|
Enhanced Activation of Coordinated Dinitrogen with p-Block Lewis Acids
|
journal
|
June 2018 |
|
Theoretical Insights into Pyridinium-Based Photoelectrocatalytic Reduction of CO 2
|
journal
|
April 2012 |
|
Beyond fossil fuel–driven nitrogen transformations
|
journal
|
May 2018 |
|
Hydroxylamine, Hydrazine, and Diazene as Unidentate Ligands in Osmium and Ruthenium Complexes
|
journal
|
March 1994 |
|
An Electrochemical Haber-Bosch Process
|
journal
|
January 2020 |
|
Hydrogen Bonding to a Dinitrogen Complex at Room Temperature: Impacts on N 2 Activation
|
journal
|
May 2019 |
|
Synthesis, Characterization, and Interconversion of β‐Diketiminato Nickel N x H y Complexes
|
journal
|
September 2014 |
|
Reevaluation of matrix-isolation infrared spectra of the isotopologues of trans-diazene and attempts to prepare cis-diazene by photoisomerization
|
journal
|
April 2015 |
|
The nitrogenase catalyzed N2 dependent HD formation: a model reaction and its significance for the FeMoco function
|
journal
|
May 2000 |
|
The Heats of Formation of Diazene, Hydrazine, N 2 H 3 + , N 2 H 5 + , N 2 H, and N 2 H 3 and the Methyl Derivatives CH 3 NNH, CH 3 NNCH 3 , and CH 3 HNNHCH 3
|
journal
|
August 2006 |
|
Synthese und Eigenschaften von Rhenium-Komplexen mit N 2 -, N 2 H 2 -, N 2 H 4 - und NH 3 -Liganden / Synthesis and Properties of Rhenium Complexes with N 2 , N 2 H 2 , N 2 H 4 and NH 3 Ligands
|
journal
|
July 1977 |
|
Review of electrochemical ammonia production technologies and materials
|
journal
|
November 2013 |
|
Activation of ammonia and hydrazine by electron rich Fe( ii ) complexes supported by a dianionic pentadentate ligand platform through a common terminal Fe( iii ) amido intermediate
|
journal
|
January 2021 |
|
Lewis Acid Effects on Calculated Ligand Electronic Parameters
|
journal
|
August 2020 |
|
Structure of Diimine: IR Spectra of N2H2-, N2D2-, and15N2H2 [Cr(CO)5]2
|
journal
|
December 1973 |
|
Diazene Complexes of Copper: Synthesis, Spectroscopic Analysis, and Electronic Structure
|
journal
|
September 2004 |
|
Syntheses and reactions of hydrazine and diazene complexes of tungsten. The first example of monodentate coordination of diazene
|
journal
|
September 1993 |
|
Cp* Noninnocence Leads to a Remarkably Weak C–H Bond via Metallocene Protonation
|
journal
|
February 2019 |
|
A diazene-bridged diruthenium complex with structural restraint defined by single meta -diphosphinobenzene
|
journal
|
January 2021 |
|
Nitrogenase Model Compounds:[μ-N2H2{Fe(“NHS4”)}2], the Prototype for the Coordination of Diazene to Iron Sulfur Centers and Its Stabilization through Strong NH⃛ S Hydrogen Bonds
|
journal
|
September 1989 |
|
Transition metal complexes with sulfur ligands part CXXIX. Retention and reactivity of the [FeNHNHFe] chromophore in the iron sulfur diazene complex [μ-N2H2{Fe(PPr3)(‘S4’)}2] in exchange and oxidation processes. (‘S4’2− = 1,2-bis (2-mercaptophenylthio)ethane(2−))
|
journal
|
October 1998 |
|
Current and future role of Haber–Bosch ammonia in a carbon-free energy landscape
|
journal
|
January 2020 |
|
Life cycle analysis of an alternative to the haber-bosch process: Non-renewable energy usage and global warming potential of liquid ammonia from cyanobacteria
|
journal
|
July 2013 |
|
Catalytic N 2 -to-NH 3 Conversion by Fe at Lower Driving Force: A Proposed Role for Metallocene-Mediated PCET
|
journal
|
February 2017 |
|
Catalytic Proton Coupled Electron Transfer from Metal Hydrides to Titanocene Amides, Hydrazides and Imides: Determination of Thermodynamic Parameters Relevant to Nitrogen Fixation
|
journal
|
September 2016 |
|
Binding N2, N2H2, N2H4, and NH3 to Transition-Metal Sulfur Sites: Modeling Potential Intermediates of Biological N2 Fixation
|
journal
|
February 2004 |
|
Dinuclear Diazene Iron and Ruthenium Complexes as Models for Studying Nitrogenase Activity
|
journal
|
December 2001 |
|
[C5H5(CO)2MnN2H2Cr(CO)5], a Complex with a Diazene Bridge and Two Different Coordination Centers
|
journal
|
July 1977 |
|
A Five-Coordinate Phosphino/Acetate Iron(II) Scaffold That Binds N 2 , N 2 H 2 , N 2 H 4 , and NH 3 in the Sixth Site
|
journal
|
November 2011 |
|
Base-Mediated Conversion of Hydrazine to Diazene and Dinitrogen at an Iron Center
|
journal
|
December 2008 |
|
Coordination of CO, NO, N2H2, and Other Nitrogenase Relevant Small Molecules to Sulfur-Rich Ruthenium Complexes with the New Ligand ‘tpS4’2– = 1,2-Bis(2-mercaptophenylthio)phenylene(2–)
|
journal
|
May 2000 |
|
Molecular Catalysts for N 2 Reduction: State of the Art, Mechanism, and Challenges
|
journal
|
September 2017 |
|
The first side-on bound metal complex of diazene, HNNH
|
journal
|
January 2008 |
|
Hydrazine Formation via Coupling of a Nickel(III)–NH 2 Radical
|
journal
|
December 2020 |
|
Energy efficiency improvements in ammonia production—perspectives and uncertainties
|
journal
|
October 2005 |
|
Author Correction: Ruthenium-catalysed oxidative conversion of ammonia into dinitrogen
|
journal
|
February 2020 |
|
Thermochemistry of Proton-Coupled Electron Transfer Reagents and its Implications
|
journal
|
December 2010 |
|
Tris(pyrazolyl)borate Copper Hydroxide Complexes Featuring Tunable Intramolecular H-Bonding
|
journal
|
August 2019 |
|
The preparation, properties and reactions of diimide
|
journal
|
September 1984 |
|
Ammonia for power
|
journal
|
November 2018 |
|
Novel complexes possessing Hg–(Cl, Br, I)⋯O C halogen bonding and unusual Hg 2 S 2 (Br/I) 4 kernel. The usefulness of τ 4 ′ structural parameter
|
journal
|
May 2018 |
|
Transition metal complexes with sulfur ligands. Part CLV.11For Part CLIV see Ref. [1], Eur. J. Inorg. Chem., in press. Structural and spectroscopic characterization of hydrogen bridge diastereomers of [μ-N2H2{Fe(PR3)(‘tpS4’)}2] diazene complexes (‘tpS4’2−=1,2-bis(2-mercaptophenylthio)phenylene(2−))
|
journal
|
September 2002 |
|
Direct Proof oftrans-Diazene in Solution by Trapping and Isolation of the Trapping Products
|
journal
|
February 1997 |
|
Activation of Diazene and the Nitrogenase Problem: An Investigation of Diazene-Bridged Fe(II) Centers with Sulfur Ligand Sphere. 2. Vibrational Properties
|
journal
|
September 1997 |
|
Understanding Hydrogen Atom Transfer: From Bond Strengths to Marcus Theory
|
journal
|
January 2011 |
|
Structural evidence for a dynamic metallocofactor during N 2 reduction by Mo-nitrogenase
|
journal
|
June 2020 |
|
A motif for reversible nitric oxide interactions in metalloenzymes
|
journal
|
April 2016 |
|
A bound reaction intermediate sheds light on the mechanism of nitrogenase
|
journal
|
March 2018 |
|
Toward a dinitrogen electroreduction catalyst: characterization of a bis-ammine, a .mu.2-hydrazine, a .mu.2-diazene, and a remarkably stable .mu.2-dinitrogen complex of a ruthenium cofacial diporphyrin
|
journal
|
March 1991 |
|
On the Basicity of Organic Bases in Different Media: On the Basicity of Organic Bases in Different Media
|
journal
|
September 2019 |
|
Comment on “Structural evidence for a dynamic metallocofactor during N 2 reduction by Mo-nitrogenase”
|
journal
|
February 2021 |
|
Recent Advances and Challenges of Electrocatalytic N 2 Reduction to Ammonia
|
journal
|
May 2020 |
|
Unusual Thiolate-Bridged Diiron Clusters Bearing the cis -HN═NH Ligand and Their Reactivities with Terminal Alkynes
|
journal
|
February 2011 |
|
A new model for dioxygen binding in hemocyanin. Synthesis, characterization, and molecular structure of the .mu.-.eta.2:.eta.2 peroxo dinuclear copper(II) complexes, [Cu(HB(3,5-R2pz)3)]2(O2) (R = isopropyl and Ph)
|
journal
|
February 1992 |
|
Characterization of Structurally Unusual Diiron N x H y Complexes
|
journal
|
July 2009 |
|
Oxidation of Ammonia with Molecular Complexes
|
journal
|
September 2020 |
|
Catalytic N 2 -to-NH 3 (or -N 2 H 4 ) Conversion by Well-Defined Molecular Coordination Complexes
|
journal
|
April 2020 |
|
A complex of gold(I) benzenethiolate with isocyanide: synthesis and crystal and molecular structures
|
journal
|
March 2010 |
|
Hydrolysis of Coordinated Diazoalkanes To Yield Side-On 1,2-Diazene Derivatives
|
journal
|
February 2015 |
|
Homogeneous electrocatalytic oxidation of ammonia to N 2 under mild conditions
|
journal
|
January 2019 |
|
Carbon-free energy: a review of ammonia- and hydrazine-based electrochemical fuel cells
|
journal
|
January 2011 |
|
Kristall- und molekülstruktur des diimin-komplexes N2H2[Cr(CO)5]2 - 2THF
|
journal
|
May 1975 |
|
Homogeneous, Heterogeneous, and Biological Catalysts for Electrochemical N 2 Reduction toward NH 3 under Ambient Conditions
|
journal
|
April 2019 |
|
Competing Effects of pH, Cation Identity, H 2 O Saturation, and N 2 Concentration on the Activity and Selectivity of Electrochemical Reduction of N 2 to NH 3 on Electrodeposited Cu at Ambient Conditions
|
journal
|
November 2020 |
|
Transition metal complexes with sulfur ligands. 95. Diazene, hydrazine, ammine and azido complexes with sulfur dominated [Ru(PPh3)('buS4')] fragments ('buS4'2- = 1,2-bis(2-mercapto-3,5-di-tert-butylphenylthio)ethanato(2-))
|
journal
|
March 1993 |
|
Synthesis, structure, and spectroscopic properties of copper( II ) compounds containing nitrogen–sulphur donor ligands; the crystal and molecular structure of aqua[1,7-bis(N-methylbenzimidazol-2′-yl)-2,6-dithiaheptane]copper( II ) perchlorate
|
journal
|
January 1984 |
|
Four‐Coordinate Copper Halonitrosyl {CuNO} 10 Complexes
|
journal
|
July 2019 |
|
Electrocatalytic Ammonia Oxidation Mediated by a Polypyridyl Iron Catalyst
|
journal
|
September 2019 |
|
Metal–dioxygen and metal–dinitrogen complexes: where are the electrons?
|
journal
|
January 2010 |
|
Reactions of coordinated diazene in rhenium and tungsten complexes. Deprotonation of ligated NH:NH and subsequent hydrogen-migration to carbonyl ligands to give metal formyls
|
journal
|
January 1994 |
|
Testing the Push–Pull Hypothesis: Lewis Acid Augmented N 2 Activation at Iron
|
journal
|
April 2017 |
|
Ammonia formation by a thiolate-bridged diiron amide complex as a nitrogenase mimic
|
journal
|
March 2013 |
|
Übergangsmetallkomplexe mit Schwefelliganden, C*. Unerwartet einfache Bildung von Diazen-Komplexen und ein neuer Typ von Diastereomerie: [µ-N 2 H 2 {Fe(PPr 3 )('S 4 ')} 2 ] und analoge Komplexe mit [FeS]-Zentren. ( 'S 4 ' 2- = 1,2-Bis(2-mercaptophenylthio)ethan(2-)) / Transition Metal Complexes with Sulfur Ligands, C*. Unexpectedly Facile Formation of Diazene Complexes and a New Type of Diastereomerism: [µ-N 2 H 2 {Fe(PPr 3 )('S 4 ')} 2 ] and Analogous Complexes with [FeS]-Centers. ('S 4 ' 2- = 1,2-Bis(2-mercaptophenylthio)ethane(2-))
|
journal
|
January 1994 |
|
Modeling a Nitrogenase Key Reaction: The N2-Dependent HD Formation by D2/H+ Exchange
|
journal
|
July 1999 |
|
Top-Down Syntheses of Nickel-Based Structured Catalysts for Hydrogen Production from Ammonia
|
journal
|
December 2020 |
|
A Roadmap to the Ammonia Economy
|
journal
|
June 2020 |
|
Reaktionen an komplexgebundenen Liganden. XXXII.
|
journal
|
October 1979 |
|
Response to Comment on “Structural evidence for a dynamic metallocofactor during N 2 reduction by Mo-nitrogenase”
|
journal
|
February 2021 |
|
A Dinitrogen Dicopper(I) Complex via a Mixed-Valence Dicopper Hydride
|
journal
|
July 2016 |
|
Direct Detection of Aqueous Diazene: Its UV Spectrum and Concerted Dismutation
|
journal
|
March 1994 |