Catalytic reduction of dinitrogen to ammonia and hydrazine using iron-dinitrogen complexes bearing anionic benzene-based PCP-type pincer ligands
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- Material Type
- 記事
- Author/Editor
- Shogo KuriyamaTakeru KatoHiromasa Tanaka
- Publication, Distribution, etc.
- Publication Date
- 2022-04-29
- Publication Date (W3CDTF)
- 2022-04-29
- Periodical title
- Bulletin of the Chemical Society of Japan
- No. or year of volume/issue
- 95(4)
- Volume
- 95(4)
- ISSN (Periodical Title)
- 1348-0634
- ISSN-L (Periodical Title)
- 0009-2673
- Text Language Code
- eng
- DOI
- 10.1246/bcsj.20220048
- Persistent ID (NDL)
- info:ndljp/pid/12686432
- Collection
- Collection (Materials For Handicapped People:1)
- Collection (particular)
- 国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
- Acquisition Basis
- オンライン資料収集制度
- Date Accepted (W3CDTF)
- 2023-03-07T17:43:09+09:00
- Date Captured (W3CDTF)
- 2023-01-20
- Format (IMT)
- application/pdf
- Access Restrictions
- 国立国会図書館内限定公開
- Service for the Digitized Contents Transmission Service
- 図書館・個人送信対象外
- Availability of remote photoduplication service
- 可
- Periodical Title (URI)
- Periodical Title (Persistent ID (NDL))
- info:ndljp/pid/12686427
- Data Provider (Database)
- 国立国会図書館 : 国立国会図書館デジタルコレクション
- Summary, etc.
- コレクション : 国立国会図書館デジタルコレクション > 電子書籍・電子雑誌 > 学術機関 > 学協会
- DOI
- 10.1246/bcsj.2022004810.26434/chemrxiv-2021-qhl2q10.33774/chemrxiv-2021-qhl2q
- Access Restrictions
- インターネット公開
- Related Material
- CCDC 2105788: Experimental Crystal Structure DeterminationCCDC 2105784: Experimental Crystal Structure DeterminationCCDC 2105786: Experimental Crystal Structure DeterminationCCDC 2105785: Experimental Crystal Structure DeterminationCCDC 2105787: Experimental Crystal Structure DeterminationCCDC 2105781: Experimental Crystal Structure DeterminationCCDC 2105783: Experimental Crystal Structure DeterminationCCDC 2105782: Experimental Crystal Structure Determination
- Related Material (URI)
- Is Referenced By
- Catalytic Nitrogen Fixation Using Well‐Defined Molecular Catalysts under Ambient or Mild Reaction ConditionsSelective Borylation of C(sp<sup>3</sup>)−H Bond of Methyl Ethers Catalyzed by Iron Complexes Bearing Anionic Benzene‐Based PCP‐Pincer LigandsSynthesis and Reactivity of Manganese Complexes Bearing Anionic PNP- and PCP-Type Pincer Ligands toward Nitrogen FixationPreparation and Reactivity of Rhenium–Nitride Complexes Bearing PNP-Type Pincer Ligands toward Nitrogen FixationCatalytic production of ammonia from dinitrogen employing molybdenum complexes bearing N-heterocyclic carbene-based PCP-type pincer ligandsRecent advances in catalytic nitrogen fixation using transition metal–dinitrogen complexes under mild reaction conditions構造が明確に定義された分子触媒を用いた窒素固定
- References
- Catalytic transformation of dinitrogen into ammonia and hydrazine by iron-dinitrogen complexes bearing pincer ligandRemarkable catalytic activity of dinitrogen-bridged dimolybdenum complexes bearing NHC-based PCP-pincer ligands toward nitrogen fixationCatalytic Reduction of Molecular Dinitrogen to Ammonia and Hydrazine Using Vanadium ComplexesAccurate Coulomb-fitting basis sets for H to RnValidation of the M−C/H−C Bond Enthalpy Relationship through Application of Density Functional TheoryDirect Transformation of Molecular Dinitrogen into Ammonia Catalyzed by Cobalt Dinitrogen Complexes Bearing Anionic PNP Pincer LigandsNitrogenase MoFe-Protein at 1.16 Å Resolution: A Central Ligand in the FeMo-CofactorInsight into the Iron–Molybdenum Cofactor of Nitrogenase from Synthetic Iron Complexes with Sulfur, Carbon, and Hydride LigandsAn arene-tethered silylene ligand enabling reversible dinitrogen binding to iron and catalytic silylationCatalytic Reduction of Dinitrogen into Ammonia and Hydrazine by Using Chromium Complexes Bearing PCP‐Type Pincer Ligands**The Ferraquinone–Ferrahydroquinone Couple: Combining Quinonic and Metal-Based ReactivityComment on “Structural evidence for a dynamic metallocofactor during N <sub>2</sub> reduction by Mo-nitrogenase”Ammonia Formation Catalyzed by a Dinitrogen‐Bridged Dirhenium Complex Bearing PNP‐Pincer Ligands under Mild Reaction Conditions**Development of catalytic nitrogen fixation using transition metal complexes not relevant to nitrogenasesCatalytic conversion of nitrogen molecule into ammonia using molybdenum complexes under ambient reaction conditionsLigand binding to the FeMo-cofactor: Structures of CO-bound and reactivated nitrogenaseSquare Planar vs Tetrahedral Geometry in Four Coordinate Iron(II) ComplexesFe–N <sub>2</sub> /CO complexes that model a possible role for the interstitial C atom of FeMo-cofactor (FeMoco)NH3 formation from N2 and H2 mediated by molecular tri-iron complexesStructural evidence for a dynamic metallocofactor during N <sub>2</sub> reduction by Mo-nitrogenaseCritical evaluation of a crystal structure of nitrogenase with bound N2 ligandsMolybdenum-catalysed ammonia production with samarium diiodide and alcohols or waterComprehensive insights into synthetic nitrogen fixation assisted by molecular catalysts under ambient or mild conditionsDensity-functional thermochemistry. III. The role of exact exchangeDevelopment of the Colle-Salvetti correlation-energy formula into a functional of the electron densityBulk susceptibility corrections in nuclear magnetic resonance experiments using superconducting solenoidsA consistent and accurate<i>ab initio</i>parametrization of density functional dispersion correction (DFT-D) for the 94 elements H-PuTripodal P<sub>3</sub><sup>X</sup>Fe–N<sub>2</sub> Complexes (X = B, Al, Ga): Effect of the Apical Atom on Bonding, Electronic Structure, and Catalytic N<sub>2</sub>-to-NH<sub>3</sub> ConversionSynthesis and Characterization of (<sup>DIPP</sup>CCC)Fe Complexes: A Zwitterionic Metalation Method and CO<sub>2</sub> ReactivitySynthesis and Reactivity of Iron Complexes with a Biomimetic SCS Pincer LigandSynthesis and reactivity of iron–dinitrogen complexes bearing anionic methyl- and phenyl-substituted pyrrole-based PNP-type pincer ligands toward catalytic nitrogen fixationIron-catalysed tritiation of pharmaceuticalsCharacterization of the Earliest Intermediate of Fe-N<sub>2</sub>Protonation: CW and Pulse EPR Detection of an Fe-NNH Species and Its Evolution to Fe-NNH<sub>2</sub><sup>+</sup>Highly Effective Pincer-Ligated Iridium Catalysts for Alkane Dehydrogenation. DFT Calculations of Relevant Thermodynamic, Kinetic, and Spectroscopic PropertiesCatalytic Nitrogen-to-Ammonia Conversion by Osmium and Ruthenium ComplexesBinding of dinitrogen to an iron–sulfur–carbon siteHigh‐Spin Iron(I) and Iron(0) Dinitrogen Complexes Supported by N‐Heterocyclic Carbene LigandsCatalytic Reduction of N<sub>2</sub> to NH<sub>3</sub> by an Fe–N<sub>2</sub> Complex Featuring a C-Atom AnchorThe influences of carbon donor ligands on biomimetic multi-iron complexes for N<sub>2</sub>reductionStructural Characterization of Two CO Molecules Bound to the Nitrogenase Active SiteBalanced basis sets of split valence, triple zeta valence and quadruple zeta valence quality for H to Rn: Design and assessment of accuracySpectrophotometric Method for Determination of HydrazineNitrogenase-Relevant Reactivity of a Synthetic Iron–Sulfur–Carbon SiteEvaluating Molecular Cobalt Complexes for the Conversion of N<sub>2</sub>to NH<sub>3</sub>A bound reaction intermediate sheds light on the mechanism of nitrogenasePhenol-hypochlorite reaction for determination of ammoniaSelf—Consistent Molecular Orbital Methods. XII. Further Extensions of Gaussian—Type Basis Sets for Use in Molecular Orbital Studies of Organic MoleculesCharge, bond order and valence in the AB initio SCF theoryX-ray Emission Spectroscopy Evidences a Central Carbon in the Nitrogenase Iron-Molybdenum CofactorMechanism of Nitrogen Fixation by Nitrogenase: The Next StageDinitrogen Fixation: Rationalizing Strategies Utilizing Molecular ComplexesAn Fe-N<sub>2</sub> Complex That Generates Hydrazine and Ammonia via Fe═NNH<sub>2</sub>: Demonstrating a Hybrid Distal-to-Alternating Pathway for N<sub>2</sub> ReductionComplexes of 1,3-bis(dimethylphosphinomethyl)benzene with nickel(II), paladium(II) and iron(II) halidesA Synthetic Single-Site Fe Nitrogenase: High Turnover, Freeze-Quench <sup>57</sup>Fe Mössbauer Data, and a Hydride Resting StateDiamagnetic Corrections and Pascal's ConstantsSelf-Consistent Molecular-Orbital Methods. IX. An Extended Gaussian-Type Basis for Molecular-Orbital Studies of Organic MoleculesCatalytic conversion of nitrogen to ammonia by an iron model complexCatalytic N<sub>2</sub>-to-NH<sub>3</sub>(or -N<sub>2</sub>H<sub>4</sub>) Conversion by Well-Defined Molecular Coordination ComplexesEnergy-adjustedab initio pseudopotentials for the second and third row transition elementsCatalysis-dependent selenium incorporation and migration in the nitrogenase active site iron-molybdenum cofactorFe-Mediated Nitrogen Fixation with a Metallocene Mediator: Exploring p<i>K</i><sub>a</sub>Effects and Demonstrating ElectrocatalysisThe influence of polarization functions on molecular orbital hydrogenation energiesQuantum Mechanical Continuum Solvation ModelsLow‐Temperature N<sub>2</sub> Binding to Two‐Coordinate L<sub>2</sub>Fe<sup>0</sup> Enables Reductive Trapping of L<sub>2</sub>FeN<sub>2</sub><sup>−</sup> and NH<sub>3</sub> GenerationCharacterization of an Fe≡N–NH<sub>2</sub>Intermediate Relevant to Catalytic N<sub>2</sub>Reduction to NH<sub>3</sub>Mechanistic Studies of Ammonia Borane Dehydrogenation Catalyzed by Iron Pincer ComplexesAccurate spin-dependent electron liquid correlation energies for local spin density calculations: a critical analysisSelf-consistent molecular orbital methods. XXIII. A polarization-type basis set for second-row elementsCatalytic N<sub>2</sub>-to-NH<sub>3</sub> Conversion by Fe at Lower Driving Force: A Proposed Role for Metallocene-Mediated PCETActivation of an Open Shell, Carbyne-Bridged Diiron Complex Toward Binding of DinitrogenBimetallic iron–tin catalyst for N<sub>2</sub> to NH<sub>3</sub> and a silyldiazenido model intermediateEnergy-adjusted <i>a</i> <i>b</i> <i>i</i> <i>n</i> <i>i</i> <i>t</i> <i>i</i> <i>o</i> pseudopotentials for the first row transition elementsN<sub>2</sub>‐to‐NH<sub>3</sub> Conversion by a triphos–Iron Catalyst and Enhanced Turnover under PhotolysisMolecular N<sub>2</sub>complexes of iron stabilised by N-heterocyclic ‘pincer’ dicarbene ligandsDirect synthesis of dicarbonyl PCP-iron hydride complexes and catalytic dehydrogenative borylation of styreneN<sub>2</sub> Silylation Catalyzed by a Bis(silylene)-Based [SiCSi] Pincer Hydrido Iron(II) Dinitrogen ComplexCatalytic Reduction of Dinitrogen to Ammonia at a Single Molybdenum CenterSelective Catalytic Reduction of N<sub>2</sub> to N<sub>2</sub>H<sub>4</sub> by a Simple Fe ComplexSynthesis and Electronic Ground-State Properties of Pyrrolyl-Based Iron Pincer Complexes: RevisitedA 10<sup>6</sup>-Fold Enhancement in N<sub>2</sub>-Binding Affinity of an Fe<sub>2</sub>(μ-H)<sub>2</sub> Core upon Reduction to a Mixed-Valence Fe<sup>II</sup>Fe<sup>I</sup> StateC−H Bond Activation of Heteroarenes Mediated by a Half-Sandwich Iron Complex of N-Heterocyclic Carbene400. The determination of the paramagnetic susceptibility of substances in solution by nuclear magnetic resonanceAssessment of the Electronic Factors Determining the Thermodynamics of “Oxidative Addition” of C–H and N–H Bonds to Ir(I) ComplexesDensity-functional exchange-energy approximation with correct asymptotic behaviorCoupling dinitrogen and hydrocarbons through aryl migrationQM/MM calculations reveal a bridging hydroxo group in a vanadium nitrogenase crystal structureA molybdenum complex bearing PNP-type pincer ligands leads to the catalytic reduction of dinitrogen into ammoniaEvidence for Interstitial Carbon in Nitrogenase FeMo CofactorCatalytic Dinitrogen Reduction to Ammonia at a Triamidoamine–Titanium ComplexBCSJ Award Article : Catalytic Nitrogen Fixation via Direct Cleavage of Nitrogen-Nitrogen Triple Bond of Molecular Dinitrogen under Ambient Reaction Conditions
- Data Provider (Database)
- 国立情報学研究所 : CiNii Research
- Original Data Provider (Database)
- 雑誌記事索引データベースCrossrefCrossref科学研究費助成事業データベース科学研究費助成事業データベース科学研究費助成事業データベース科学研究費助成事業データベースCrossrefCrossrefCrossrefCrossrefCrossrefCrossrefCrossrefCrossrefCrossref
- Bibliographic ID (NDL)
- 12686432