ETUDE DE QUELQUES REACTIONS DE LA TRIS(TERT-BUTYL)PHENYLPHOSPHINE

Abstract

The reaction of tris(tert-butyl)phenylphosphine with some hydrogen acceptors has been investigated. Triphenylcarbenium hexafluorophosphate allows to obtain a phosphonium salt: the possibility of preliminary formation of phosphenium with a P[sbnd]H bond during this reaction is discussed. With methyltrifluoromethanesulfonate, two pentacoordinated phosphorus compounds are isolated. Diethylazodicarboxylate gives rise to a σ³, λ⁵-phosphorane. The transient formation of phosphinidene and of 1,2-bis(ethylcarboxylate) 3-tris(tert-butyl)phenyldiazaphosphirine is discussed.     

Adsorption of 1-butanol from water on modified silicate surfaces

The structure and the sorption properties of partially hydrophobized silicates (dodecylammonium and dodecyldiammonium vermiculites) have been investigated in aqueous solutions of 1-butanol. The alcohol is preferentially adsorbed on the surface. The interlayer composition is calculated from adsorption and x-ray diffraction data. In air-dried state the organic cations lie flat on the interlamellar surface. In aqueous butanol solutions, the basal spacing of dodecylammonium vermiculite gradually increases with the extent of butanol adsorption because the chains increasingly point away from the surface. The basal spacing of dodecyldiammonium vermiculite is virtually independent on the interlayer composition because the expansion of the interlayer space is sterically restricted and a relatively rigid structure is formed. The enthalpy of the displacement of water by 1-butanol has been determined by flow sorption microcalorimetry. The displacement process is endothermic.     

长链烷基季铵盐插层氧化石墨的结构变化

基于改进的Hummers法制备氧化石墨(GO),并以长链烷基季铵盐(CnTAB)对其进行插层处理;通过改变CnTAB的链长、浓度,得到系列CnTAB/GO插层复合物。采用XRD和元素分析对产物的最大底面间距及CnTAB插入量进行表征。结果表明,随着Cn TAB链长的增长、CnTAB浓度的增大,CnTAB/GO插层复合物的最大底面间距逐渐增大。CnTAB通过离子键作用和疏水键作用插入到GO层间,在GO片层上的吸附规律符合修正型(Modified)Langmuir模型,即CnTAB以单分子层吸附在GO片层上。根据CnTAB/GO插层复合物最大底面间距及CnTAB插入量的变化规律分析,得出CnTAB在GO层间的排布模式有单层平躺模式、类双层平躺模式、单层倾斜模式和单层直立模式。     

Benefits of near-infrared spectroscopy for characterization of selected organo-montmorillonites

The potential of near infrared (NIR) spectroscopy in characterization of organically modified clay minerals is introduced. Selected organo-clays, possibly perspective fillers in clay polymer nanocomposites, were prepared from Na-montmorillonite and different surfactants containing octylammonium chain(s), hexadecylammonium chain(s) or a benzene ring with or without a reactive double bond. Based on the stretching (ν) and bending (δ) vibrations observed in the middle IR (MIR) region, the first overtone (2νXH) and combination (ν + δ)XH modes of XH groups (X = O, C, N) are identified. The effect of larger alkylammonium cations on the vibrations of Si-O and OH bonds in montmorillonite layers is observed. The changes in the intensity of the (ν + δ)H₂O band near 5250 cm⁻¹ allows for comparison of the amount of water adsorbed on the montmorillonite surface. The water content decreases with the size of the organic cation reflecting increasing hydrophobicity of the montmorillonite surface. The NIR region shows the 2νCH₃ and 2νCH₂ bands in the 5900-5500 cm⁻¹ region, an upward shift is observed for the complex band due to 2νCH(Ar) of aromatic benzene ring. The NIR spectra are extremely useful in identification of NH₂⁺, NH⁺ and vinyl groups, which are difficult to recognize in the MIR spectra of organo-clays due to overlapping with other absorption bands. The intense bands corresponding to overtones and combination vibrations of NH₃⁺ and NH₂⁺ groups are found in the 6600-6050 cm⁻¹ and 5000-4600 cm⁻¹ regions, the (ν + δ)NH⁺ is unambiguously identified near 4750 cm⁻¹. The characteristic band assigned to 2νCH₂ in H₂CC is detected near 6130 cm⁻¹.     

An ab initio study of the hydration of alkylammonium groups

Ab initio STO 3G calculations of the electronic structure and interaction energies with water of methyl and ethylammonium ions are reported. It is shown that the calculations predict a preferential attack at the -group (relative to the nitrogen), in agreement with experimental facts, and that successive ethylation reduces the favorable energy of hydration.Further calculations show that due to the large positive charges on the hydrogens, direct C–H... O hydrogen bond formation is possible. Thus a water molecule forms such a hydrogen bond of - 10kcal/mole in NMe ₄ ⁺ ; of –9kcal/mole at an position in the ethylated ions and of –6 kcal/mole at a position. The a preference noted above is thus preserved. It seems unlikely that such interactions significantly change the overall hydration described above. Although twelve sites for H-bonding exist in NMe ₄ ⁺ , they approach each other rather closely and after addition of four water molecules further water molecules introduce such intermolecular repulsions as to reduce rather than increase the total hydration energy which remains always slightly lower than that obtained with water in the axial type of site described above [14].     

Conductances and solubilities of uni-univalent electrolytes in 2-cyanopyridine at 30°C

Conductance measurements for twenty-five uni-univalent electrolytes in 2-cyanopyridine at 30°C (dielectric constant=93.8) were made over the concentration range of 1.4-100×10^–4 mol-dm^–3. All conductance data were evaluated by the Lee-Wheaton equation. The results indicate only slight association for most of the salts but Et₂H₂NBr and Et₃HNBr are quite strongly associated while ammonium picrate, AgNO₃ and LiClO₄ show less, but significant, association. Picric acid was found to be a weak acid in 2-cyanopyridine. Ionic limiting equivalent conductances were evaluated using (i-Pent)₃BuNPh₄ as a reference electrolyte. Anions appear tobe poorly solvated while cations show some evidence of ion-solvent interaction. Solubilities were determined for eight salts of moderate-to-low solubility in 2-cyanopyridine. Single ion free energies of transfer from water to 2-cyanopyridine were estimated for ions from these salts using the AsPh₄NBPh₄ approximation. The results indicate that 2-cyanopyridine is not a particularly good solvating medium for most common inorganic salts.This study was presented, in part,at the Fifth International Conference on Non-Aqueous Solutions, University of Leeds, England, July 1976.     

Morphological and mechanical behavior of montmorillonite grafted block copolymer brushes

Here we report the phase behavior of a family of montmorillonite (MMT) block copolymer brushes (MBBs), a novel class of polymer nanocomposites. MBBs are comprised of discrete MMT platelets encapsulated with block copolymer brushes. These MBBs were synthesized via surface-initiated atom transfer radical polymerization using halogenated alkylammonium surfactants to localize initiation sites on the clay surfaces. Two styreninc MBB systems—poly(styrene-b-n-butyl acrylate) and poly(styrene-b-t-butyl acrylate)—were prepared varying the composition and total 80–250 kDa. MBB materials were compared with their non-clay bulk block copolymer counterparts via electron microscopy and a host of mechanical tests in both the solid and melt states. Notably, MBBs have similar melt-state rheological properties compared to neat block copolymers and are thus amenable to current processing techniques. MBBs were found to self-assemble into single grain morphologies across incredibly large areas (>3 μm) which resulted in extremely well-ordered, defect-free lamellar structures with applications in microelectronics. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2016, 54, 353–361     

Properties of rubber filled with montmorillonite with various surface modifications

Layered silicate/natural rubber composites were prepared by direct polymer melt intercalation. Na‐montmorillonite Kunipia‐F and its organic derivates (organo‐clays) prepared by ion exchange were used as clay fillers. Silica (SiO₂) Ultrasil VN3, a filler commonly used in the rubber industry, was used in combination with clay fillers. The effect of clay or organo‐clay loading from 1 up to 10 phr without (0 phr) or with silica (15 phr) showed significant improvement of the tensile properties (stress at break, strain at break and modulus M100). Modification of montmorillonite by three alkylammonium cations with the same length of alkylammonium chain (18 carbons) and different structure resulted in altered reinforcing and plasticizing effects of the filler in composites with rubber matrix. Copyright © 2011 John Wiley & Sons, Ltd.     

SYNTHESIS AND REACTIONS OF SOME 2-THIENYL- AND 2-THENOYL-DERIVATIVES OF THIAZOLE AND THIADIAZOLINE AND THEIR SELENIUM ANALOGS

Abstract

2-(Thiocyanatoacetyl)thiophene 2 and its selenium analog 3 couple with diazotized anilines and yield 3-aryl-2-imino-5-(2-thenoyl)-2,3-dihydro-1,3,4-thiadiazoles 6 and 3-aryl-2-imino-5-(2-thenoyl)-2,3-dihydro-1,3,4-selenadiazoles 7 respectively. The reactions of both 6 and 7 with nitrous acid, acetic anhydride and benzoyl chloride are described. Azo coupling of 2-amino-4-(2-thienyl)thiazole 17 and its selenazole analog 18 with diazotized anilines yielded the arylazo derivatives 19 and 20 respectively. Reaction of the hydrazidoyl bromide 16 with potassium thiocyanate, potassium selenocyanate, thiourea and selenourea yields 6, 7, 19, and 20 respectively.     

Synthesis, spectroscopic characterization and X-ray structure determination of tetrabutylammonium trans-diamminetetranitrocobaltate(III)

The cobalt(III) complex salt [(C₄H₉)₄N][trans-Co(NH₃)₂(NO₂)₄] has been synthesized in high yield by reacting equimolar quantities of [(C₄H₉)₄N]Br and K[trans-Co(NH₃)₂(NO₂)₄] in aqueous medium at room temperature. The product thus formed has been re-crystallised from acetone-water mixture, in the monoclinic space group P 2₁/n, with cell dimensions a=11.651(3) ?, b=19.005(4) ?, c=11.733(5) ?, β=90.28(3)°. The X-ray structure determination revealed the presence of discrete ions, [(C₄H₉)₄N]⁺ and [trans-Co(NH₃)₂(NO₂)₄]⁻. The central metal ion cobalt(III) in the anion is found in octahedral environment, in trans geometry, while the organic counterion is a quaternary alkylammonium cation. The crystal lattice is stabilized by electrostatic interactions between the cations and anions.Supplementary material Crystallographic data (excluding structure factors) for the structure(s) reported in this paper have been deposited with the Cambridge Crystallographic Data Centre as supplementary publication no. CCDC 291300. Copies of the data can be obtained free of charge on application to CCDC, 12 Union Road, Cambridge CB2 1EZ, UK (fax: (44) 1223 336-033; e-mail: deposit@ccdc.cam.ac.uk.