芳基对硝基苯乙炔基汞的合成

采用芳基醋酸汞或芳基氢氧化汞与对硝基苯乙炔在碱性介质中反应,合成了12种新的取代苯基对硝基苯乙炔基汞化合物。紫外可见光诸实验表明此合成反应为可逆反应。通过元素分析及IR、MS、¹NMR和UV光谱对化合物结构进行了鉴定。     

一步法合成多羟基酚酸芳基酯

一些多羟基酚酸芳基酯具有显著的生理活性,可用于医药、饮料和食品等方面。但目前关于多羟基酚酸芳基酯的合成还研究得不多。传统的方法是(1)保护多羟基酚酸中的酚羟基,(2)活化羧基成酰氯,(3)酯化,(4)去保护基的四步方法。本文将报道多羟基酚酸——2.4——二羟基苯甲酸(1)直接与酚类成酯的反应。即将二氯磷酸芳基酯(ROPOCI_2)(3)作为缩合剂,应用于一步法合成(1)芳基酯,以较好产率得到了(1)的七个新芳基酯(2_a—2_g),并经元素分析及波谱鉴定。同时还首次研究了缩合剂     

2,5-二芳基噻吩类化合物的高效绿色合成

无需金属和碱的催化,以1,4-二芳基取代-1,3-丁二炔与Na2S·9H2O为反应底物,80℃下DMF中合成了2,5-二芳基噻吩类化合物,考察了反应物苯环上电子效应和空间位阻对硫杂环化反应的影响.结果表明:反应物苯环上的吸电子或电子取代基团均对反应产物的分离产率影响不大;空间位阻较大的反应底物硫杂环化反应的收率略有降低,各种目标化合物产率为88%~100%.     

钯催化芳基偶氮的氧化羰基化反应

采用TBHP作为氧化剂,发展了钯催化芳基偶氮化合物N＝N双键断裂的氧化羰基化反应.芳基偶氮的羰基化反应在Pd(OAc)2(5％),MeO-BIPHEP (5％),芳基偶氮(0.2 mmol),TBHP(2 equiv),H2O(1 equiv),DCE(1 mL),CO (3.0 MPa)的条件下110℃反应12h后,经柱层析纯化分离得到31％-91％的芳基脲.初步的机理研究表明,芳基偶氮化合物的N＝N双键断裂原位产生芳基胺,再进一步氧化羰基化生成芳基脲.     

N, N'-二芳基己二酰双偶氮化合物的合成及其结构表征

以N, N'-二芳基己二酰二肼类化合物为原料,用Fe(NO3)3·9H2O作氧化剂,在室温无溶剂条件下将N, N'-二芳基己二酰二肼类化合物氧化脱氢为N, N'-二芳基己二酰双偶氮化合物.产物结构经元素分析、IR、 1H NMR确证,原料的IR谱中在3200～3400cm-1出现的2个N-H吸收峰在氧化产物中消失,但在1455cm-1附近有-N=N-吸收峰;1H NMR谱中在δ7.3～10.5之间的2个N-H化学位移在氧化产物中也消失;产物的元素分析结果与理论值基本相符.收率80%～94%.     

新型芳基丙炔酸乙酯类化合物的合成

以Pd(PPh3)Cl2/CuI为催化剂,K2CO3为碱,在THF中实现了芳基碘与丙炔酸乙酯(2)的Sonogashira偶联反应,合成了两个新型的芳基丙炔酸乙酯类化合物。而芳基硼酸与2的反应则是在Cu I/Ag2O的催化下,以Cs2CO3为碱,在DCE溶剂中经Suzuki偶联实现的。化合物的结构经1H NMR,13C NMR和HR-MS表征。     

二芳基硼螯合物的配体取代反应

本文通过一系列配体取代反应证实氨基乙醇、氨基酸、2-(α-羟基苄基)苯骈咪唑(HBB)、8-羟基喹啉(8-HQ)等N,O双齿配体与二芳基硼的螯合能力存在下列强弱顺序: 8-HQ>HBB>NH_2CH_2CH_2OH>RCH(NH_2)COOH相应螯合物的稳定性也依此序递降,有关四配位二芳基硼螯合物可按这一规律直接进行转化。     

芳基离子及芳基自由基与 环己二烯离子及环己二烯自由基的区别

通过比较芳香亲电取代与芳基重氮盐的水解反应和芳香亲核取代与芳基金属有机试剂参与的反应中芳香部分结构的差别来说明芳基正离子与环己二烯正离子以及芳基负离子与环己二烯负离子的区别。讨论了芳香自由基偶联中的芳基自由基及其对芳香环的自由基加成中的环己二烯自由基的差别。还讨论了芳基离子和自由基结构与芳香性的关系。反应中涉及芳烃芳香环碳原子的sp2杂化轨道形成的σ键断裂时,苯环的6电子大π键不被破坏,根据电子转移的情况,可以形成芳基正离子、芳基负离子或芳基自由基。而亲电试剂、亲核试剂或自由基对芳烃的苯环π键发生的加成反应,都会破坏苯环的6电子大π键,使其失去芳香性,相应地形成环己二烯正离子、环己二烯负离子和环己二烯自由基中间体。     

微波促进下苯并咪唑与芳基卤化物的偶联反应

通过微波辐射, 苯并咪唑与多种卤素取代的芳基化合物在催化剂碘化亚铜、配体L-脯氨酸或N,N-二甲基甘氨酸的存在下, 以二甲基亚砜作溶剂, 在较低温度(75～110 ℃)下一步合成, 得到6种高产率的1-芳基取代苯并咪唑衍生物, 为该类化合物的合成提供了一种新方法. 产物通过熔点测定, 核磁共振氢谱、核磁共振碳谱、质谱等的表征.     

钯催化芳基偶氮的氧化羰基化反应（英文）

采用TBHP作为氧化剂,发展了钯催化芳基偶氮化合物N=N双键断裂的氧化羰基化反应.芳基偶氮的羰基化反应在Pd(OAc)2(5%),MeO-BIPHEP(5%),芳基偶氮(0.2 mmol),TBHP(2 equiv),H2O(1 equiv),DCE(1 mL),CO(3.0 MPa)的条件下110℃反应12 h后,经柱层析纯化分离得到31%-91%的芳基脲.初步的机理研究表明,芳基偶氮化合物的N=N双键断裂原位产生芳基胺,再进一步氧化羰基化生成芳基脲.     

含磷二肽的合成及其除草活性的研究(Ⅱ)

用α-氨基甲基膦酸酯分别与N-氟乙酰基氨基酸酯和N-氯乙酰基胸酸酯进行亲核取代反应,合成了如下通式的新型含磷二肽,生物活性测定发现有的化合物具有较好的除草活性.     

The first acetimino complexes of Rh(III). 4-imino-2-methylpentan-2-amino-Rh(III) complexes through metal-assisted intramolecular aldol-type condensation of two acetimino ligands

[Rh(Cp)Cl(mu-Cl)](2) (Cp = pentamethylcyclopentadienyl) reacts (i) with [Au(NH=CMe(2))(PPh(3))]ClO(4) (1:2) to give [Rh(Cp)(mu-Cl)(NH=CMe(2))](2)(ClO(4))(2) (1), which in turn reacts with PPh(3) (1:2) to give [Rh(Cp)Cl(NH=CMe(2))(PPh(3))]ClO(4) (2), and (ii) with [Ag(NH=CMe(2))(2)]ClO(4) (1:2 or 1:4) to give [Rh(Cp)Cl(NH=CMe(2))(2)]ClO(4) (3) or [Rh(Cp)(NH=CMe(2))(3)](ClO(4))(2).H(2)O (4.H(2)O), respectively. Complex 3 reacts (i) with XyNC (1:1, Xy = 2,6-dimethylphenyl) to give [Rh(Cp)Cl(NH=CMe(2))(CNXy)]ClO(4) (5), (ii) with Tl(acac) (1:1, acacH = acetylacetone) or with [Au(acac)(PPh(3))] (1:1) to give [Rh(Cp)(acac)(NH=CMe(2))]ClO(4) (6), (iii) with [Ag(NH=CMe(2))(2)]ClO(4) (1:1) to give 4, and (iv) with (PPN)Cl (1:1, PPN = Ph(3)P=N=PPh(3)) to give [Rh(Cp)Cl(imam)]Cl (7.Cl), which contains the imam ligand (N,N-NH=C(Me)CH(2)C(Me)(2)NH(2) = 4-imino-2-methylpentan-2-amino) that results from the intramolecular aldol-type condensation of the two acetimino ligands. The homologous perchlorate salt (7.ClO(4)) can be prepared from 7.Cl and AgClO(4) (1:1), by treating 3 with a catalytic amount of Ph(2)C=NH, in an atmosphere of CO, or by reacting 4with (PPN)Cl (1:1). The reactions of 7.ClO(4) with AgClO(4) and PTo(3) (1:1:1, To = C(6)H(4)Me-4) or XyNC (1:1:1) give [Rh(Cp)(imam)(PTo(3))](ClO(4))(2).H(2)O (8) or [Rh(Cp)(imam)(CNXy)](ClO(4))(2) (9), respectively. The crystal structures of 3 and 7.Cl have been determined.     

Copper-linked hexaniobate lindqvist clusters-variations on a theme

Four new one-dimensional materials and one dimer complex based on the linkage of [Nb6O19] clusters and [CuLx] (L=ethylenediamine (en), NH3, H2O) assemble under ambient conditions. These phases include the following: Rb4[Cu(en)2(H2O)2]3[(Nb6O19H2)2Cu(en)2].24H2O (1), space group P; [Cu(en)2(H2O)2]2[(Nb6O19H2)Cu(en)2].14H2O (2), space group P; Rb2[Cu(NH3)2(H2O)4][Cu(NH3)4(H2O)2]2{[Nb6O19][Cu(NH3)]2}(2).6H2O (3), space group P; {[Nb6O19][Cu(NH3)2(H2O)]2[Cu(H2O)4]2}.3H2O (4), space group P2/n; and {[Nb6O19][Cu(NH3)2(H2O)]2[Cu(H2O)4]2} (5), space group C2/m. All structures have been solved by single-crystal methods, and compounds 1-5 were characterized by thermogravimetric analysis, Fourier transform IR, chemical analysis, and magnetic measurements. It has been demonstrated that the conformation, charge, and geometry of the [Nb6O19]-[CuLx] chains can be modulated by varying the type and amount of the [CuLx]2+ species. The charge balance is provided by mixed Rb+/[CuLx]2+ or [CuLx]2+ cations only for structures 1-3, whereas 4 and 5 are neutral chains with no counterions. There are weak antiferromagnetic Cu2+-Cu2+ interactions in all phases. Compounds 2-5 represent the first examples in which the [Nb6O19] Lindqvist ion forms extended solids rather than dimers or decorated monomers when reacted with transition-metal, cationic complexes.     

Synthesis of a New Type of Amphilic and Water—soluble Tertiary Phosphine Ligands Substituted by an Ethoxylated Phosphonic Acid Chain and Their Palladium Complexes

The highly water-soluble phosphine ligands Na2O3PCH2CH2NH(CH2CH2O)nCH2CH2N-(CH2PPh)22(n=1,2,3) were prepared by a new and simple route under mild conditions in good yield; the palladium (Ⅱ） complexes of the ligands 3a-c with 2:1 or 4:1 -PPh2 to Pd^2 molar ratio were also prepared and characterized.     

Photoionization-induced water migration in the amide group of trans-acetanilide-(H2O)1 in the gas phase

IR-dip spectra of trans-acetanilide-water 1:1 cluster, AA-(H(2)O)(1), have been measured for the S(0) and D(0) state in the gas phase. Two structural isomers, where a water molecule binds to the NH group or the CO group of AA, AA(NH)-(H(2)O)(1) and AA(CO)-(H(2)O)(1), are identified in the S(0) state. One-color resonance-enhanced two-photon ionization, (1 + 1) RE2PI, of AA(NH)-(H(2)O)(1) via the S(1)-S(0) origin generates [AA(NH)-(H(2)O)(1)](+) in the D(0) state, however, photoionization of [AA(CO)-(H(2)O)(1)] does not produce [AA(CO)-(H(2)O)(1)](+), leading to [AA(NH)-(H(2)O)(1)](+). This observation explicitly indicates that the water molecule in [AA-(H(2)O)(1)](+) migrates from the CO group to the NH group in the D(0) state. The reorganization of the charge distribution from the neutral to the D(0) state of AA induces the repulsive force between the water molecule and the CO group of AA(+), which is the trigger of the water migration in [AA-(H(2)O)(1)](+).     

含“CCl_3”或“C≡C”基团的酯类化合物的合成与表征

本文合成了六个含“ＣＣｌ３”或“ＣＣ”基团的酯类化合物（［Ｃｌ３ＣＣ（Ｏ）ＯＣＨ２］２１;ｐ－（Ｃｌ３ＣＣ（Ｏ）Ｏ）２Ｃ６Ｈ４２;（Ｃｌ３ＣＣ（Ｏ）Ｏ）３Ｃ３Ｈ５３;（Ｃｌ３ＣＣ（Ｏ）ＯＣＨ２）４Ｃ４;Ｃｌ３ＣＣ（Ｏ）ＯＣＨ２ＣＣＨ５;Ｃ６Ｈ５Ｃ（Ｏ）ＯＣＨ２ＣＣＨ６）并对其进行了Ｃ／Ｈ分析、ＩＲ、１ＨＮＭＲ等项表征,对化合物５、６进行了质谱分析。     

Racemic monoperoxovanadium(V) complexes with achiral OO and ON donor set heteroligands: synthesis, crystal structure and stereochemistry of [NH3(CH2)2NH3][VO(O2)(ox)(pic)].2H2O and [NH3(CH2)2NH3][VO(O2)(ox)(pca)

Monoperoxovanadium(V) complexes, [NH3(CH2)2NH3][VO(O2)(ox)(pic)].2H2O (1) and [NH3(CH2)2NH3][VO(O2)(ox)(pca)] (2) [NH3(CH2)2NH3 = ethane-1,2-diammonium(2+), ox=oxalate(2-), pic=pyridine-2-carboxylate(1-), pca=pyrazine-2-carboxylate(1-)], were synthesized and characterized by X-ray analysis, IR and Raman spectroscopies. The five equatorial positions of the pentagonal bipyramid around the vanadium atoms are occupied by the eta2-peroxo ligand, two oxygen atoms of the ox, and the nitrogen atom of the pic or pca ligands, respectively. The oxo ligand and the oxygen atom of pic or pca are in the axial positions. Networks of X-HO (X=C, N or O) hydrogen bonds, and pi-pi interactions between aromatic rings in and anion-pi interactions in , determine the molecular packings and build up the supramolecular architecture. Three stereochemical rules for occupation of the donor sites in two-heteroligand [VO(O2)(L1)(L2)] complexes (L1, L2 are bidentate neutral or differently charged anionic heteroligands providing an OO, NN or ON donor set) are discussed. and crystallize as racemic compounds. The 51V NMR spectra proved that the parent complex anions of and partially decompose on dissolution in water to the monoperoxo-ox, -pic or -pca complexes.     

Activation of electron-transfer reduction of oxygen by hydrogen bond formation of superoxide anion with ammonium ion

A hydrogen bond formed between the superoxide anion and the ammonium ion (NH4+) accelerates electron transfer from the C60 radical anion to oxygen significantly, whereas the tetra-n-butylammonium ion has no ability to form a hydrogen bond with the superoxidie anion, exhibiting no acceleration of the electron-transfer reduction of oxygen. The second-order rate constant of electron transfer from C60*- to O2 increases linearly with increasing concentration of NH4+. This indicates that O2*- produced in the electron transfer from C60 to O2 is stabilized by 1:1 complex formation between O2*- and NH4+. The 1:1 complex formed between O2*- and NH4+ was detected by ESR. The binding of O2*- with NH4+ results in a positive shift of the reduction potential of O2 with increasing concentration of NH4+, leading to the acceleration of electron transfer from C60*- to O2.     

Investigation on the chain-to-chain and chain-to-open-framework transformations of two one-dimensional aluminophosphate chains

Using ethylenediamine as a template, two one-dimensional (1-D) aluminophosphate compounds [AlP(2)O(8)H][NH(3)CH(2)CH(2)NH(3)] (1) and [AlP(2)O(8)][NH(3)CH(2)CH(2)NH(3)][NH(4)] (2) have been prepared from a gel system: 1.0:x:y:44 Al(i-PrO)(3)-H(3)PO(4)-en-EG (x = 3.0-9.0, y = 1.0-11.0). Compound 1 consists of edge-sharing four-membered ring (MR) chains, denoted as AlPO-ESC, and compound 2 consists of corner-sharing 4-MR chains, denoted as AlPO-CSC. The molar ratio of en:H(3)PO(4) in the starting gel has an important influence on the final product. If en:H(3)PO(4) > or = 1, AlPO-CSC is obtained, while if en:H(3)PO(4) < 1, AlPO-ESC is formed. These two chains can transform to each other upon addition of some extra amount of en or H(3)PO(4) to the reaction mixture in which AlPO-ESC or AlPO-CSC is crystallized. On the basis of XRD and (27)Al and (31)P MAS NMR analyses, a possible chain-to-chain transformation mechanism is proposed. The corner-sharing 4-MR chains of AlPO-CSC, as well as the edge-sharing 4-MR chains of AlPO-ESC can be assembled to 3-D open-framework compound NiAlP(2)O(8).C(2)N(2)H(9) through Ni(2+) cations. It is noted that AlPO-CSC remains in the structure of NiAlP(2)O(8).C(2)N(2)H(9). It is believed that AlPO-ESC might be first transformed to AlPO-CSC followed by the assembly to 3-D open-framework of NiAlP(2)O(8).C(2)N(2)H(9) through Ni(2+) cations.     

A New Coordinated Transition-metal Linked Network Compound Constructed by Octamolybdate Chain

1 INTRODUCTION The polyoxometalates have aroused extensive in-terest due to their alluring topologies and potentialapplications in various fields (e.g. catalysis, biology,medicine and materials science)[1]. A variety of po-lyoxometalate anions and related fragments withoxygen-rich compositions can serve as inorganic li-gands to coordinate secondary transition metal ions(so-called heterometals, such as Cu2 , Ni2 , Co2 andMn2 )[2]. Thus, larger discrete species and infinitelyextending ar…