Tag: M.W=350-400

Farrington, John A. published the artcileBipyridylium quaternary salts and related compounds. Part 6. Pulse radiolysis studies of the reaction of paraquat radical analogs with oxygen, HPLC of Formula: 47369-00-6, the publication is Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases (1978), 74(3), 665-75, database is CAplus.

Decay curves were determined for reaction with O₂ of radicals (R⁺•) derived by pulse radiolysis from a series of bipyridylium dications, R²⁺, which are related to the herbicide paraquat. The shapes of the curves were consistent with decay due to reaction of R⁺• with both O₂ and O₂^–•, and rate constants k₁ and k₂, resp., were estimated for these reactions. For compounds with redox potentials above -0.2 V, the reverse reaction, between O₂• and R²⁺, was included in the kinetic scheme. The k₁ values were mostly 4 × 10⁸ to 9 × 10⁸ dm³/mol/s, and k₂ values were all higher. The correlation of the rate constants with the difference between redox potentials of donor and acceptor was discussed.

Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases published new progress about 47369-00-6. 47369-00-6 belongs to pyridine-derivatives, auxiliary class Pyridine,Salt,Benzene,Organic ligands for MOF materials,Nitrogen containing MOF ligands,Nitrogen containing MOF ligands, name is 1,1′-Diphenyl-[4,4′-bipyridine]-1,1′-diium chloride, and the molecular formula is C22H18Cl2N2, HPLC of Formula: 47369-00-6.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Khaskin, Eugene published the artcileFormal loss of an H radical by a cobalt complex via metal-ligand cooperation, SDS of cas: 338800-13-8, the publication is Chemical Communications (Cambridge, United Kingdom) (2013), 49(27), 2771-2773, database is CAplus and MEDLINE.

A (PNP)Co(i)methyl diamagnetic complex formally loses an H atom from the pincer ligand, exhibiting a long-range metal-ligand cooperation in what may be considered as an unusual example of C-H cleavage. Spectroscopic data indicate that the product is a neutral Co(i) complex with a radical delocalized in the ligand backbone.

Chemical Communications (Cambridge, United Kingdom) published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, SDS of cas: 338800-13-8.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Langer, Robert published the artcileLow-Pressure Hydrogenation of Carbon Dioxide Catalyzed by an Iron Pincer Complex Exhibiting Noble Metal Activity, Synthetic Route of 338800-13-8, the publication is Angewandte Chemie, International Edition (2011), 50(42), 9948-9952, S9948/1-S9948/13, database is CAplus and MEDLINE.

A new iron pincer complex as hydrogenation catalyst, trans-[(^tBuPNP)Fe(H)₂(CO)] (4) (^tBuPNP = 2,6-bis(di-tert-butylphosphinomethyl)pyridine) is prepared and its crystal structure determined CO₂ and sodium bicarbonate are efficiently hydrogenated in aqueous media at 80° under remarkably low pressures (6-10 bar), with turnover numbers up to 788 and turnover frequencies up to 156 h^-1. The reaction likely proceeds through direct attack of the Fe hydride to the CO₂, followed by replacement of the resulting formate ligand by H₂O. Dihydrogen coordination, prior to heterolytic cleavage of H₂ by hydroxide or dearomatization and subsequent proton migration are plausible pathways for the regeneration of 4. The hydrido formate complex [(^tBu-PNP)Fe(H)(CO)(η¹-OOCH)] (5) was characterized by multinuclear NMR spectroscopy and single-crystal x-ray diffraction.

Angewandte Chemie, International Edition published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, Synthetic Route of 338800-13-8.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Goni, A. Md. published the artcileCoordination nature of europium(III) with ^tBuPNP (2,6-bis(di-tert-butylphosphinomethyl) pyridine) ligand, COA of Formula: C23H43NP2, the publication is Inorganica Chimica Acta (2013), 645-648, database is CAplus.

The reaction of 2,6-bis(di-tert-butylphosphinomethyl)pyridine (PNP) with hydrated Eu(III) chloride yields a novel complex, dichlorotriaqua[2,6-bis(di-tert-butylphosphorylmethyl)pyridine]europium(III) chloride. The complex crystallizes as a dihydrate. IR, ¹H and ³¹P NMR spectroscopic studies were undertaken along with x-ray diffraction studies for structural elucidation. The solid state structure of the compound reveals the insertion of O atoms in the inner coordination sphere bridging P and Eu atoms. The metal center is a seven coordinate system ligated by two chloride ligands, three H₂O ligands and two O atoms from the oxidized phosphine moiety of the PNP ligand. The N atom of the pyridine unit of the ligand is not coordinated to the metal center.

Inorganica Chimica Acta published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, COA of Formula: C23H43NP2.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Boelter, Scott D. published the artcileEvaluation of Bis(phosphine) Ligands for Ethylene Oligomerization: Discovery of Alkyl Phosphines as Effective Ligands for Ethylene Tri- and Tetramerization, Quality Control of 338800-13-8, the publication is Organometallics (2020), 39(7), 967-975, database is CAplus.

Fifty-three bis(phosphines) were evaluated as ligands for chromium-catalyzed ethylene tetramerization in a high-throughput reactor. Ligands previously reported in the literature gave high activities with expected selectivities when evaluated under our reactor conditions. While the majority of ligands evaluated gave low activity catalysts that produced mostly high-d. polyethy1613170629lene (HDPE), alkyl phosphines were unexpectedly identified as a promising ligand class. In particular, the MeDuPhos ligand led to an active catalyst that produced 81.8 weight % α-olefins (50.0 wt % 1-octene, 31.8 wt % 1-hexene) and 3.5 wt % HDPE, approaching the selectivity of the state-of-the-art i-Pr-PNP ligand.

Organometallics published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, Quality Control of 338800-13-8.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Ben-Ari, Eyal published the artcileOrtho C-H activation of haloarenes and anisole by an electron-rich iridium(I) complex: mechanism and origin of regio- and chemoselectivity. An experimental and theoretical study, Name: 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, the publication is Organometallics (2006), 25(13), 3190-3210, database is CAplus.

Iridium(I) pincer PNP-complex undergoes facile C-H-activation with benzene, haloarenes and anisole, forming stable hydrido-aryl Ir(III) complexes; the origin of ortho-chemoselectivity of the reaction was explored exptl. and by quantum-chem. calculations Reaction of (PNP)Ir(COE)⁺PF₆^– (1; PNP = 2,6-bis(di-tert-butylphosphinomethyl)pyridine; COE = cyclooctene) with benzene yields a stable unsaturated square pyramidal Ir(III) hydrido-aryl complex, [(PNP)Ir(H)(Ph)] (2), which undergoes arene exchange upon reaction with other arenes at 50°. Upon reaction of 1 with haloarenes (chlorobenzene and bromobenzene) and anisole at 50°, selective ortho C-H activation takes place. No C-halogen bond activation was observed, even in the case of the normally reactive bromobenzene and despite the steric hindrance imposed by the halo substituent. The ortho-activated complexes [(PNP)Ir(H)(Ar)](8a, 9a, 10a; Ar = 2-ClC₆H₄, 2-BrC₆H₄, 2-MeOC₆H₄) exhibited a higher barrier to arene exchange; i.e., no exchange took place when heating at a temperature as high as 60°. These complexes were more stable, both thermodynamically and kinetically, than the corresponding meta- and para-isomers. The observed selectivity is a result of coordination of the heteroatom to the metal center, which kinetically directs the metal to the ortho C-H bond and stabilizes the resulting complex thermodynamically. Upon reaction of complex 1 with fluorobenzene under the same conditions, no such selectivity was observed, due to low coordination ability of the fluorine substituent. Competition experiments showed that the ortho-activated complexes 8a, 9a, and 10a have similar kinetic stability, while thermodynamically the chloro and methoxy complexes 8a and 10a are more stable than the bromo complex 9a. Computational studies, using the DFT mPW1K exchange-correlation functional and a variety of basis sets for PNP-based systems, provide mechanistic insight. The rate-determining step for the overall C-H activation process of benzene is COE dissociation to form a reactive 14e complex, followed by formation of a η²_C-C intermediate, which is converted into an η²_C-H complex, both being important intermediates in the C-H activation process. In the case of chlorobenzene, bromobenzene, and anisole, η¹-coordination via the heteroatom to the 14e species followed by formation of the ortho η²_C-H complex leads to selective activation. The unobserved C-halide activation process was shown computationally in the case of chlorobenzene to involve the same Cl-coordinated intermediate as in the C-H activation process, but it experiences a higher activation barrier. The ortho C-H activation product is also thermodynamically more stable than the C-Cl oxidative addition complex.

Organometallics published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, Name: 2,6-Bis((di-tert-butylphosphino)methyl)pyridine.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Kindl, M. published the artcileScreening of phosphine ligands for anti-Markovnikov hydration of alkynes, Related Products of pyridine-derivatives, the publication is Chemicke Listy (2016), 110(11), 832-835, database is CAplus.

Hydration of C≃C bond is a very efficient synthetic step. Currently, there exist ruthenium catalytic complexes, preferably with phosphine or bipyridine ligands, able to hydrate with “anti-Markovnikov” selectivity, producing aldehydes. Although development of novel hydration catalysts was fruitful in recent years, only very few mechanistic studies of mol. structural influences are described. On the model hydration or 1-heptyne, we tested a series of various organophosphine ligands with various nitrogen functionalities having different acid-base properties. This screening showed that ligands with methylene-substituted nitrogen in five-membered ring are very promising to synthesize a catalyst for anti-Markovnikov hydration of alkynes.

Chemicke Listy published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, Related Products of pyridine-derivatives.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Besmer, Manuel Luca published the artcileExploring the Coordination Chemistry of N₂ with Technetium PNP Pincer-Type Complexes, COA of Formula: C23H43NP2, the publication is Inorganic Chemistry (2021), 60(9), 6696-6701, database is CAplus and MEDLINE.

Dinitrogen (N₂) complexes of technetium (⁹⁹Tc) are rare, and only two examples have been reported. To complement this important class of complexes also for ⁹⁹Tc, two different pincer-type complexes of ⁹⁹Tc were studied to assess their abilities for coordinating dinitrogen. The reactions of the ⁹⁹Tc^III complex [⁹⁹TcCl₃(PPh₃)₂(NCCH₃)] with the pincer ligands PNP^tBu and ^PyrPNP^tBu resp. gave [⁹⁹Tc(PNP^tBu)Cl₂] and [⁹⁹Tc(^PyrPNP^tBu)Cl₃], the first structurally characterized ⁹⁹Tc complexes with mer-coordinated pincer ligands. Reductions with [Co(Cp*)₂] under N₂ gave the mononuclear bis-dinitrogen complex [⁹⁹Tc^I(PNP^tBu)(N₂)₂] and the dinuclear complex [⁹⁹Tc^I(^PyrPNP^tBu)(N₂)Cl]₂(μ-N₂) with both a bridging and a terminal N₂ ligand. Spectroscopy and crystal structures confirm their identities. The complexes are stable under a dinitrogen atm., and the N₂ ligands are tightly bound. The results for the complexes with the PNP^tBu pincer allow a comparison to its rhenium homolog, which has recently been shown to split the N₂ ligand with the formation of a nitrido complex.

Inorganic Chemistry published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C23H43NP2, COA of Formula: C23H43NP2.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Simler, Thomas published the artcileChromium(II) Pincer Complexes with Dearomatized PNP and PNC Ligands: A Comparative Study of Their Catalytic Ethylene Oligomerization Activity, Category: pyridine-derivatives, the publication is Organometallics (2016), 35(24), 4044-4049, database is CAplus.

Monodeprotonation of the 2,6-bis(di-tert-butylphosphinomethyl)pyridine (^tBuPN^tBuP) at the α-lutidinyl-CH₂ position with 1 equiv of KCH₂C₆H₅ and concomitant dearomatization of the heterocycle afforded K(^tBuP^*N_a^tBuP) (^tBuP^* = di-tert-Bu vinylic P donor, ^tBuP = PtBu₂, N_a = anionic amido N donor); its transmetalation with [CrCl₂(THF)₂] afforded the Cr(II) complex [Cr(^tBuP^*N_a^tBuP)Cl] (A). The x-ray diffraction anal. of A established a slightly distorted square-planar coordination geometry at the metal center and confirmed retention of the dearomatized coordinated ligand. The catalytic activity of A in ethylene oligomerization was studied and compared with that of the related Cr(II) complexes [Cr(^tBuP^*N_aC^NHC)Cl] (B) and [Cr{Cr(^tBuP^*N_a^tBuP^*)Cl}₂] (C) previously reported.

Organometallics published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C5H5N3S, Category: pyridine-derivatives.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem

Shaffer, David W. published the artcileSpin-state diversity in a series of Co(II) PNP pincer bromide complexes, Quality Control of 338800-13-8, the publication is Dalton Transactions (2016), 45(44), 17910-17917, database is CAplus and MEDLINE.

The authors describe the structural and electronic impacts of modifying the bridging atom in a family of Co(II) pincer complexes Co(t-Bu)₂P^EPy^EP(t-Bu)₂Br₂ (Py = pyridine, E = CH₂, NH, and O for compounds 1–3, resp.). Structural characterization by single crystal x-ray diffraction indicates that compounds 1 and 3 are 5-coordinate complexes with both bromides bound to the Co ion, while compound 2 is square planar with one bromide in the outer coordination sphere. The reduction potentials of 1–3, characterized by cyclic voltammetry, are consistent with the increasing electron-withdrawing character of the pincer ligand as the linker (E) between the pyridine and phosphine arms becomes more electroneg. Magnetic property studies of compounds 1 and 2 confirm high- and low-spin behavior, resp., through a broad temperature range. However, complex 3 features an unusual combination of high spin S = 3/2 Co(II) and temperature dependent spin-crossover between S = 3/2 and S = 1/2 states. The different magnetic behaviors observed among the three CoBr₂ pincer complexes reflects the importance of small ligand perturbations on overall coordination geometry and resulting spin state properties.

Dalton Transactions published new progress about 338800-13-8. 338800-13-8 belongs to pyridine-derivatives, auxiliary class Bis-phosphine Ligands, name is 2,6-Bis((di-tert-butylphosphino)methyl)pyridine, and the molecular formula is C7H5ClN2S, Quality Control of 338800-13-8.

Referemce:
https://en.wikipedia.org/wiki/Pyridine,
Pyridine | C5H5N – PubChem