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February 2018 |
Mechanistic insights into electrocatalytic CO 2 reduction within [Ru II (tpy)(NN)X] n+ architectures
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January 2014 |
Selective Earth-Abundant System for CO 2 Reduction: Comparing Photo- and Electrocatalytic Processes
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January 2019 |
Fundamentals and applications of photocatalytic CO2 methanation
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July 2019 |
CO2 electrochemical catalytic reduction with a highly active cobalt phthalocyanine
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August 2019 |
Re(I) NHC Complexes for Electrocatalytic Conversion of CO 2
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March 2016 |
Enhanced Electrochemical CO 2 Reduction by a Series of Molecular Rhenium Catalysts Decorated with Second-Sphere Hydrogen-Bond Donors
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April 2020 |
Kinetic and Mechanistic Effects of Bipyridine (bpy) Substituent, Labile Ligand, and Brønsted Acid on Electrocatalytic CO 2 Reduction by Re(bpy) Complexes
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January 2018 |
Robust and Selective Cobalt Catalysts Bearing Redox-Active Bipyridyl- N -heterocyclic Carbene Frameworks for Electrochemical CO 2 Reduction in Aqueous Solutions
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June 2019 |
Photocatalytic Reduction of Carbon Dioxide to CO and HCO 2 H Using fac -Mn(CN)(bpy)(CO) 3
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March 2016 |
Judicious Ligand Design in Ruthenium Polypyridyl CO 2 Reduction Catalysts to Enhance Reactivity by Steric and Electronic Effects
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July 2016 |
Activating a Low Overpotential CO 2 Reduction Mechanism by a Strategic Ligand Modification on a Ruthenium Polypyridyl Catalyst
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December 2015 |
Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes
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October 2018 |
Push or Pull? Proton Responsive Ligand Effects in Rhenium Tricarbonyl CO 2 Reduction Catalysts
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December 2014 |
Molecular polypyridine-based metal complexes as catalysts for the reduction of CO 2
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January 2017 |
Modifying the steric and electronic character within Re(I)-phenanthroline complexes for electrocatalytic CO 2 reduction
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July 2018 |
Turning on the Protonation-First Pathway for Electrocatalytic CO 2 Reduction by Manganese Bipyridyl Tricarbonyl Complexes
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February 2017 |
(1,2-Azole)bis(bipyridyl)ruthenium(II) Complexes: Electrochemistry, Luminescent Properties, And Electro- And Photocatalysts for CO 2 Reduction
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December 2020 |
New nickel–carbon dioxide complex: synthesis, properties, and crystallographic characterization of (carbon dioxide)-bis(tricyclohexylphosphine)nickel
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January 1975 |
Ultraefficient selective homogeneous catalysis of the electrochemical reduction of carbon dioxide by an iron(0) porphyrin associated with a weak Broensted acid cocatalyst
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June 1994 |
Catalysis of the Electrochemical Reduction of Carbon Dioxide by Iron(0) Porphyrins: Synergystic Effect of Weak Brönsted Acids
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January 1996 |
Efficient photochemical reduction of CO 2 to CO by visible light irradiation of systems containing Re(bipy)(CO) 3 X or Ru(bipy) 3 2+ –Co 2+ combinations as homogeneous catalysts
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January 1983 |
One- and two-electron pathways in the electrocatalytic reduction of CO 2 by fac-Re(bpy)(CO) 3 Cl (bpy = 2,2′-bipyridine)
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January 1985 |
Electrocatalytic reduction of carbon dioxide mediated by Re(bipy)(CO) 3 Cl (bipy = 2,2′-bipyridine)
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January 1984 |
Photochemical and Electrochemical Reduction of Carbon Dioxide to Carbon Monoxide Mediated by (2,2?-Bipyridine)tricarbonylchlororhenium(I) and Related Complexes as Homogeneous Catalysts
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December 1986 |
A Local Proton Source Enhances CO 2 Electroreduction to CO by a Molecular Fe Catalyst
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October 2012 |
Catalysis of the electrochemical reduction of carbon dioxide
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January 2013 |
Mechanistic Contrasts between Manganese and Rhenium Bipyridine Electrocatalysts for the Reduction of Carbon Dioxide
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November 2014 |
Synergistic Effects of Imidazolium-Functionalization on fac -Mn(CO) 3 Bipyridine Catalyst Platforms for Electrocatalytic Carbon Dioxide Reduction
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March 2019 |
Positional effects of second-sphere amide pendants on electrochemical CO 2 reduction catalyzed by iron porphyrins
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January 2018 |
Efficient and selective molecular catalyst for the CO 2 -to-CO electrochemical conversion in water
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May 2015 |
Proton-Assisted Reduction of CO 2 by Cobalt Aminopyridine Macrocycles
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April 2016 |
Heterogeneous Aqueous CO 2 Reduction Using a Pyrene-Modified Rhenium(I) Diimine Complex
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June 2019 |
Competitive 13 C and 18 O kinetic isotope effects on CO 2 reduction catalyzed by Re(bpy)(CO) 3 Cl
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January 2015 |
Renaissance of pyridine-oxazolines as chiral ligands for asymmetric catalysis
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January 2018 |
Electrochemical Reduction of CO 2 Catalyzed by Re(pyridine-oxazoline)(CO) 3 Cl Complexes
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March 2017 |
Palladium-Catalyzed Allylic Cross-Coupling Reactions of Primary and Secondary Homoallylic Electrophiles
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July 2012 |
Simple construction of an infrared optically transparent thin-layer electrochemical cell
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November 1991 |
SHELXT – Integrated space-group and crystal-structure determination
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January 2015 |
Crystal structure refinement with SHELXL
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January 2015 |
The M06 suite of density functionals for main group thermochemistry, thermochemical kinetics, noncovalent interactions, excited states, and transition elements: two new functionals and systematic testing of four M06-class functionals and 12 other functionals
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July 2007 |
Universal Solvation Model Based on Solute Electron Density and on a Continuum Model of the Solvent Defined by the Bulk Dielectric Constant and Atomic Surface Tensions
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https://doi.org/10.1021/jp810292n
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May 2009 |
Energy-adjustedab initio pseudopotentials for the second and third row transition elements
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January 1990 |
Single-Ion Solvation Free Energies and the Normal Hydrogen Electrode Potential in Methanol, Acetonitrile, and Dimethyl Sulfoxide
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January 2007 |
Elucidation of the Selectivity of Proton-Dependent Electrocatalytic CO 2 Reduction by fac -Re(bpy)(CO) 3 Cl
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October 2013 |
Aqueous Solvation Free Energies of Ions and Ion−Water Clusters Based on an Accurate Value for the Absolute Aqueous Solvation Free Energy of the Proton
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August 2006 |
Absolute Potential of the Standard Hydrogen Electrode and the Problem of Interconversion of Potentials in Different Solvents
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June 2010 |
Electrocatalytic CO 2 reduction using rhenium(I) complexes with modified 2-(2′-pyridyl)imidazole ligands
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April 2017 |
CO 2 Capture by a Rhenium(I) Complex with the Aid of Triethanolamine
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October 2013 |
Determining the Overpotential for a Molecular Electrocatalyst
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December 2013 |
Standard Reduction Potentials for Oxygen and Carbon Dioxide Couples in Acetonitrile and N , N -Dimethylformamide
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December 2015 |
An in situ infrared study of CO2 reduction catalysed by rhenium tricarbonyl bipyridyl derivatives
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January 1992 |
Spectroelectrochemical (IR, UV/Vis) Determination of the Reduction Pathways for a Series of [Re(CO)3(.alpha.-diimine)L']0/+ (L' = Halide, OTf-, THF, MeCN, n-PrCN, PPh3, P(OMe)3) Complexes
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March 1995 |
Electrocatalytic Reduction of CO2 Using the Complexes [Re(bpy)(CO)3L]n (n = +1, L = P(OEt)3, CH3CN; n = 0, L = Cl-, Otf-; bpy = 2,2‘-Bipyridine; Otf- = CF3SO3) as Catalyst Precursors: Infrared Spectroelectrochemical Investigation
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July 1996 |
Re(bipy-tBu)(CO) 3 Cl−improved Catalytic Activity for Reduction of Carbon Dioxide: IR-Spectroelectrochemical and Mechanistic Studies
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October 2010 |
Manganese as a Substitute for Rhenium in CO 2 Reduction Catalysts: The Importance of Acids
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February 2013 |
Manganese Catalysts with Bulky Bipyridine Ligands for the Electrocatalytic Reduction of Carbon Dioxide: Eliminating Dimerization and Altering Catalysis
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February 2014 |
Electrocatalytic Reduction of Carbon Dioxide with a Manganese(I) Tricarbonyl Complex Containing a Nonaromatic α-Diimine Ligand
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May 2014 |
Developing a Mechanistic Understanding of Molecular Electrocatalysts for CO 2 Reduction using Infrared Spectroelectrochemistry
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April 2014 |
Synthesis and properties of [Ru(tpy)(4,4′-X2bpy)H]+ (tpy=2,2′:6′,2″-terpyridine, bpy=2,2′-bipyridine, X=H and MeO), and their reactions with CO2
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March 2000 |
Striking Differences in Properties of Geometric Isomers of [Ir(tpy)(ppy)H] + : Experimental and Computational Studies of their Hydricities, Interaction with CO 2 , and Photochemistry
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October 2015 |
Isolation of intermediates in the water gas shift reactions catalyzed by [Ru(bpy)2(CO)Cl]+ and [Ru(bpy)2(CO)2]2+
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April 1986 |
Carbon-Carbon Bond Formation in Multi-electron Reduction of Carbon Dioxide Catalyzed by [Ru(bpy)(trpy)(CO)] 2+ (bpy = 2,2′-bipyridine; trpy = 2,2′:6′,2″-terpyridine)
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June 1993 |
Visible-Light-Driven Conversion of CO 2 to CH 4 with an Organic Sensitizer and an Iron Porphyrin Catalyst
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December 2018 |
Visible-light-driven methane formation from CO2 with a molecular iron catalyst
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July 2017 |
Durable Solar-Powered Systems with Ni-Catalysts for Conversion of CO 2 or CO to CH 4
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March 2019 |
Mechanism of Photocatalytic Reduction of CO 2 by Re(bpy)(CO) 3 Cl from Differences in Carbon Isotope Discrimination
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July 2016 |