硫代磷酰二氯与邻苯二酚反应

苯基硫代膦酰二氯与邻苯二酚在三乙胺存在下生成螺环五配位磷化物3.烷氧基, 烷胺基,烷硫基,烷基,苄基硫代磷酰二氯与邻苯二酚反应得到六配位磷化物8.讨论了这些反应的机理.     

含磷硫键五配位磷化合物的合成研究

在各种不同条件下,五氯化磷与邻苯二硫酚、4-甲基-1,2-苯二硫酚反应均生成五元环亚磷酰氯。在制取含有五氟苯硫基五配位磷化合物时,总是得到五氯苯硫基亚磷酸酯和五氟苯基二硫化物。当3,4-双(三氟甲基)-1,2-二硫杂环丁烯与亚磷酸酯反应时得到含有五个磷硫单键的五配位磷化合物。     

螺环五配位磷化物合成新方法

螺环五配位磷化物合成方法虽有不少报道,但有的路线较长;有的原料不易得到;有的条件苛刻且收率不高.本文提供一种新的简便合成路线,即在二甲二硫或二乙二硫存在下,含磷五元或六元环亚磷(膦)酸酯与含有两个活泼氢的双官能团化合物反应,一步制得相应的螺环五配位磷化物.反应式如下:     

含磷五元环五配位化合物的合成

三配位磷化物与烷氧基苯硫醚反应合成了一系列含磷五元环的五配位化合物。在不同温度下,测定了这些化合物的¹⁹FNMR。化合物(7)与三氟乙氧基苯硫醚反应生成化合物(19)以及(20)和(21);化合物(11)与六氟异丙氧基苯硫醚反应生成化合物(18)和(21),并对这些反应机理进行了讨论。     

一、二配位磷化合物

本文评述了一类新的磷化合物——非环一、二配位磷化合物,此类化合物含有(p—p)π键。此外,对含有P≡C键的一配位磷化合物,含P=C、P=N、P=O和P=P键的二配位磷化合物以及二配位磷阳离子的化学进行了讨论。     

六配位磷质离子溶液的核磁共振研究

本文用含有两个不同双环五配位磷化物与甲氧基负离子反应, 通过加成和取代, 形成六配位磷负离子顺、反异构体. 反式体为动力学控制产物顺式体为热力学控制产物.     

硫代四配位磷化物与邻苯二酚反应

前文报^[1]道的硫代磷酰二氯在三乙胺存在下与邻苯二酚反应,不仅具有理论意义,而且是合成该类磷化物的新方法。本文将继续报道硫代磷酰一氯以及其它硫代四配位磷化物与邻苯二酚反应的结果,以期进一步揭示这类反应的本质及其影响因素。     

五氯代-12H-双苯并[1, 3, 2]二氧磷杂八环的合成与化学

以双(2-羟基-3,5-二氯苯基)甲烷(4)与PSCl3关环,高收率地得到2,4,6,8,10-五氯-6-硫-12H-双苯并[d,g][1,3,2]二氧磷杂八环(5)。5与酚在无水K2CO3及铜粉存在下,或与醇在醇钠存在下反应,生成2,4,8,10-四氯-6-硫-6-芳氧基-12H-双苯并[1,3,2]二氧磷杂八环(6),或6-烷氧基的类似物(7)。5与醇在三乙胺存在下反应的产物为2,4,8,10-四氯-6-硫-6-羟基-12H-双苯并[1,3,2]二氧磷杂八环三乙胺盐(8)。8在DMSO中回流则氧化为它的氧类似物9。     

2-(芳氧基苯基硫代膦酰基)-1,2,3σ^2-二氮磷杂环戊二烯的合成

研究了芳氧基苯基硫代膦酰基酮腙与三氯化磷的环化反应, 成功地合成了2-N上带有硫代膦酰基的3-氯1,2,3-二氮磷杂环戊烯(3)及二配位磷化物2-硫代膦酰基1,2,3σ^2-二氮磷杂环戊二烯(4)。     

磷酰化丝氨酸六配位磷中间体的结构及其反应

用MNDO方法对磷酰化丝氨酸仿生化反应机理中所形成的六配位磷中间体(3)可能的3个异构体的结构及其反应活性进行了研究.在六配位磷中间体3的6根键中,丝氨酸的羧基氧O3与磷之间的键最弱,最易断裂生成新的五配位磷中间体4,4的P_N键断裂得到磷酰基的N→O转位反应产物5.对于六配位磷中间体3中的两个异丙氧基,位于丝氨酸侧链羟基O6对面的异丙氧基较另一个易于离去(约低37kJ/mol)并得到中间体6,接着甲醇从O6对面新产生的空隙进攻中间体6中的磷,生成磷上酯交换产物9.六配位磷中间体机理比较好地解释了实验中所发现的磷酰化丝、苏氨酸仿生化反应的多样性和复杂性.     

Synthesis,structure, and reactivity of some N-phosphorylphosphoranimines

A large series of new N-phosphorylphosphoranimines that bear potentially reactive functional groups on both phosphorus centers were prepared by silicon-nitrogen bond cleavage reactions of N-silylphosphoranimines. Thus, treatment of the N-silylphosphoranimines, Me(3)SiN=P(Me)(R)X (R = Me, Ph; X = OCH(2)CF(3) and R = Me, X = OPh), with phosphoryl chlorides, RP(=O)Cl(2) (R' = Cl, Me, Ph), readily afforded the corresponding N-phosphoryl derivatives, R'P(=O)(Cl)-N=P(Me)(R)X, in high yields. Subsequent reaction with 1 or 2 equiv of the silylamine, Me(3)SiNMe(2), resulted in ligand exchange at the phosphoryl (P=O) group to give the P-dimethylamino analogues, R'P(=O)(NMe(2))N=P(Me)(R)X (R' = Cl, NMe(2), Me, Ph; R = Me, Ph; X = OCH(2)CF(3), OPh). These new N-phosphorylphosphoranimines (and one thiophosphoryl analogue) were obtained as thermally stable, distillable liquids and were characterized by NMR ((1)H, (13)C, and (31)P) spectroscopy and elemental analysis. One member of the series, Cl(2)P(=O)N=P(Me)(Ph)OCH(2)CF(3) (4), was also studied by single-crystal X-ray diffraction which revealed that the formal P(O)-N single bond [1.55(1) A] is shorter than the formal N=PR(2)X double bond [1.60(1) A]. Such structural features are compared to those of similar compounds and discussed in relationship to the unexpected thermolysis pathways observed for these N-phosphorylphosphoranimines, none of which produced poly(phosphazenes).     

Anti-markovnikov N-H and O-H additions to electron-deficient olefins catalyzed by well-defined Cu(I) anilido, ethoxide, and phenoxide systems

The monomeric Cu(I) complexes (IPr)Cu(Z) (IPr = 1,3-bis(2,6-diisopropylphenyl)imidazol-2-ylidene, Z = NHPh, OEt, or OPh) react with YH (Y = PhNH, PhCH2NH, EtO, or PhO) to catalytically add Y-H bonds across the C=C bond of electron-deficient olefins to yield anti-Markovnikov organic products. Catalytic activity has been observed for olefins CH2C(H)(X) with X = CN, C(O)Me, or CO2Me as well as crotononitrile. Preliminary studies implicate an intermediate in which the C-Y bond forms through a nucleophilic addition pathway.     

有机锗倍半硫化物的合成及性质研究

为了系统地研究有机锗倍半硫化物的抗癌活性, 寻找更有效的抗癌药物, 合成了15个有机锗倍半硫化物(GeCH2CHRCONHAr)2S3, 并以此类化合物为模型化合物研究了有机锗倍半硫化物的化学性质. 用IR, HNMR证实了它们的组成和结构, 还研究了它们的水解反应以及与盐酸, 氢溴酸的反应.     

Facile Ni(II)/ketoxime-mediated conversion of organonitriles into imidoylamidine ligands. Synthesis of imidoylamidines and acetyl amides

Treatment of alkyl nitriles with NiX(2).6H(2)O (X = Cl, NO(3)) and 2-propanone oxime, followed by (X = Cl) addition of [i-Pr(4)N](NO(3)) for precipitation of the product, resulted in the formation of amidinium nitrates [RC([double bond]NH(2))NH(2)](NO(3)) (R = Me, Et, n-Pr). The reaction went to another direction with NiX(2).2H(2)O, i.e., the reaction between neat RCN (R = Me, Et, n-Pr, i-Pr, n-Bu, CH(2)Cl, CH(2)C(6)H(4)OMe-p) and NiCl(2).2H(2)O/2-propanone oxime (other ketoximes can also be used) gave the (imidoylamidine)Ni(II) complexes [Ni[N(H)[double bond]C(R)NHC(R)[double bond]NH](2)](2+) (1(2+)-7(2+)). The latter were isolated in good yields (65-91%) as the bis-chloride salts 1.Cl(2)-6.Cl(2) and the mixed salt 7.(Cl)(p-MeOC(6)H(4)CH(2)CO(2)). Remarkably, the latter transformation does not proceed at all if NiCl(2).2H(2)O or the ketoxime are taken alone. Liberation of imidoylamidines was performed for one alkyl-containing complex [2.Cl(2)] and one benzyl-containing complex [7.(Cl)(p-MeOC(6)H(4)CH(2)CO(2))], by (i) addition of HBF(4).Et(2)O to the acetonitrile solution of the complexes to yield [N(H)[double bond]C(R)NHC(R)[double bond]NH].2HBF(4) (R = Et 8 and R = CH(2)C(6)H(4)OMe-p 9) or (ii) substitution for ethanediamine (en) with following precipitation of the complex [Ni(en)(3)]Cl(2) with formation of free N(H)[double bond]C(R)NHC(R)[double bond]NH (R = Et 10 and R = CH(2)C(6)H(4)OMe-p 11). In contrast to the liberation in nonaqueous media, treatment of 2.Cl(2) and 7.(Cl)(p-MeOC(6)H(4)CH(2)CO(2)) with Na(2)EDTA.2H(2)O in water-methanol solutions led to substitution and hydrolysis to furnish the acyl amides [EtC([double bond]O)](2)NH (12) and [p-MeOC(6)H(4)CH(2)C([double bond]O)](2)NH (13). Alternatively, 12 and 13 were obtained by hydrolysis of 10 and 11 in water at pH ca. 8.5. It was shown that the oxime complexes trans-[NiCl(2)(C(4)H(8)C[double bond]NOH)(4)] (14) or cis-[Ni(O,O-NO(3))(2)(C(4)H(8)C[double bond]NOH)(2)] (15) can be intermediates in the formation of amidines and imidoylamidines. The sequence of the Ni(II)/oxime mediated formation of (imidoylamidine)Ni complexes and liberation (or hydrolytic liberation) of the ligands opens up a novel, facile and environmentally benign route to imidoylamidines and acyl amides.     

有机锗硫杂环戊酮化合物的合成

合成了14个1,1-二氯-1,2-锗硫杂-3-环戊酮等四类新型锗硫杂五元环化合物, 元素分析、红外光谱、氢核磁共振谱以及质谱分析验证了它们的组成及结构。     

N'-取代苯磺酰基N-(4,6-二取代均-三氮苯-2-基)乙二胺的合成

N-芳基磺酰乙二胺与三聚氰氯反应获得三个新缩合产物, 缩合产物再与醇钠反应得到六个N-取代苯磺酰基-N'-取代均三嗪基乙二胺衍生物, 所有化合物都表现出对植物生长的抑制作用, 可用于筛选除草剂.     

固-液相转移催化合成V.醛亚胺的michael加成和羰基加成反应合成α-氨基 酸

报道了在以K~2CO~2为固体碱的固-液相转移催化条件下,用醛亚胺与亲电的 烯烃和醛类化合物进行Michael加成,羰基加成反应,合成了一系列醛亚胺亲核加成产物.并通过水解羰基加成产物制备了一系列丝氨酸衍生物.该法简便,温和,反应时间短,产率高,是合成具有取代基的甘氨酸,丙氨酸和丝氨酸及其酯的一种有用方法.     

MoFe3S4单立方烷原子簇研究 IV:新型的双跨桥六配体单立方烷簇合物MoFe3S4(μ-Me2NCS2)2(Me2NCS2)4.2CH3CN的合成与结构

在二甲胺基二硫代甲酸钠、氯化亚铁及四硫代钼酸铵的自兜反应体系中, 以分步结晶法分离出MeFe3S4(Me2NCS2)5.CH2Cl2及MoFe3S1(Me2NCS2)6.2CH3CN等单立方烷簇合物, 并测定了后者的结构. 它的分子含两个Me2NCS2并具有最高核心氧化态[MoFe3S4]^6^+. 本文报道该化合物的结构特点, 指出在自兜反应体系中, 可能存在几种不同氧化态的单立方烷原子簇化合物.     

含氟膦叶立德的^1^3C和^3^1P核磁共振研究

本文报道了三十一个含氟磷叶立德的^1^3C和^3^1P核磁共振研究结果, 含氟磷叶立德的通式为: (C6H5)3P=C(X)(CO)Rf, 其测定的核磁共振数据列于下表.     

Pop-the-cork strategy in synthetic utilization of imines: stabilization by complexation and activation via liberation of the ligated species

Treatment of trans-[PtCl(4)(RCN)(2)] (R = Me, Et) with ethanol allowed the isolation of trans-[PtCl(4)[E-NH[double bond]C(R)OEt](2)]. The latter were reduced selectively, by the ylide Ph(3)P[double bond]CHCO(2)Me, to trans-[PtCl(2)[E-NH[double bond]C(R)OEt](2)]. The complexed imino esters NH[double bond]C(R)OEt were liberated from the platinum(II) complexes by reaction with 2 equiv of 1,2-bis(diphenylphosphino)ethane (dppe) in chloroform; the cationic complex [Pt(dppe)(2)]Cl(2) precipitates almost quantitatively from the reaction mixture and can be easily separated by filtration to give a solution of NH[double bond]C(R)OEt with a known concentration of the imino ester. The imino esters efficiently couple with the coordinated nitriles in trans-[PtCl(4)(EtCN)(2)] to give, as the dominant product, [PtCl(4)[NH[double bond]C(Et)N[double bond]C(R)OEt](2)] containing a previously unknown linkage, i.e., ligated N-(1-imino-propyl)-alkylimidic acid ethyl esters. In addition to [PtCl(4)[NH[double bond]C(Et)N[double bond]C(Et)OEt](2)], another compound was generated as the minor product, i.e., [PtCl(4)(EtCN)[NH[double bond]C(Et)N[double bond]C(Et)OEt]], which was reduced to [PtCl(2)(EtCN)[NH[double bond]C(Et)N[double bond]C(Et)OEt]], and this complex was characterized by X-ray single-crystal diffraction. The platinum(IV) complexes [PtCl(4)[NH[double bond]C(Et)N[double bond]C(R)OEt](2)] are unstable toward hydrolysis and give EtOH and the acylamidine complexes trans-[PtCl(4)[Z-NH[double bond]C(Et)NHC(R)[double bond]O](2)], where the coordination to the Pt center results in the predominant stabilization of the imino tautomer NH[double bond]C(Et)NHC(R)[double bond]O over the other form, i.e., NH(2)C(Et)[double bond]NC(R)[double bond]O, which is the major one for free acylamidines. The structures of trans-[PtCl(4)[Z-NH[double bond]C(Et)NHC(R)[double bond]O](2)] (R = Me, Et) were determined by X-ray studies. The complexes [PtCl(4)[NH[double bond]C(Et)N[double bond]C(R)OEt](2)] were reduced to the appropriate platinum(II) compounds [PtCl(2)[NH[double bond]C(Et)N[double bond]C(R)OEt](2)], which, similarly to the appropriate Pt(IV) compounds, rapidly hydrolyze to yield the acylamidine complexes [PtCl(2)[NH[double bond]C(Et)NHC(R)[double bond]O](2)] and EtOH. The latter acylamidine compounds were also prepared by an alternative route upon reduction of the corresponding platinum(IV) complexes. Besides the first observation of the platinum(IV)-mediated nitrile-imine ester integration, this work demonstrates that the application of metal complexes gives new opportunities for the generation of a great variety of imines (sometimes unreachable in pure organic chemistry) in metal-mediated conversions of organonitriles, the "storage" of imino species in the complexed form, and their synthetic utilization after liberation.