环氧乙烷和环氧丙烷共聚物及其盐复合物的结晶与熔融

环氧乙烷和环氧丙烷共聚物及其盐复合物的结晶与熔融齐力，林云青，陈东霖（中国科学院长春应用化学研究所长春１３００２２）关键词环氧乙烷环氧丙烷共聚物，高分子固体电解质，结晶，熔融聚环氧乙烷（ＰＥＯ）及其盐复合物等￣［１，２］是一类高分子固体电解质，但ＰＥ...     

环氧乙烷和环氧丙烷共聚体系的等温结晶和熔融

环氧乙烷（ＥＯ）和环氧丙烷（ＰＯ）共聚体系的等温结晶前期符合Ａｖｒａｍｉ方程。ＰＯ组分含量增加，Ａｖｒａｍｉ指数ｎ值由１．８到２．４，体系的结晶生长速率与共聚体系的组成和结晶度有关，ＥＯ／ＰＯ共聚体系的平衡熔点随ＰＯ含量的增加而降低。随Ｔｃ增大，△Ｈｍ与△Ｓｍ呈线性降低。     

环氧乙烷和环氧丙烷共聚物及其LiClO4复合物的热性能

用ＤＳＣ研究了环氧乙烷和环氧丙烷共聚物（ＥＯ／ＰＯ）及其ＬｉＣｌＯ＿４复合物的组成与热性能的关系，结果表明，结晶熔融热溶随ＰＯ的增加而减少，同时，结晶度下降，电导率上升；Ｏ／Ｌｉ＝２０的试样在２次升温中产生冷结晶；热历史影响聚合物的热性能。     

环氧乙烷环氧丙烷开环聚合反应动力学研究

环氧乙烷和环氧丙烷由于具有较高的环张力,因而容易发生开环聚合。本文综述了环氧乙烷合环氧丙烷开环聚合反应的动力学研究进展,考察了环氧乙烷和环氧丙烷开环聚合反应的机理,分别讨论了各类催化剂体系中环氧乙烷和环氧丙烷开环聚合的动力学常数、两者的竞聚率及开环聚合产物的分子量分布,并指出了开环聚合反应动力学研究对于环氧乙烷和环氧丙烷的开环聚合研究及工业应用的重要性。     

环氧乙烷环氧丙烷共聚醚的研究进展

综述了环氧乙烷环氧丙烷共聚醚的聚合机理聚合工艺及其应用.环氧乙烷环氧丙烷共聚醚的聚合按其催化剂体系的机理可以分为阴离子聚合、阳离子聚合和配位聚合三类,其中阳离子聚合应用较少.在环氧乙烷和环氧丙烷开环聚合生成共聚醚的反应中,不同的反应工艺条件对生成的聚醚有着很大的影响.同样比例的环氧乙烷和环氧丙烷,因聚合反应器设计、反应器种类、起使剂种类催化剂种类与用量温度加料方式端基结构等的不同,所合成的共聚醚会产生不同的结构和性能.环氧乙烷环氧丙烷共聚形成的聚醚可以分为嵌段共聚醚和无规共聚醚两类.其中,嵌段共聚醚可以分为EPE和PEP两类.     

环氧乙烷和环氧丙烷开环聚合

环氧乙烷和环氧丙烷的开环聚合产物在表面活性剂工业和聚氨酯工业得到了极为广泛的应用.本文综述了近几年来发展的用于环氧乙烷和环氧丙烷开环聚合的各类催化剂体系,分别讨论了各类催化剂体系对环氧乙烷和环氧丙烷的不同作用机制,考察了反应物结构对反应活性和选择性的影响,重点介绍了配位络合催化剂体系在环氧乙烷和环氧丙烷开环聚合反应中的应用,并指出了今后研究的方向.     

利用双水相体系的温度诱导效应萃取甘草酸

利用双水相分配技术结合温度诱导效应提取甘草酸，研究甘草酸单铵盐在环氧乙烷－环氧丙烷共聚物（EOPO）／混合磷酸钾（KHP）体系中的分配行为，通过实验确定了最佳体系：EOPO L64浓度为28（wt)%，K2HPO4浓度为32（wt）％。甘草酸单铵盐最大总收率达68.4%，为工业上采用双水相技术提取干草酸提供了一种新途径。     

乙酰丙酮钇催化环氧氯丙烷的均聚合与共聚合

用过渡金属络合催化剂聚合环氧氯丙烷能获高分子量的聚合物。稀土络合催化剂对环氧乙烷,环氧丙烷及环硫丙烷的开环聚合具有明显效果。本文选用Y(acac)_3-H_2O-Al(i-Bu)_3催化剂,考察环氧氯丙烷的均聚合及其与环氧乙烷,环氧丙烷的共聚合,并用核     

环氧氯丙烷与环氧乙烷及环氧丙烷的三元共聚

研究了用三异丁基铝-磷酸-含氮含硫给电子化合物作为催化剂使环氧氯丙烷、环氧乙烷及环氧丙烷三元共聚的行为。结果指出,作为催化剂第三组分以二甲基苯胺的效果最好。催化体系中存在与磷酸相等克分子的水时催化活性较高。酸铝比在0.25及胺铝比在0.2时活性最高。三异丁基铝用量占总单体重量的2.5％,70℃,4小时聚合转化率可达95％左右,共聚物的η_i达到2附近。通过共聚物氯含量的测定及利用核磁共振波谱仪测定环氧丙烷链节含量,求得共聚过程中各单体组分的变化。固定单体中环氧氯丙烷配比,改变环氧丙烷及环氧乙烷配比,则随环氧丙烷比例增加,所得共聚物η_i下降,T_g呈现最小值的变化。     

聚碳酸亚丙亚乙酯的合成和生物降解

由ＣＯ２和环氧丙烷的催化共聚制备了聚碳酸亚雨酯（ＰＰＣ），向ＰＰＣ引入环氧乙烷结构单元得到聚碳酸亚西亚乙酯（ＰＰＥＣ），用１ＨＮＭＲ等进行了结构表征，并用土埋法进行了生物降解性能的测定，结果表明ＰＰＣ仅在分子量很低时才具备显著的生物降解性能；而ＰＰＥＣ的生物降解速度高于分子量相近的ＰＰＣ．此外，土埋三月后共聚物的组成和分子量都保持基本不变，表明实验条件下生物降解主要在聚合物的表面进行．     

傅立叶变换离子回旋共振质谱进展

综述了傅立叶变换离子回旋共振质谱（ＦＴＩＣＲＭＳ）仪器特点和各种新技术。主要对紫外光解离技术、红外多光子解离技术、表面诱导解离、黑体红外辐射离、电子捕获解离等离子解离新方法进行了介绍。此外,应用多次激发碰撞活化技术、超低能量激发技术、持续偏共振激发、存储波形逆傅立叶变换技术等离子再测量技术能提高源内离子碰撞诱导解离效率,更好的实现ＭＳ＾n的产技术。文章最后阐述了ＦＴＭＳ在生物分析及气相分子离子反应     

Thermodynamic study of CN~- ion inhibition of Jack bean urease using the extended solvation theory

Cyanide ion was studied as an inhibitor of Jack bean urease at 300 K in 30 mmol/L tris buffer,pH 7.The inhibition was investigated by isothermal titration calorimetry(ITC).The extended solvation model was used for CN~- + JBU interaction over the whole range of CN~- concentrations.The binding parameters recovered from the solvation model were attributed to the cyanide ion interaction.It was found that cyanide ion acted as a non-cooperative inhibitor of urease,and there is a set of 12±0.12 identical and in...     

Thermodynamic Study of Myelin Basic Protein upon Interaction with [Hg2+] Using Extension Solvation Model

Mercury ion interaction with myelin basic protein (MBP) was studied at 300 K in 30 mmol/L tris buffer, pH=7 by isothermal titration calorimetry (ITC). An extended solvation model was used for Hg²⁺+MBP interaction over the whole range of Hg²⁺ concentrations. The binding parameters recovered from the solvation model were attributed to the structural changes of MBP due to its interaction with mercury ion. It was found that mercury ion acted as a noncooperative effector of MBP, and there is a set of two identical and independent binding sites for Hg²⁺ ions. The dissociation equilibrium constant is 97.6 µmol/L. The molar enthalpy change of binding is ?11.25 kJ·mol^?1.     

气相中双取代苯在丙酮离子体系中的加合反应研究

研究了11双取代苯在丙酮离子体系中的离子－分子反应特性及加合离子的碎裂反应特性,发现推电子基有利于加合反应的发生而吸电子基不利于加合反应的发生。双取代异构体的加合产物相对强度可以反映出它们取代基的位置及其性质的差异。邻苯二胺与乙酰基离子形成的加合离子在碎裂反应过程中可以发生与液相中胺的还原烷基化反应相类似的碎裂反应。     

Strategies for generating peptide radical cations via ion/ion reactions

Several approaches for the generation of peptide radical cations using ion/ion reactions coupled with either collision induced dissociation (CID) or ultraviolet photo dissociation (UVPD) are described here. Ion/ion reactions are used to generate electrostatic or covalent complexes comprised of a peptide and a radical reagent. The radical site of the reagent can be generated multiple ways. Reagents containing a carbon–iodine (C―I) bond are subjected to UVPD with 266‐nm photons, which selectively cleaves the C―I bond homolytically. Alternatively, reagents containing azo functionalities are collisionally activated to yield radical sites on either side of the azo group. Both of these methods generate an initial radical site on the reagent, which then abstracts a hydrogen from the peptide while the peptide and reagent are held together by either electrostatic interactions or a covalent linkage. These methods are demonstrated via ion/ion reactions between the model peptide RARARAA (doubly protonated) and various distonic anionic radical reagents. The radical site abstracts a hydrogen atom from the peptide, while the charge site abstracts a proton. The net result is the conversion of a doubly protonated peptide to a peptide radical cation. The peptide radical cations have been fragmented via CID and the resulting product ion mass spectra are compared to the control CID spectrum of the singly protonated, even‐electron species. This work is then extended to bradykinin, a more broadly studied peptide, for comparison with other radical peptide generation methods. The work presented here provides novel methods for generating peptide radical cations in the gas phase through ion/ion reaction complexes that do not require modification of the peptide in solution or generation of non‐covalent complexes in the electrospray process. Copyright © 2015 John Wiley & Sons, Ltd.     

Ion/molecule reactions in a miniature RIT mass spectrometer

Ion/molecule reactions were explored in a newly developed miniature mass spectrometer fitted with a rectilinear ion trap (RIT) mass analyzer. The tandem mass spectrometry performance of this instrument is demonstrated using collision induced dissociation (CID) and ion/molecule reactions. The latter includes Eberlin transacetalization reactions and electrophilic additions. Selective detection of the chemical warfare simulant dimethyl methyl phosphonate (DMMP) was achieved through selective Eberlin reactions of its characteristic phosphonium fragment ion CH3OP(+)(O)CH3 (m/z 93), with 1,4-dioxane or 1,3-dioxolane. Efficient adduct formation as a result of electrophilic attack by the phosphonium ion on various nucleophilic reagents, including 1,1,3,3-tetramethyl urea, methanesulfonic acid methyl ester, dimethyl sulfoxide and methyl salicylate, was also observed using the RIT device. The product ions of these reactions were analyzed using CID and the characteristic fragmentation patterns of the ionic addition products were recorded using multiple-stage experiments in the miniature RIT instrument. This study clearly demonstrates that a small, home-built, miniature RIT mass spectrometer can be used to perform analytically useful ion/molecule reactions and also that instruments like this have the potential to provide a portable platform for in situ detection of organophosphorus esters and related compounds with high specificity using tandem mass spectrometry.     

Exploring and modeling the ion mobility spectrometry of perindopril: Example of protonation-dissociation reactions in large molecules

The current research is constructed for considering the chemical ionization and dissociation of perindopril in the positive mode of corona discharge ion mobility spectrometry. Four product ion peaks are observed in the ion mobility spectrum of perindopril erbumine at the cell temperature of 473 K. These peaks are assigned through the obtained intensity variation analysis in the ion mobility spectra over the elapsed time accompanied by the calculations backed by the validated density functional theory (DFT). In this regard, the most stable ionic species associated with each peak and the corresponding reliable generation pathways are found by the well-confirmed meta hybrid density functional method, M06-2X. The peaks are assigned to the protonated perindopril and its dissociation products, including counter ion and the related fragment ions. However, the structures of the neutral perindopril in the gas phase are thoroughly assessed to find a more stable one. The predicted chemical ionization products by the theory are in excellent agreement with our presented experiment here. Theoretical evaluations demonstrated that the production of a fragment by dissociation process occurs when perindopril gets a proton from the ionization region. Also, without protons, there is no dissociation process. Therefore, our mechanism investigated here is the proton transfer one. All possible sites of perindopril are considered theoretically for protonation along with their possible reactions. In addition to the computed PES, the assigned ions for obtained spectra are confirmed by the computed equilibrium constants and rate constants. Our theoretical results show that the peak of the main fragment is for M-CH₃CH₂OH produced by a reaction pathway involving no barrier. This study opens new perspectives in interpreting large molecules spectra for future studies.     

Investigation of the Structures of the Product Ions Produced via self-CI of Acetone

TheacetoneselfCImassspectrumAcetoneselfCImassspectrumisgiveninTable1.Table1.MajorproductionsandtheirrelativeabundanceofacetoneselfCIMSTheformationofionatmlZ73AnotherproductionintheselfCIMSofacetoneistheionatm/z73.InselfCIMSofacetone-d6,thecounterpartistheionatInjz82.InselfCIMSofthemixtureofacetoneandacetone-d6inaratioofl:l,thecorrespondingionsaretheionsatInlz73,76,79and82.TheirCIDreactionresultsarelistedinTable2.Table2.TheCIDMSoftheionatIn/z73andanalogsOnthebasisofthedatainTab…     

A thermodynamic investigation on the binding of mercury ion with myelin basic protein at different temperatures

A thermodynamic study on the interaction of myelin basic protein with mercury ion was studied by using isothermal titration calonmetry,ITC,at 300.15,310.15 and 320.15 K in Tris buffer solution at pH 7.The enthalpies of MBP + Hg²⁺ interaction are reported and analysed in terms of the extended solvation model.It was found that MBP has two identical and non-cooperative binding sites for Hg²⁺ ions.The intrinsic dissociation equilibrium constants are 99.904,112.968 and 126.724μmol/L,and the molar enthalpy of binding are -11.634,-10.768 and -10.117kJ mol^-1 at 300.15,310.15 and 320.15 K,respectively.     

Study of the fragmentation mechanism of novel functionalized macrocycles by Fourier transform ion cyclotron resonance mass spectrometry

Liquid secondary ion mass spectrometry (L-SIMS) of six new functionalized macrocycles was investigated. All six compounds yielded abundant fragment ions and protonation molecular ions [M + H](+) under L-SIMS conditions. The proposed fragmentation mechanisms were supported by high-resolution accurate mass data from Fourier transform ion cyclotron resonance mass spectrometric and MS(n) experiments on using sustained off-resonance irradiation collision-induced dissociation.