global Analysis of M2E2 Compounds: A Case for Quantized E2n– Oxidation Levels with n = 2, 3, or 4. Journal of the American Chemical SocietyJournal of the American Chemical Society. 137(15):4993-5011.
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2015. Electronic Structure of Ru26+ Complexes with Electron-Rich Anilinopyridinate Ligands. Inorganic Chemistry. 61(8)
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2022. Electronic Structure of Ru2(II,II) Oxypyridinates: Synthetic, Structural, and Theoretical Insights into Axial Ligand Binding. Inorganic Chemistry. 54(17):8571-8589.
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2015. Electronic tuning of Mo2(thioamidate)4 complexes through [small pi]-system substituents and cis/trans isomerism. Dalton Transactions. 43(16):6165-6176.
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2014. Electrophilic Aryl C-H Amination by Dimetal Nitrides: Correlating Electronic Structure with Reactivity. Chemical Science. :-.
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2012. Evidence for a One-Electron Mechanistic Regime in Dirhodium-Catalyzed Intermolecular C-H Amination. Chemistry – A European JournalChemistry – A European Journal. 17:5827-5832.
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2011. Expanding the family of heterobimetallic Bi-Rh paddlewheel carboxylate complexes via equatorial carboxylate exchange. Dalton Transactions. 45(1):50-55.
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2016. Extraordinarily Large Ferromagnetic Coupling (J≥150 cm−1) by Electron Delocalization in a Heterometallic Mo≣Mo−Ni Chain Complex. Chemistry A European Journal. 24
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2018. Facile Axial Ligand Substitution in Linear Mo≣Mo–Ni Complexes. Inorganic Chemistry. 57(15):9354–9363.
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2018. The first bismuth(II)–rhodium(II) oxypyridinate paddlewheel complexes: synthesis and structural characterization. Journal of Coordination ChemistryJournal of Coordination Chemistry. :1-8.
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2016. Formation of the N≡N Triple Bond from Reductive Coupling of a Paramagnetic Diruthenium Nitrido Compound. Journal of the American Chemical Society. 144(7)
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2022. From Pincer to Paddlewheel: C–H and C–S Bond Activation at Bis(2-pyridylthio)methane by Palladium(II). Inorganic Chemistry. 58(4):2270-2274.
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2019. Group 6 Complexes with Iron and Zinc Heterometals: Understanding the Structural, Spectroscopic, and Electrochemical Properties of a Complete Series of M M···M′ Compounds. Inorganic ChemistryInorganic Chemistry. 50(16):7650-7661.
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2011. Heterometallic Multiple Bonding: Delocalized Three-Center σ and π Bonding in Chains of 4d and 5d Transition Metals. Inorganic Chemistry. 53(21):11354-11356.
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2014. Heterometallic Second-Row Transition Metal Chain Compounds in Two Charge States: Syntheses, Properties, and Electronic Structures of [Mo–Mo–Ru]6+/7+ Chains. Inorganic Chemistry. 54(15):7660-7665.
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2015. Heterotrimetallic Precursor with 2:2:1 Metal Ratio Requiring at Least a Pentanuclear Molecular Assembly. Journal of the American Chemical Society. 142(29):12767–12776.
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2020. Influence of Lewis acid charge and proximity in MoMo⋯M linear chain compounds with M = Na+, Ca2+, Sr2+, and Y3+. Special Issue in Honor of Malcolm H. Chisholm on the Occasion of his 70th Birthday. 103, Part A:71-78.
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2016. An “Intermediate Spin” Nickel Hydride Complex Stemming from Delocalized Ni2(μ-H)2 Bonding. Journal of the American Chemical SocietyJournal of the American Chemical Society. 136(39):13538-13541.
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2014. Introducing a Metal−Metal Multiply Bonded Group as an “Axial Ligand” to Iron: Synthetic Design of a Linear Cr−Cr···Fe Framework. Journal of the American Chemical SocietyJournal of the American Chemical Society. 129(42):12684-12685.
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2007. Introducing a Mixed-Valent Dirhodium(II,III) Catalyst with Increased Stability in C-H Amination. Chemical Communications. :-.
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