全氟和多氟烷基磺酸的研究——ⅩⅤ.由α-氟砜基二氟甲基乙酸甲酯形成二氟卡宾和氟砜基二氟甲基阴离子

FO_2SCF_2CO_2CH_3(1)和许多亲核试剂作用时很容易发生脱羧甲基分解反应。例如X~-(Cl~-,Br~-,I~-)CNS~-,Et_3N,C_5H_5N等都可以进攻其甲基碳,接着消去CO_2,SO_2和F~-而产生:CF_2。在非水有机溶剂中,脱羧后极快地同时消去SO_2,F~-形成:CF_2;但在含水有机溶剂中,则先形成中间体FO_2SCF_2~-,它可被质子捕获生成HCF_2SO_2F(2)。大部分仍继续消除SO_2和F~-产生:CF_2。烷氧阴离子不能类似地将1分解,而是进攻1的硫原子得到相应的磺酸酯CH_3O_2CCF_2SO_2—Z(10)(Z=OCH_2CF_2CF_2H,OC_6H_5)。在无溶剂情况下,Et_2NH也能使1分解而形成:CF_2,还伴有少量进攻羧基碳的产物FO_2SCF_2CONEt_2(11)。     

高效可回收催化剂In(OTf)_3用于无溶剂条件下Pechmann缩合反应(英文)

In(OTf)3 plays the role of a Lewis acid catalyst in the Pechmann condensation of phenols with β-ketoesters under solvent-free conditions to give coumarin derivatives. This novel and inexpensive method has advantages such as short reaction time, excellent product yields, and avoids the use of organic solvents in agreement with green chemistry principles. Catalyst loadings can be as low as 1 mol% to give high yields of the corresponding coumarins at 80 °C. The catalyst can be recovered after the reaction, and reused with only a slight decrease in the yield.     

Synthesis of polyfluorenes bearing lateral pyreneterminated alkyl chains for dispersion of single-walled carbon nanotubes

Two kinds of polyfluorenes bearing two lateral pyrene terminated alkyl chains and two alkyl chains per repeating unit were synthesized by Suzuki polycondensation and used to disperse single-walled carbon nanotubes(SWCNT) in organic solvents.Stable polymer-SWCNT complex can be formed via the multivalentπ-πstacking interaction of the lateral pyrene functional groups and the polyfluorene backbone with the outer surface of carbon nanotubes;meanwhile the lateral alkyl chains can impart good solubility to the complex.As expected,polyfluorenes bearing lateral pyrene functional groups and octyl chains exhibited much higher carbon nanotube solubility in common organic solvents than the corresponding polyfluorenes bearing only octyl chains.Photophysical studies indicated that the formation of polymer-SWCNT complex can effectively quench the fluorescence of polyfluorenes.     

Efficient Fixation of Carbon Dioxide by Electrolysis Facile Synthesis of Useful Carboxylic Acids

Electrochemical fixation of atmospheric pressure of carbon dioxide to organic compounds is a useful and attractive method for synthesizing of various carboxylic acids. Electrochemical fixation of carbon dioxide, electrochemical carboxylation, organic halides, organic triflates, alkenes, aromatic compounds, and carbonyl compounds can readily occur in the presence of an atmospheric pressure of carbon dioxide to form the corresponding carboxylic acids with high yields, when a sacrificial anode such as magnesium or aluminum is used in the electrolysis. The electrochemical carboxylation of vinyl bromides was successfully applied for the synthesis of the precursor of nonsteroidal anti-inflammatory agents such as ibuprofen and naproxen. On the other hand, supercritical carbon dioxide （scCO2） has significant potential as an environmentally benign solvent in organic synthesis and it could be used both as a solvent and as a reagent in these electrochemical carboxylations by using a small amount of cosolvent.     

Solvent-free Synthesis of Dihydrofuran-fused [60]Fullerene Derivatives by High-speed Vibration Milling

Solvent-free organic reactions have been attracting great interest of chemists due to the elimination of the usage of harmful organic solvents,low costs,and simplicity in the procedure1.Solvent-free mechanochemical reactions of fullerenes were explored and are significant for the reactions of fullerenes because the low solubility of fullerenes in common organic solvents requires large quantity of organic solvents and some novel fullerene reactions could only occur in the solid-state reaction2.…     

The carbon nanotubes-based materials and their applications for organic pollutant removal:A critical review

The carbon nanotubes(CNTs) as the emerging materials for organic pollutant removal have gradually become a burgeoning research field.Herein,a mini-review of CNTs-based materials curre ntly studies for organic pollutant elimination is presented.This review summarizes the preparation methods of CNTsbased materials.CNTs-based materials can be used as adsorbents to remove organic pollutants in wastewater.The adsorption mechanisms mainly include surface diffusio n,pore diffusion and adsorption reaction.Most importantly,an in-depth overview of CNTs-based materials currently available in advanced oxidation processes(AOPs) applications for wastewater treatment is proposed.CNTs-based materials can catalyze different oxidants(e.g.,hydrogen peroxide(H_2 O_2),persulfates(PMS/PDS),ozone(O_3) and ferrate/permanganate(Fe(Ⅵ)/Mn(Ⅶ)) to generate more reactive oxygen species(ROS) for organic pollutant elimination.Moreover,the possible reaction mechanisms of removing organic pollutants by CNTs-based materials are summarized systematically and discussed in detail.Finally,application potential and future research directions of CNTs-based materials in the environmental remediation field are proposed.     

Solvent-free Synthesis of Flowable Carbon Clusters with Customizable Size and Tunable Optical Performance

We propose a rapid and solvent-flee route for synthesizing luminous carbon clusters by controlling carbonization of polyethylene glycol （PEG）. This approach does not involve solvents yet uses the precursor itself as suspend- ing medium, thus features mild and green chemistry, and also enables the formation of uniform-sized carbon clus- ters, of which the diameter can be easily tuned from 0.7 to 3.5 nm via control of reaction time. In term of the di- mension, the resultants are denoted as sub-nano carbon clusters （SNCs） and carbon dots （CDs）, respectively. Bene- fiting from surface anchored PEG segments, both of the two show favorable flowability at room temperature and excellent solubility in aqueous and organic solvents. Comparison of their optical performances and structures re- veals that they share the same chromophores. Particularly, the SNCs demonstrate robust photo- and pH-stable pho- toluminescence and can be directly applied to cell-imaging regarding to its prominent biocompatibility. Moreover, its quantum yield （5.5%）, which is approximately 3 times higher than that of CDs （1.5%）, can be dramatically en- hanced to 18.8% by facile chemical reduction. We anticipate that these PEG derivatives marked with easy synthesis, controllable optical performances and excellent physical properties will be highly appealing in future applications.     

Studies on the Formation Mechanism of Silica-Sodalite in the System of Sodium Hydroxide-Silica-Ethylene Glycol

In 1985,Bibby and Dale first reported the synthesis of silica-sodalite from organic solvent such as ethylene glycol or propanol.In 1987, Van Erp and his coworkers reported the formation of crystalline aluminosilicates in organic solvents such as hexanol,glycol, glycerol, sulfolane and pyridine. Because the concepts effective in the aqueous synthesis cannot be simply applied to the nonaqueous media,the formation mechanism of zeolite in the nonaqueous system has not been investigated yet.     

全氟和多氟烷基磺酸的研究 X:在亲核取代反应中全氟烷基3-氧杂全氟烷基磺酸酯的唯一的硫-氧键断裂

Perfluoroalkyl 3-oxaperfluoralkanesulfonates XCF2OCF2CF2SO3CF2OCF2X (1) (X=CF2I (1a), CF2Cl (1b), HCF2 (1c), Cl2CF (1d)) reacted readily with various mucleophiles leading to S--O seission exclusively, thus 1 -- XCF2OCF2CF2SO2Y+XCF2OCF2COZ In the presence of a catalytic amount of halide (F-, Cl-, Br-, I-) and thiecyanate in diglyme 1 decomposed to give the corresponding sulfonly fluoride 2 (X=F) and acyl fluoride 3(Z=F). At room temperature 1 did not react with excess ethanol, but under refluxing for 12.5h, 1 was converted to 2 (Y=F) and 3 (Z=OEt). More powerful nucleophile ethoxide ion reacted readily with 1 at-60 - -50`C yielding Et2O and 3 (Z=OEt) but no 2 (Z=F). When the reaction was carried out at 80`C the yields of the products varied with the order of mixing of the reactants i.e. when 1 was added to excess ethoxide in ethanol, products are 3(Z=OEt), Et2O and 2(Y=F), but with ethoxide adding to 1 the yield of 2 (Y=F) was increased and that of ether decreased whereas the yield of 3 (Z=OEt) remained constant. Carboxylates (CF3CO2-, CH3CO2-) also caused S--O cleavage of 1 to give acetyl fluoride, 2 (y=F) and 3 (Z=F) as a result of decomposition of the intermediary mixed anhydride by the fluoride ion. In the same manner R2NH, C6H5NH2 reacted with 1 giving the products of S--O cleavage. In contrast to the nucleophilic reactions of α, α-di-H-perfluoroalkyl perfluoroalkanesulfonates (mainly C--O cleavage) it has been found that all nucleophies attack the sulfur atom of 1 exclusively. A possible interpretation is that the SN2 attack at sp3 carbon atom in highly fluorinated system is made impossible by the shielding effect of the two fluorine atoms in the alcoholic moiety and leaving the attack on the sulfur as the only alternative.     

Novel Syntheses of Aryl and Benzyl Selenides Promted by Metallic Zinc in Aqueous Media

Introduction Recently, organometallic-type of reactions in aqueous media have attracted a considerable interest in organic syntheses[1-4]. The main advantage of making organometallic reactions in strictly anhydrous organic solvents took place in aqueous media is the ease of the reactions so as to obviate the need for inflammable anhydrous organic solvents and troublesome inert atmosphere. For some reactions, e.g., the alkylations of the carbonyl group in carbohydrates didnt need to be altered to take place in organic solvents[5]. The most commonly used metals are zinc, tin and indium[1-4].     

An Integrated Theory of Adsorption and Partition Mechanism and Eash Contribution to Solute Retention in Reversed Phase Liquid Chromatography

With the combination of the the stoichiometric displacement model for retention (SDM-R) in reversed phase liquid chromatography (RPLC) and the stoichiometric displacement model for adsorption (SDM-A) in physical chemistry,the total number of moles of the re-solvated methanol of stationary phase side.nr,and that of solute side in the mobile phase,q,corresponding the one mole of the desorbing solute,were separately determined and referred as the characterization parameters of the contributions of the adsorption mechanism and partition mechanism to the solute retention,respectively.A chromatographic system of insulin,using mobile phase consisting of the pseudo-homologue of alcohols(methanol,ethanol and 2-propanol)-water and trifluoroacetic acid was employed.The maximum number of the methanol layers on the stationary phase surface was found to be 10.6,only 3 of which being valid in usual RPLC,traditionally referred as a volume process in partition mechanism.However,it still follows the SDM-R.Both of q and nr of insulin were found not to be zero,indicating that the retention mechanism of insulin is a mixed mode of partition mechanism and adsorption mechanism.When methanol is used as the organic modifier,the ratio of q/nr was 1.13,indicating the contribution to insulin retention due to partition mechanism being a bit greater than that due to adsorption mechanism.A linear relationship between q,or nr and the carbon number of the pseudo-homologue in the mobile phase was also found.As a methodology for investigating the retention mechanism retention and behavior of biopolymers.a homologue of organic solvents as the organic modifier in mobile phase has also been explored.     

GAS SORPTION,DIFFUSION AND PERMEATION OF ORDERED POLYMERIC MEMBRANES

He, CO_2, O_2, N_2, CH_4, C_3H_8, and t-C_4H_(10) gas permeability coefficients and diffusion coefficients of poly(4-methylpentene-1) (PMP) with various degrees of crystallization were plotted against the degree of crystallization. The plotdemonstrated a linear relationship. The gas permeability coefficient and diffusion coefficient of pure amorphous and purecrystalline PMPs were evaluated by a linear extrapolation to zero and 100% crystallinity, respectively. The relationshipbetween the diffusion coefficient of crystalline parts of PMP and the kinetic diameter of penetrant gases was discussed.Syndiotactic polystyrene (SPS) could exist as δ form crystals complexed with organic solvents such as benzene, toluene,xylene, and ethylbenzene. The mesophase of SPS is prepared by annealing the δ form of crystalline complexes at a certaintemperature for 1 h. The desorption of solvent during annealing almost does not result in changes of both the conformation ofbackbone chains and the crystal lattice. We could prepare the mesophase containing molecular cavities with the size andshape of the organic solvent molecules. The mesophase could sorb the same solvent after the manner of Langmuir sorption atlow vapor pressure range while this would not be the case for solvents of different size and shape. This suggests a molecularrecognition of organic solvent, and mesophase SPS might be useful for separation membrane and adsorptive material.     

STUDY ON POLYANILINE FILM WITH HIGH DENSITY AND HIGH MECHANICAL STRENGTH

Free-standing film of polyaniline with excellent mechanical and electrical properties has been successfully prepared by using the solution-casting method. The results show that its tensile strength, Young's modulus and elongation at break are about 87.9 MPa, 1563.9 MPa and 10.2%, respectively. It is essential that the soluble polyaniline should be appropriately treated in some suitable organic solvents before making a free-standing film. Films having lustrous, smooth surface, high density and good flexibility can only be doped by protonic acids of small molecular sizes, such as HCl, HClO_4 and H_2SO_4, to the metallic conducting regime (σ=6.7 S/cm). Discussions have been made in terms of doping behavior essentially affecting drawability and mechanical strengths.     

The reaction of perfluoroalkanesulfonyl halides Ⅶ. Preparation and reactions of trifluoromethanesulfonyl bromide

The reaction between sodium trifluoromethanesulfinate, which was prepared from trifluorome-thyl bromide, with bromine in aqueous solution resulted in the formation of trifluoromethanesulfonylbromide (CF_3SO_2Br). CF_3SO_2Br reacted with alkenes and alkyne to give the corresponding adductswith the loss of SO_2 in good yields, and with compounds containing active hydrogen to give brominatedderivatives. A radical reaction mechanism was proposed and confirmed by EPR study.     

An Organic Solvent-free Approach towards PDI/Carbon Cloth Composites as Flexible Lithium Ion Battery Cathodes

An acidic solution based method towards flexible lithium ion battery(LIB) cathodes is developed in this work with perylene diimide(PDI) as the electroactive component and carbon cloth(CC) as the current collector. In this approach, PDI is firstly dispersed in concentrated sulfuric acid(H_2 SO_4) and then deposited on CC substrate after the dilution of H_2 SO_4, which provides an organic solvent-free strategy to construct integrated LIB cathodes. The acdic solution based fabrication process also allows the facile adjusting of loading amounts of PDI in the cathodes,which can effectively influence the battery performances of the PDI/CC cathodes. As the result, the acidic solution processed PDI/CC cathode can deliver a high specific capacity of ～ 36 mAh·g~(-1) at the current density of 50 mA·g~(-1) in both half cell with lithium foil as anode and full cell with prelithiated CC as anode. In both types of the batteries, the PDI/CC cathodes show good cycling stabilities by retaining ～ 84% of the initial capacities after 300 charge-discharge cycles at 500 mA·g~(-1). Additionally, the excellent mechanical stability of the PDI/CC cathode enables the LIBs in pouch cell to maintain the electrochemical performances under various bending states, demonstrating their potentials for flexible LIBs.     

NEW CATALYTIC SYSTEMS FOR THE FIXATION OF CO2 Ⅲ.INFLUENCE OF ADDITIVES AND REACTION MEDIUM ON THE COPOLYMERIZATION OF CARBON DIOXIDE-EPICHLOROHYDRIN IN THE PRESENCE OF Nd (P204)3-Al(i-Bu)3*

Copolymerization of carbon dioxide with epichlorohydrin was successfully carried out by usingNd(P_(204))_3-Al(i-Bu)_3 as catalyst (P_(204))=(RO)_2 POO--,R=CH_3 (CH_2),CH(C_2H_5) CH_2--). Addi-tion of carbonyl compounds into the catalyst decreased the carbon dioxide content of the copoly-mer to some extent. Compared to nonpolar solvents, ethereal and moderate polar solvents werefavourable to obtaining higher carbon dioxide content copolymer. The coincidence of these resultswith the assumed copolymerization scheme clearly indicated that the copolymerization proceeds via coordinate anionic mechanism.     

CATIONIC POLYMERIZATION OF 1, 3—PENTADIENE INITIATED BY ORGANIC AZIDE/Et2AlCl

The cationic polymerization of 1, 3-pentadiene was initiated by the organic azide/Et_2 AlClinitiating system in CH_2Cl_2 and n-hexane. The polymerizations were also carried out in parallelwith organic chloride/Et_2AlCl and Et_2 AlCl alone for comparison. The Et_2 AlCl- induced polymer-ization gives a low yield while the polymerization initiated by organic chloride/Et_2 AlCl producesmainly insoluble product. In contrast, the polymerization with azide/Et,AlCl has a high conver-sion and the resulting polymer having a high molecular weight is totally soluble. The SEC spectraof the polymers have clearly shown the differences between these initiating systems.     

Some Organic Reactions in Supercritical Carbon Dioxide

Organic reactions in supercritical carbon dioxide (scCO2) have facilitated great progress in recent years . ScCO2, as an environmentally friendly reaction medium, may be a substitute for 1 volatile and toxic organic solvents and show some special advantages. Firstly, CO2 is inexpensive, nonflammable, nontoxic and chemical inert under many conditions. Secondly, scCO2 possesses hybrid properties of both liquid and gas, to the advantage of some reactions involving gaseous reagents. Control o…     

Intermediate Detection by SAESI-MS/MS Unveiling the Catalytic Cycle in Negishi Coupling

Becausecarbon dioxideisabundant,cheap andnontoxic in or-ganic synthesis,much work hasbeen done in organic synthesis with carbon dioxide.[1]Allenes are an important series of com-pounds,and there arelots of reports about synthesis of allenes or using allenes as starting materialsin recent years.[2]In our previ-ous work,we reportedthe synthesis of allenoic acids by using 2-alkynyl bromides with zinc powder under CO2atmosphere.[3]In order to synthesizeallenoic acids,at the beginning of our study,1-phenylhept-2-ynyl methyl carbonate 1aand diethyl zinc were used as the substrates for optimization of the reaction conditions under CO2atmosphere.Neither allenoic acid nor its zincate was obtained as we expected.However,a mixture of ethylation prod-uct 2aandβ-H elimination product 3awas formed instead as judged by NMR.β-H elimination is an intrinsic challenge in or-ganometallic reactions involving alkyl species.     

Enhancement of Formation of Polar Microenvironment in Polymer by Compressed CO_2

To date, polar microenvironments in apolar solvents have been successfully used in different ways, such as separation of proteins1, enzymatic or catalytic reactions in reverse micelles2. It is obvious that investigation of new method to create polar microenvironments is of great importance to both pure and applied sciences, and it is desirable that forming and breaking the microenvironments can be easily controlled. Compressed CO2 can dissolve in many organic solvents and the solubility can …