M.W=100-200 | Page 308 of 347 | Chiral nitrogen ligands

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Chiral pyridinyloxazolidine ligands and copper chloride complexes

Two chiral bidentate C1-symmetric 1,3-oxazolidine ligands (1 and 2) and coordination complexes with copper(II) chloride (Cu2C 14(C15H14H2O)2 (3) and [Cu2C14(C16H16N2O)2]CH 30H (4)) were synthesized and characterized by X-ray crystallographic techniques. The ligands maintain the same stereochemistry within all structures, resulting in an anti-relationship between the 2,4-substituents. Structures 3 and 4 dimerized through bridging chlorides and 3 has an extended hydrogen bonding network resulting in an infinite 1D chain.

Reference£º
Chiral nitrogen ligands in late transition metal-catalysed asymmetric synthesis¡ªI. Addressing the problem of ligand lability in rhodium-catalysed hydrosilations,
Nitrogen-Containing Ligands for Asymmetric Homogeneous and Heterogeneous Catalysis

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Photochemical studies on bicyclo[2.1.1]hexyl derivatives: Chemical behavior and asymmetric induction

The photochemical behavior of bicyclo[2.1.1]hexyl derivatives was investigated by irradiation with a 450 W medium-pressure mercury lamp in acetonitrile solution. The irradiation of methyl bicyclo[2.1.1]hexane-5- carbonylbenzoate (1a) led to both Norrish type II cyclization and cleavage products with a molar ratio of 1:2.2, whereas the irradiation of methyl 5-methylbicyclo[2.1.1]hexane-5-carbonylbenzoate (1b) afforded the only Norrish/Yang photocyclization compound as the sole product. Such results were illustrated by several geometric parameters for Norrish/Yang photoreaction as phi1, phi4 and beta obtained from the crystal structures. Furthermore, asymmetric photochemical studies using ionic chiral auxiliary technique were also conducted in the solid state. Bicyclo[2.1.1] hexanyl derivatives were synthesized and their photochemical behaviour was investigated in acetonitrile solution. Copyright

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Evaluation of ligands for ketone reduction by asymmetric hydride transfer in water by multi-substrate screening

Various ligands for the ruthenium-catalyzed enantioselective reduction of ketones in water have been investigated. Multi-substrate reactions have been carried out for the comparison of various proline amides and aminoalcohol ligands. Two sets of six aromatic ketones have been selected in order to evaluate the enantiomeric excesses of all the resulting alcohols by a single chromatographic analysis. The proline amide derivative prepared from (1R,2S)-cis-aminoindanol revealed as the best ligand for most of the ketones used in the multi-substrate reductions. This ligand has been employed for the enantioselective reduction of a variety of other aromatic ketones and in all cases the enantiomeric excesses were improved compared to those obtained with phenylprolineamide used in our previous work.

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Understanding and manipulating the separation in hydrophilic interaction liquid chromatography

Hydrophilic interaction liquid chromatography (HILIC) has emerged as a valuable complimentary technique to reversed-phase (RP), being especially suited for the analysis of polar and ionised solutes, which are difficult to retain in RP. For solutes amenable to both separation mechanisms, HILIC provides a different selectivity to RP, and also offers possibilities as an orthogonal mechanism for 2-dimensional LC when combined with RP. HILIC has further advantages of lower column back pressures, and increased sensitivity with mobile phase evaporative detectors such as electrospray mass spectrometry. This review covers progress in our understanding of the HILIC technique, principally over the last ten years, including the classification of columns, the factors that control retention and selectivity, and attempts to model the separation process and its kinetics.

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Sometimes chemists are able to propose two or more mechanisms that are consistent with the available data. HPLC of Formula: C7H9N, If a proposed mechanism predicts the wrong experimental rate law, however, the mechanism must be incorrect.Welcome to check out more blogs about 108-47-4, in my other articles.

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POTENTIOMETRIC METHOD OF DETERMINATION OF DISTRIBUTION CONSTANTS OF COMPLEXES IN SOLVENT EXTRACTION. PART II. DETERMINATION OF DISTRIBUTION COEFFICIENTS OF SILVER(I) COMPLEXES OF PYRIDINE DERIVATIVES

Distribution coefficients of silver(1) complexes of pyridine derivatives have been determined potentiometrically by simultaneous measurement of and .All measurements were run at 25 +/- 0.1 deg C at an ionic strength Iota = 0.5 (KNO3).The knowledge of the distribution coefficients of particular complexes enables to determine magnitudes characterizing the extraction systems, such as extraction coefficient and percentage of extraction.

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Quantitative determination of acid sites on silica-alumina

The density of acid sites on amorphous silica alumina has been determined using a combination of gravimetric and spectroscopic analysis using pyridine and 2,4-lutidine and 2,6-lutidine for surfaces treated at different calcination temperatures. An attempt was made to correlate the number of acid sites determined by the different base molecules with the activity for liquid phase reaction of acetone to produce diacetone alcohol at 298 K. The best correlation was obtained with the number of Lewis acid sites which were able to retain pyridine after evacuation at 473 K. The lutidines underestimated the number of Lewis sites on the oxide surface. In particular, 2-6-lutidine was only able to detect Lewis acid sites in geometries at edges and other geometric imperfections on the solid and these were mainly generated after low temperature (573 K) calcination treatment.

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Synthetic Route of 108-47-4, Because a catalyst decreases the height of the energy barrier, its presence increases the reaction rates of both the forward and the reverse reactions by the same amount.108-47-4, Name is 2,4-Dimethylpyridine, molecular formula is C7H9N. In a article£¬once mentioned of 108-47-4

2? Biaryl amides as novel and subtype selective M1 agonists. Part I: Identification, synthesis, and initial SAR

Biaryl amides were discovered as novel and subtype selective M1 muscarinic acetylcholine receptor agonists. The identification, synthesis, and initial structure-activity relationships that led to compounds 3j and 4c, possessing good M1 agonist potency and intrinsic activity, and subtype selectivity for M1 over M2-5, are described.

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Tuning of the catalytic properties of PdCl2(X nPy)2 complexes by variation of the basicity of aromatic ligands

The position and number of substituents in pyridine ligands (X nPy) were correlated with structural, physical, and chemical properties of PdCl2(XnPy)2 complexes applied as catalysts for the carbonylation of aromatic nitrocompounds (phosgene-free method of carbamates production). Thermal stability and catalytic activity of PdCl2(XnPy)2 complexes without steric hindrance increases with increasing XnPy’s basicity whereas a decrease of thermal stability and catalytic activity of the complexes is observed for sterically crowded complexes (with the ortho-substituted XnPy). The complexes with X = Cl in meta- position of XnPy decompose to a mixture of PdCl2 and metallic Pd (similarly to complexes with Me nPy) whereas complexes with ortho-chlorine (in XnPy) decompose to the organopalladium products. Therefore, two different mechanisms of thermal decomposition are proposed for PdCl2(Cl nPy)2 and PdCl2(MenPy)2. The results of complex thermal and structural analysis of a series of PdCl 2(XnPy)2 complexes allow us to get insight into the mechanism of nitrobenzene (NB) carbonylation catalyzed by PdCl 2(XnPy)2 at 150-180 C. We conclude that the electron transfer from Pd(0) to nitrobenzene is the rate determining step of catalytic cycle of NB carbonylation.

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The Structure of Amine Adducts of Triorganylboroxines

In a series of donor-acceptor adducts of amines to triorganylboroxines (Tables 1,2) it has been shown by 1H and 11B NMR spectroscopy that in solution the amine undergoes a temperature dependent fluctuation between the boron atoms of the boroxine ring.In the solid state, as determined by X-ray structural analysis of two selected 3:2 an 1:2 adducts (3 and 6) (boron-nitrogen ratios of 1:1 and 3:1, respectively), only one boron atom of each boroxine ring is involved in adduct formation.

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Iridium-Catalyzed Asymmetric Hydrogenation of Unfunctionalized Exocyclic C=C Bonds

An iridium-catalyzed asymmetric hydrogenation of unfunctionalized exocyclic C=C bonds was performed by using an axially flexible chiral phosphine?oxazoline ligand, providing the desired chiral 1-benzyl-2,3-dihydro-1H-indene products with up to 98 % ee (enantiomeric excess). This represents the first general hydrogenation of unfunctionalized exocyclic olefins with high selectivity reported thus far. The additive acetate ion plays an important role in the reaction’s high enantioselectivity. The chiral product can be further transformed into key intermediates required for the synthesis of an important insecticide and a drug compound.