氟烷基化和氟烷氧基化的研究 6.铜引发氟烷基碘对含硅炔烃的加成及其产物的化学转化

在催化量的铜存在下,R_fI(1)在很温和的条件下于乙腈中与乙炔基三甲基硅烷(CH≡CSiMe_3)(2)反应,生成较高产率的(E)和(Z)-氟烷基化产物混合物(3).在相同条件下,I(CF_2)_6I(4)也能与2反应,主要生成单烷基化产物[I(CF_2)_6CH=CISiMe_3](5)和少量的双烷基化产物[Me_3SiCI=CH(CF_2)_6CH=CISiMe_3](6).当1与双(三甲基硅基)乙炔(Me_3SiC≡CSiMe_3)反应得1∶1的加成产物[Ri(Me_2SiCH_2I)C=CHSiMe_3](7)和(R_fMe_3SiC=CISiMe_3)(8).3与氢氧化钾在乙醇中反应得到(E)-R_fCH=CHI(9);与氟化钾反应则生成9的Z和E的异构体混合物;在二氯甲烷中用叔丁醇钾处理则生成相应的炔烃(10).3在室温下对酸稳定,用溴光照后则主要生成(E)-R_fCH=CBrSiMe_3(11).     

氟烷基化和氟烷氧基化的研究8.钯(O)催化氟烷基碘对炔烃的加成反应

四(三苯基膦)钯(O)在温和的条件下能催化氟烷基碘R~FI[R~F=(CF~2)~nCl,n=2;n=4;n=6;R~F=(CF~3)~nCF~3;n=3;n=1;R~F=H(CF~2)~4]对炔烃(CH≡CC~4H~9,CH≡CSiMe~3,CH≡CPh)加成生成较高产率的加成产物.二(三苯基膦)二氯化肥(II)和二(三苯基膦)氟烷基碘化钯(II)在同样的条件下无催化作用.2,2-硝基,亚硝基丙烷能部分阻止反应,这表明反应的可能中间体是自由基,而不是二(三苯基膦)氟烷基碘化钯(II).     

氟烷基化和氟烷基化的研究 4.铜引发氟烷基碘对乙烯基三甲基硅烷的加长及其立体专一性合成相应的烯烃

在催化量的铜存在下,氟烷基碘R~FI(1)与乙烯基三甲基硅烷(2)在乙腈中反应生成高产率的氟烷基化产物3,二碘化物I(CF~2)~nI(4)也能与2反应生成单烷基化产物5和双烷基化产物6, 5和6量的相对比例取决于所用2的量,这类反应能被对苯二酚阻止;被对二硝基苯部分阻止,碘苯未能捕获到氟烷基铜中间体。表明反应可能是单电子转移引发的自由基链式机理.3与二乙胺反应得高产率的反式氟烷基三甲基硅乙烯7. 3与氢氧化钾在乙醇中反应得到的是7及其顺式异构体的混合物,将混合物用少量的溴处理可得纯的反式烯烃。     

ω-氯氟烷基醇,烯烃及环氧化物的合成

本文报道在引发剂存在下, ω-氯氟烷基碘与烯丙基化合物(CH~2=CH-CH~2X, X=OH,OAC) 及乙烯基化合物CH~2=CH-OAC 发生自由基加成反应, 生成相应的加成产物Cl(CF~2)~nCH~2CHICH~2OH (2a～d), Cl(CF~2)~nCH~2CHICH~2OAC (3a～d)和Cl(CF~2)~nCH~2CHIOAC (4a～d) , 产率较好.2a～d用LiAlH~4脱碘生成Cl(CF~2)~nCH~2CH~2CH~2OH(5a～d), 反应条件温和. 2a～d与KOH-CH~3OH反应， 主要得到醇Cl(CF~2)~nCH=CHCH~2OH (6a～c), 若2a～d与NaOH-水溶液反应则得到环氧丙烷化合物. 在少量HOAC存在下， 异丙醇溶剂中， 锌粉与2a～d和3a～d反应得到消除产物Cl(CF~2)~n-CH~2CH=CH~2 (8a～d) . 4a～d与锌反应，再经KOH-CH~3OH-H~2O水解得到Cl(CF~2)~n(CH~2)~2OH(10a～d).     

混合金属钴钌原子簇Co_3Ru(CO)_(11)(NO),(RC≡CR~1)Co_3Ru(CO)_9(NO)的合成与表征

本文报道Co-Ru簇的合成与表征的研究.由Et_4N[RuCl_4(CH_3CN)_2]和Co_2(CO)_8制备了Et_4N[Co_3Ru(CO)_(12)]·1/3THF,它与等摩尔的NOBF_4反应得到Co_3Ru(CO)_(11)(NO)(1)和Co_2Ru(CO)_(11)(5).簇合物1分别与乙炔、苯基乙炔和二苯基乙炔进一步反应得到(HC≡CH)Co_3Ru(CO)_9(NO)(2),(PhC≡CH)Co_3Ru(CO)_9(NO)(3)和(PhC≡CPh)Co_3Ru(CO)_9(NO)(4).在上述反应中还分离得到(HC≡CH)Co_2Ru(CO)_96),(PhC≡CH)Co_2Ru(CO)_9(7)和(PhC≡CPh)Co_2Ru(CO)_9(8).对所得族合物1,2,3,4进行了IR,UV,~1H NMR,m.p.,元素分析和单晶X射线衍射分析等性质表征.簇合物3的晶体属单斜晶系,Pa_1/n空间群,晶胞参数为:a=1.1438(9),b=1.3033(6),c=1.4345(9)nm.β=100.72(4)°.每个晶胞中有四个分子.     

含碳硼烷半夹心型钴硫16电子化合物与二炔烃的反应性研究

含双硫取代碳硼烷二齿配体的半夹心型钴16电子化合物CpCo[S2C2(B10H10)](Co16e)分别与1,4-二乙炔基苯(L1)、(S)-2,2′-二乙酰氧基-6,6′-二乙炔基-1,1′-联萘(L2)、2-溴-5-乙炔基噻吩(L3)和2,5-二乙炔基噻吩(L4)反应,分别得到18电子单核化合物CpCo(S2C2B10H9)(H2CCPhC≡CH)(1),CpCo(S2C2B10H9)[H2CC(C24H16O4)C≡CH](2),CpCo(S2C2B10H9)[H2CC(C4H2S)Br](3),和CpCo(S2C2B10H9)[H2CC(C4H2S)C≡CH](4)。化合物1～4的结构中都发生了金属诱导B-H键活化并生成了新的C-B键。在Co16e与L4的反应中,还得到了两分子炔烃以头对头二聚插入到金属中心的18电子化合物CpCo(S2C2B10H9)[HC≡C(C4H2S)C=CH-CH=C(C4H2S)C≡CH](5)。上述化合物通过NMR、IR、MS、元素分析等方法进行表征。     

亚磺化脱卤研究 VI.带极性取代基的伯碘代全氟烷的亚磺化脱碘

本文研究了取代基对亚磺化脱碘反应的影响,带极性取代基的碘代全氟烷I(CF~2)~nO(CF~2)~2-SO~3Na(1a～1c, n=2,4,6)、I(CF~2)~nOCF~2CO~2Na(2a～2b,n=2,4)、I(CF~2)~2O(CF2)2SO~2K(3)及I(CF~2)~4OCF~2CONH~2(4)于水溶液中在温和条件下可与连二亚硫酸钠进行亚磺化脱碘反应,生成相应取代的全氟烷基亚磺酸盐NaO~2(CF~2)~nSO~3O(CF2)2Na(5a～5c,n=2,4,6)、NaO~2S(CF~2)~2-OCF~2CO~2Na(6a～6b,n=2,4)、NaO~2S(CF~2)~2O(CF~2)~2SO~2K(7)及NaO~2(CF~2)~4OCF~2CONH2(8).这些亚磺酸盐均可按常规方法转化成相应取代的磺酰氯,从而提供了合成带这些取代基的全氟烷基亚磺酸盐及磺酸等衍生物的方便途径。     

氟烷基化和氟烷基化的研究5.苯基硫酚阴离子与5-卤-3-氧杂全氟戊基二乙基磺酰胺的反应

本文研究了X(CF~2)~nI(X=H, F,Cl,Br,I),I(CF~2)~2O(CF~2)~2SO~2NEt~2,R~pCF~2Br,Br(CF~2)~2O(CF~2)~2SO~2NEt~2与PhSNa的S~[RN]1反应.这个反应不仅易于发生,而且苯基硫酚阴离子单取代产物或二取代产物的产率较高.苯基硫酚阴离子与ω-H,ω-Cl全氟烷羟并不发生反应.Cl~2CYCF~2O(CF~2)~2SO~2NEt~2(Y-Cl,F)也易于PhSNa反应,并且还发生C-O断裂得PhSCF~2-CYClH,PhSCF~2CYCl~2,PhSCF=CYCl和(PhS)~2C=C(SPh)~2,PhSCOCF~2SO~2NEt~2,估计反应是通过阴离子型链式机理.     

混合金属钴钌原子簇Co3Ru(CO)11(NO)2, (RC≡CR^1)Co3Ru(CO)9(NO)的合成与表征

本文报道Co-Ru簇的合成与表征的研究。由Et4N[RuCl4(CH3CN)2]和Co2(CO)8制备了Et4N[Co3Ru(CO)12]·1/3THF, 它与等摩尔的NOBF4反应得到Co3Ru(CO)11(NO)(1)和Co2Ru(CO)11(5)。簇合物1分别与乙炔、苯基乙炔和二苯基乙炔进一步反应得到(HC≡CH)Co3Ru(CO)9(NO)(2), (PhC≡CH)Co3Ru(CO)9(NO)(3)和(PhC≡CPh)Co3Ru(CO)9(NO)(4)。在上述反应中还分离得到(HC≡CH)Co2Ru(CO)9(6), (PhC≡CH)Co2Ru(CO)9(7)和(PhC≡CPh)Co2Ru(CO)9(8)。对所得族合物1,2,3,4进行了IR, UV,^1H NMR, m.p., 元素分析和单晶X射线衍射分析等性质表征, 簇合物3的晶体属单斜晶系, pα1/n空间群, 晶胞参数为: a=1.1438(9), b=.3033(6), c=1.4345(9)nm, β=100.72(4)°, 每个晶胞中有四个分子。     

混合金属钴钌原子簇Co3Ru(CO)11(NO)2, (RC≡CR^1)Co3Ru(CO)9(NO)的合成与表征

本文报道Co-Ru簇的合成与表征的研究。由Et4N[RuCl4(CH3CN)2]和Co2(CO)8制备了Et4N[Co3Ru(CO)12]·1/3THF, 它与等摩尔的NOBF4反应得到Co3Ru(CO)11(NO)(1)和Co2Ru(CO)11(5)。簇合物1分别与乙炔、苯基乙炔和二苯基乙炔进一步反应得到(HC≡CH)Co3Ru(CO)9(NO)(2), (PhC≡CH)Co3Ru(CO)9(NO)(3)和(PhC≡CPh)Co3Ru(CO)9(NO)(4)。在上述反应中还分离得到(HC≡CH)Co2Ru(CO)9(6), (PhC≡CH)Co2Ru(CO)9(7)和(PhC≡CPh)Co2Ru(CO)9(8)。对所得族合物1,2,3,4进行了IR, UV,^1H NMR, m.p., 元素分析和单晶X射线衍射分析等性质表征, 簇合物3的晶体属单斜晶系, pα1/n空间群, 晶胞参数为: a=1.1438(9), b=.3033(6), c=1.4345(9)nm, β=100.72(4)°, 每个晶胞中有四个分子。     

Ti-V基储氢合金及其氢化物的物相结构与组分优化设计

Ti-V基储氢合金在室温、常压下即可表现出良好的储氢特性,且质量储氢容量明显高于传统AB₅型储氢合金,从而在氢气的精制和回收、运输和储存及热泵等方面有较早的应用。 此外,在混合气体分离、核反应堆中处理氢的同位素、镍氢电池及燃料电池负极材料等方面也得到了广泛的研究与关注。 基于目前Ti-V基储氢合金的研究现状,概述了该类合金的优势、限制性因素(包括成因)及改性手段。 此外,为了进一步理解Ti-V基合金储氢机理、构建合金组分与储氢特性之间的对应关系,本工作重点围绕Ti-V基储氢合金及其氢化物的结构、组分优化设计展开综述,并对其未来研究方向做出展望。     

四环素-铕与卵磷脂的相互作用及卵磷脂的测定

以四环素(TC)-Eu3 作为荧光探针,提出了新的荧光光度法测量卵磷脂(PC)。在pH 5.7的酸度条件下,扫描不同浓度的PC与TC-Eu3 的荧光光谱。通过优化实验条件,得到了测定PC的最佳条件。卵磷脂能使TC-Eu3 位于612 nm处的特征荧光显著增强且增强的荧光强度与PC的量成正比。测量的线性范围为4.0×10-7~1.4×10-5mol/L,检出限为3.9×10-8mol/L。该方法已用于实际样品的测定。     

Synthesis and structure of hydroxyisoxazolidines and derivatives of hydroxylamine and alkenals

The reactions of N-substituted hydroxylamines with alkenals serve as a method for the synthesis of the corresponding 2-substituted 3(5)-hydroxyisoxazolidines. The reaction pathway is determined by the nature of the substituent attached to the nitrogen atom. Ring-chain isomerism has been detected in these newly obtained compoundsTranslated from Khimiya Geterotsiklicheskikh Soedinenii, No. 9, pp. 1270–1276, September, 1987.     

Ni(Ⅱ)和Zn(Ⅱ)的乙基黄原酸盐与吡啶碱配合物的合成及性质的研究

乙基黄原酸基的结构为:(简写为Exan,它是一个双齿配体,能和许多金属离子形成稳定配合物。 本文依据实验结果,对3种Ni(Ⅱ)和2种Zn(Ⅱ)的乙基黄原酸盐混合配合物的性质作一些系统的比较.应用红外光谱讨论这些混合配合物的C—O及C—S键振动频率位移;用热谱讨论它们的热稳定性及失重过程的变化;通过组成分析用电子光谱及磁学方     

红霉素9,11-亚胺醚和乙腈分子加合物的合成和晶体结构

通过控制红霉素A (E)肟的贝克曼重排反应条件合成了一种关键中间体红霉素9,11-亚胺醚, 该化合物可与乙腈形成稳定的分子加合物(摩尔比为1∶1), 未见文献报道. 阐述了该化合物的合成、晶体结构、晶体学数据和结构参数. 该化合物为无色透明晶体, 属单斜晶系, 空间群P2₁. 对该加合物和已知化合物红霉素6,9-亚胺醚晶体结构的对照解析, 有助于对重排反应机理、异构化机理和两异构体还原差异性的分析, 对重排反应和还原反应起到积极的指导作用.     

Sizes of atoms and ions and covalency of bonding in molecules and crystals

A new system of atomic radii for the elements up to barium inclusive is constructed. Values of the radii are chosen so as the dependence between the dissociation energy of diatomic homonuclear molecules and a depth of atom overlapping is monotonous, and the scatter of data is minimal. The depth of overlapping is calculated as a difference between the sum of atomic radii and an experimental interatomic distance. Conclusions are made that: the radii of free atoms and ions are determined by the value of the electron density equal to 0.01 au; they considerably change in molecules and crystals only as a result of the charge transfer from cation to anion; covalent bonding is well described by the overlapping of free atoms (ions), confined by the surface of the given radius, and its energy depends upon the depth of overlapping of valence electron densities of atoms. A method of overlapping atoms is proposed for the approximate estimation of ionic sizes and charges in bound systems.     

Interaction and Stability of Mixed Micelle and Monolayer of Nonionic and Cationic Surfactant Mixtures

Interaction and stability of binary mixtures of cationic surfactants hexadecyltrimethylammonium bromide (HTAB) or hexadecylpyridinium bromide (HPyBr) with nonionic surfactant decanoyl-N-methyl-glucamide (Mega-10) have been studied at different mole fraction of cationic surfactants by using interfacial tension measurements and fluorescence probe techniques. From interfacial tension measurements, the critical micellar concentration and various interfacial thermodynamic parameters have been evaluated. The experimental cmc's were analyzed with the pseudophase separation model, the regular solution theory, and the Maeda's approach. These approaches allowed us to determine the interaction parameter and composition in the mixed state. By using the static quenching method, the mean micellar aggregation numbers of pure and mixed micelles of HTAB + Mega-10 were obtained. It has been observed that the aggregation number of mixed micelles deviates negatively from the ideal behavior. The micropolarity of the micelle was monitored with pyrene fluorescence intensity ratio and found to be increase with the increase of ionic content. The polarization of fluorescence probe Rhodamine B was monitored at different mole fraction of cationic surfactants.     

多环芳二酐型聚酯亚胺膜的透气性能

多环芳二酐型聚酯亚胺膜的透气性能李悦生，丁孟贤，徐纪平（浙江大学高分子科学与工程研究所，杭州，３１００２７）（中国科学院长春应用化学研究所）关键词聚醚酰亚胺，聚酯酰亚胺，膜，透气性通常的聚酰亚胺加工性能较差，在芳环二酐的苯环间引入醚键等柔性基团后，其...     

Synthesis and characterization of triazenide and triazene complexes of ruthenium and osmium

Triazenide [M(eta2-1,3-ArNNNAr)P4]BPh4 [M = Ru, Os; Ar = Ph, p-tolyl; P = P(OMe)3, P(OEt)3, PPh(OEt)2] complexes were prepared by allowing triflate [M(kappa2-OTf)P4]OTf species to react first with 1,3-ArN=NN(H)Ar triazene and then with an excess of triethylamine. Alternatively, ruthenium triazenide [Ru(eta2-1,3-ArNNNAr)P4]BPh4 derivatives were obtained by reacting hydride [RuH(eta2-H2)P4]+ and RuH(kappa1-OTf)P4 compounds with 1,3-diaryltriazene. The complexes were characterized by spectroscopy and X-ray crystallography of the [Ru(eta2-1,3-PhNNNPh){P(OEt)3}4]BPh4 derivative. Hydride triazene [OsH(eta1-1,3-ArN=NN(H)Ar)P4]BPh4 [P = P(OEt)3, PPh(OEt)2; Ar = Ph, p-tolyl] and [RuH{eta1-1,3-p-tolyl-N=NN(H)-p-tolyl}{PPh(OEt)2}4]BPh4 derivatives were prepared by allowing kappa1-triflate MH(kappa1-OTf)P4 to react with 1,3-diaryltriazene. The [Os(kappa1-OTf){eta1-1,3-PhN=NN(H)Ph}{P(OEt)3}4]BPh4 intermediate was also obtained. Variable-temperature NMR studies were carried out using 15N-labeled triazene complexes prepared from the 1,3-Ph15N=N15N(H)Ph ligand. Osmium dihydrogen [OsH(eta2-H2)P4]BPh4 complexes [P = P(OEt)3, PPh(OEt)2] react with 1,3-ArN=NN(H)Ar triazene to give the hydride-diazene [OsH(ArN=NH)P4]BPh4 derivatives. The X-ray crystal structure determination of the [OsH(PhN=NH){PPh(OEt)2}4]BPh4 complex is reported. A reaction path to explain the formation of the diazene complexes is also reported.