共查询到20条相似文献,搜索用时 68 毫秒
1.
2.
3.
[π-C5H5N(CH2)15CH3]3[PMoW3O24]/H2O2:高效的环境友好且可再生的烯烃环氧化磷钼钨杂多酸催化体系 总被引:1,自引:1,他引:1
研究了一种可循环并且环境友好的催化体系:[π-C5H5N(CH2)15CH3]3[PMoW3O24]/过氧化氢/乙酸乙酯/烯烃.此体系不仅可以催化烯烃的环氧化反应,而且避免了对含氯溶剂的使用.反应在过氧化氢/乙酸乙酯的两相体系中进行,可以将多种烯烃转化为相应的环氧化物,且产率较高.此催化剂具有反应控制相转移的特征,反应结束后可以回收再利用.采用Raman,IR,^31P MAS NMR和^31P NMR等手段对新鲜及重复使用过的催化剂进行表征.结果表明:新鲜催化剂[π-C5H5N(CH2)15CH3]3[PMoW3O24]是一种混合物,含有多种过氧磷钼钨酸盐,如{PO4[MoO(O2)2]4}^3-,[(PO4){Mo3WO20}]^3-,[(PO4){Mo2W2O20}]^3-,[(PO4){MoW3O20}]^3-和{PO4[WO(O2)2]4}^3-.当过氧化氢被完全消耗后,这些小的活性物种就会聚合成具有混合多原子的Keggin型杂多阴离子,形成M-Ob—M(M=W或Mo)和M-Oc-M键. 相似文献
4.
设计合成了3种新型的钼、钨过氧配合物的双季铵盐PhCH2N(CH2)6NCH2Ph[W(O2)4].2H2O、PhCH2N(CH2)6NCH2Ph[WO(O2)2(C2O4)]和PhCH2N(CH2)6NCH2Ph[MoO(O2)2(C2O4)]。并利用元素分析、红外光谱、激光拉曼光谱测试技术对其进行了表征,研究了它们在无有机溶剂、无卤素、无相转移催化剂的清洁条件下催化30%稀H2O2氧化苯甲醇、环己醇分别生成苯甲醛(苯甲酸)和环己酮的反应。实验结果表明,在温和条件下,钨过氧配合物的双季铵盐对上述反应有很好的催化作用。而含钼过氧配合物的双季铵盐的催化活性相对较弱。其中,苯甲酸、苯甲醛、环己酮的最高产率可分别达到93.0%、93.6%和91.7%。 相似文献
5.
甲烷脱氢芳构化W/HZSM-5基催化剂的制备 总被引:3,自引:0,他引:3
由H2SO4酸化的(NH4)2WO4溶液(pH=2~3)制备的W-H2SO4/HZSM-5催化剂对甲烷脱氢芳构化(DHAM)反应的催化活性比不经酸化的(NH4)2WO4溶液(pH=8~9)制备的W/HZSM-5催化剂高得多.氧化前驱态催化剂的H2-TPR研究表明,W-H2SO4/HZSM-5试样的还原所需温度比W/HZSM-5低得多;前者可还原至较低价态的W物种在负载总W量中所占比例也比后者高得多.H2-TPR及相关体系的EPR和Raman表征结果相互佐证表明,用H2SO4酸化导致负载钨酸铵前驱溶液中一些由共边正八面体配位结构单元(WO6)n-构成的聚钨酸根物种的生成;W-H2SO4/HZSM-5催化剂对DHAM反应催化活性之所以高,主要由于所负载的W前驱物种较大部分是(WO6)n-基的W物种,而非(WO4)2-基W物种;在较低温度下就可被还原,且在DHAM反应条件下有一部分可还原至较低价态W4+的(WO6)n-物种很可能是催化活性位的前驱组成部分. 相似文献
6.
7.
8.
Dawson型磷钨杂多化合物(HPC)作为多相或均相催化剂,对烯烃环氧化反应极为有效[1]。在HPC中引入钼原子可以提高它的氧化能力;引入过渡元素如铜可以改善其氧化还原反应的可逆性[2]。目前已合成出Nb、Ti、Mn、Fe、Co等多种过渡元素取代的Dawson型HPC[3],并且证明其具有良好的氧化还原催化性能。本文以Na2WO4·2H2O和Na2HPO4·12H2O为原料合成了K10Na2H2P2W16O60,再以其为反应物合成了过渡元素镍、铜取代的磷钨、磷钼钨共三种Dawson型杂多化合物:K14[Ni2P2W16O62]·24H2O、K15H5[Ni(P2W16MoO61)2]·26H2O和K15H3[Cu(… 相似文献
9.
10.
钨磷杂多酸盐的合成、表征及催化活性 总被引:1,自引:0,他引:1
合成了4个钨磷杂多酸盐——K10H2[P2W15Ti3O62]·2H2O,K12[P2W15(TiO2)3O59]·8H2O,K12[P2W15Zr3O62]·6H2O和K12[P2W15(ZrO2)3O59]·5H2O,用183WNMR,UV,IR,ICP和极谱-循环伏安等测试方法对其性质、结构进行了研究。结果表明它们都是具有Dawson结构的杂多配合物,对顺丁烯二酸的H2O2环氧化反应具有显著的催化活性。 相似文献
11.
Howarth OW 《Dalton transactions (Cambridge, England : 2003)》2004,(3):476-481
Aqueous peroxotungstates have been studied from pH 0.5 to 9.0, over a range of peroxide concentrations. Although equilibria are not always established, many anions can be identified by 17O NMR because the ratio of deltaO(W anion)/deltaO(known Mo anion) is consistently 79 +/- 3%. They are [WO3(HO2)]-; [WO(OH)(O2)2]-; [WO(OH2)(O2)2]0; [W2O3(O2)4]2-; [W2O3(OH)(O2)4]3-; [W4O12(O2)2]4-; [W7O23(O2)]6- and [W7O22(O2)2]6-. Their pKa values, where measurable, are about 2 units lower than the corresponding peroxomolybdates, e.g. 0.0 for [WO(OH2)(O2)2]0 and 8.0 for [W2O3(O2)4]2-. Other peroxotungstate species are also present but can only be broadly identified. These include Keggin structures with relatively low peroxo content, and a very unsymmetrical anion appearing at pH ca. 7 that bears no obvious structural relationship to any species previously reported. The main product from the reaction of powdered W metal with 30% aqueous peroxide is provisionally identified as the symmetrical anion [W6O13(OH)2(OH2)2(O2)5]2-, although other minor species are also formed, probably having fewer peroxo substituents. 相似文献
12.
This study examines structural features and aspects of reactivity of Gif-type reagents, which depend on O2/Zn to mediate oxidation of hydrocarbons. The reagents investigated derive from the use of iron complexes with the anion of the weak carboxylic acid Me3CCO2H (pivalic acid (PivH)) in pyridine/PivH. In these solutions, the known compound [Fe3O(O2CCMe3)6(py)3] is reduced by Zn to generate yellow-green [FeII(O2CCMe3)2(py)4], which readily reverts to [Fe3O(O2CCMe3)6(py)3], and eventually to [Fe3O(O2CCMe3)6(py)3]+, upon exposure to dioxygen. All three species are equally well suited to mediate Gif-like oxygenation of substrates supported by O2/Zn. [FeIII3O(O2CCMe3)6(L)3]+ (L = H2O, py) is converted by H2O2 to afford the hexairon(III) peroxo compounds [Fe6(O2)(O)2(O2CCMe3)12(L)2] (L = Me3CCO2H, py), which feature a [Fe6(eta 2-mu 4-O2)(mu 3-O)2] core previously documented in the closely related [Fe6(O2)(O)2(O2CPh)12(H2O)2]. A similar peroxo species, [Fe6(O2)(O)2(O2CCMe3)2(O2CCF3)10(H2O)2], is obtained upon replacing all pivalate ligands by trifluoroacetate groups with the exception of those pivalates that bridge between the two [Fe3O(O2CCF3)5(H2O)]2+ units. The structure of the [Fe6(O2)(O)2] core in these peroxo species is found to range from a recliner to a butterfly-type conformation. Reduction of [Fe6(O2)(O)2(O2CCMe3)12(HO2CCMe3)2] with NaBH4 generates [Na2Fe4(O)2(O2CCMe3)10(L)(L')] (L = CH3CN, L' = Me2CO; L = L' = Me3CCO2H), which feature a [Na2Fe4(O)2] core possessing a bent butterfly conformation of the [Fe4(O)2] unit. Oxidation of the same peroxo complex by CeIV or NOBF4 regenerates the oxo-bridged [Fe3O(O2CCMe3)6(solv)3]+ (solv = EtOH, H2O, thf). Employment of the sterically encumbered 2-Me-5-Etpyridine provides the tetrairon compound [Fe4(O)2(O2CCMe3)8(2-Me-5-Etpy)2], which can be readily transformed upon treatment with H2O2 to the asymmetric peroxo complex [Fe6(O2)(O)2(O2CCMe3)12(2-Me-5-Etpy)2]. The peroxo-containing complexes oxidize both cis-stilbene and adamantane in either benzene or py/PivH, but only under forceful conditions and at very low yields. The low reactivity and high selectivity (tert/sec = 8) obtained in the oxidation of adamantane suggests that the present type of peroxo species is not directly involved in catalytic Gif-type oxygenations of adamantane. 相似文献
13.
Aerosol assisted chemical vapour deposition of polyoxotungstate precursors [n-Bu4N]2[W6O19] and [n-Bu4N]4H3[PW11O39] produces films of WO(3 - x) and WO3 on glass substrates; the WO3 films show significant photocatalytic decomposition of a test organic pollutant--stearic acid--when irradiated with either 254 or 365 nm radiation. 相似文献
14.
Barré T Arurault L Sauvage FX 《Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy》2005,61(4):551-557
This study is focused on the composition and the evolution of tungstate ions solutions as a function of pH and increasing concentrations. The Raman analysis showed that, during the titration of the tungstate solutions, WO4(2-), HWO4- ions and probably W2O7(2-) , HW2O7(2-) and H2W2O7 solvated species could exist in aqueous solutions. For diluted solutions, additions of a strong acid does not cause any precipitation, whereas the formation of the unstable solid tungstic acid (H2WO4 or WO3.H2O) could occur in concentrated solutions. 相似文献
15.
《Journal of Energy Chemistry》2015,(4)
In this work,the influence of CO2 on the structural variation and catalytic performance of Na2WO4/Mn/Si O2 for oxidative coupling of methane to ethylene was investigated. The catalyst was prepared by impregnation method and characterized by XRD,Raman and XPS techniques. Appropriate amount of CO2 in the reactant gases enhanced the formation of surface tetrahedral Na2WO4 species and promoted the migration of O in MOx,Na,W from the catalyst bulk to surface,which were favorable for oxidative coupling of methane. When the molar ratio of CH4/O2/CO2 was 3/1/2,enriched surface tetrahedral Na2WO4 species and high surface concentration of O in MOx,Na,W were detected,and then high CH4 conversion of 33.1% and high C2H4 selectivity of 56.2% were obtained. With further increase of CO2 in the reagent gases,the content of active surface tetrahedral Na2WO4 species and surface concentration of O in MOx,Na,W decreased,while that of inactive species(Mn WO4 and Mn2O3) increased dramatically,leading to low CH4 conversion and low C2H4 selectivity. It could be speculated that Na2WO4 crystal was transformed into Mn WO4 crystal with excessive CO2 added under the reaction conditions. Pretreatment of Na2WO4/Mn/Si O2 catalyst by moderate amount of CO2 before OCM also promoted the formation of Na2WO4 species. 相似文献
16.
Kholdeeva OA Trubitsina TA Maksimovskaya RI Golovin AV Neiwert WA Kolesov BA López X Poblet JM 《Inorganic chemistry》2004,43(7):2284-2292
The protonated titanium peroxo complex [Bu(4)N](4)[HPTi(O(2))W(11)O(39)] (1) has been first prepared via interaction of the micro-oxo dimeric heteropolytungstate [Bu(4)N](8)[(PTiW(11)O(39))(2)O] (3) with an excess of 30% aqueous H(2)O(2) in MeCN. Peroxo complex 1 has been characterized by using elemental analysis, UV-vis, IR, resonance Raman (RR), (31)P and (183)W NMR spectroscopy, cyclic voltammetry, and potentiometric titration. The electronic and vibrational spectra of 1 are very similar to those of the well-known unprotonated titanium peroxo complex [Bu(4)N](5)[PTi(O(2))W(11)O(39)] (2), while (31)P and (183)W NMR spectra differ significantly. A compilation of the physicochemical techniques supports a monomeric Keggin type structure of 1 bearing one peroxo ligand attached to Ti(IV) in a eta(2)-coordination mode. The protonation of the titanium peroxo complex results in an increase of the redox potential of the peroxo group, E(1/2) = 1.25 and 0.88 V relative to Ag/AgCl reference electrode for 1 and 2, respectively. In contrast to 2, 1 readily reacts with 2,3,6-trimethylphenol (TMP) at 40 degrees C in MeCN to give 2,2',3,3',5,5'-hexamethyl-4,4'-biphenol (BP) and 2,3,5-trimethyl-p-benzoquinone (TMBQ). The proportion between BP and TMBQ in the reaction products depends on the TMP/1 ratio. When a 2-fold excess of TMP is used, the main reaction product is BP (90%), while using a 2-fold excess of 1 leads to TMBQ (95%). On the basis of the product study, a homolytic oxidation mechanism that implicates the formation of phenoxyl radicals is suggested. The RR deuterium labeling experiments show that the activating proton is most likely localized at a Ti-O-W bridging oxygen rather than at the peroxo group. Theoretical calculations carried out at the DFT level on the protonated and unprotonated titanium peroxo derivatives also propose that the most stable complex is formed preferentially after protonation of the Ti-O-W site; however, both Ti-OH-W and TiOO-H protonated anions could coexist in solution. 相似文献
17.
Epoxidation of 1-octene with hydrogen peroxide catalysed by amphiphilic salts of peroxo tungstophosphate [PO4[WO(O2)2]4]3- in water-in-oil microemulsions is an efficient and environmentally benign reaction which, coupled with ultrafiltration, shows the potential for continuous production of epoxides. 相似文献
18.
When peroxotetramolybdophosphate, [(n-C4H9)4N]3[PO4[Mo2O2(mu-O2)2(O2)2]2], denoted (NBu4)3PMo4, and its tungsten(VI) analogue, (NBu4)3PW4, are mixed in acetonitrile at room temperature, redistribution occurs with the formation of three mixed-addenda species [PO4[Mo4-xWxO20]]3- (x = 1-3). The temperature dependence of the phosphorus-31 NMR spectra of a 1 1 mixture and of the pure salts, (NBu4)3PMo4 or (NBu4)3PW4, shows that [MO(O2)2] species are in chemical exchange, as are the [MOp] units of certain heteropolyacids (e.g. H3[PMo12O40] x aq and H3[PW12O40] x aq). However, there is no chemical exchange between free phosphate and [MO(O2)2] species in these systems; but there is fluxional behaviour involving PMo2W2, PMo4 and PW4. This is attributed to the rapid equilibrium between isomers (PMo2W2) and to equilibrium between anionic structures with tridentate (mu-eta2:eta1-O22-) and bidentate (eta2-O22-) modes of coordination for the two peroxo groups of the [M2O2(mu-O2)2(O2)2] moieties. 相似文献
19.
Hatcher LQ Vance MA Narducci Sarjeant AA Solomon EI Karlin KD 《Inorganic chemistry》2006,45(7):3004-3013
The variation of ligand para substituents on pyridyl donor groups of tridentate amine copper(I) complexes was carried out in order to probe electronic effects on the equilibrium between mu-eta2:eta2-(side-on)-peroxo [Cu(II)2(O2(2-))]2+ and bis(mu-oxo) [Cu(III)2(O(2-))2] species formed upon reaction with O2. [Cu(I)(R-PYAN)(MeCN)n]B(C6F5)4 (R-PYAN = N-[2-(4-R-pyridin-2-yl)-ethyl]-N,N',N'-trimethyl-propane-1,3-diamine, R = NMe2, OMe, H, and Cl) (1R) vary over a narrow range in their Cu(II)/Cu(I) redox potentials (E(1/2) vs Fe(cp)2(+/0) = -0.40 V for 1(NMe2), -0.38 V for 1(OMe), -0.33 V for 1H, and -0.32 V for 1Cl) and in C-O stretching frequencies of their carbonyl adducts, 1R-CO: nu(C-O) = 2080, 2086, 2088, and 2090 cm(-1) for R = NMe2, OMe, H, and Cl, respectively. However, within this range of electronic properties for 1R, dioxygen reactivity is significantly affected. The reaction of 1Cl or 1H with O2 at -78 degrees C in CH2Cl2 gives UV-vis and resonance Raman spectra indicative of a mu-eta2:eta2-(side-on)-peroxo dicopper(II) adduct (2R). Compound 1(OMe) reacts with O2, yielding equilibrium mixtures of side-on peroxo (2(OMe)) and bis(mu-oxo) (3(OMe)) species. Oxygenation of 1(NMe2) leads to the sole generation of the bis(mu-oxo) dicopper(III) complex (3(NMe2)). A solvent effect was also observed; in acetone or THF, increased ratios of bis(mu-oxo) relative to side-on peroxo complex are observed. Thus, the equilibrium between a dicopper side-on peroxo and bis(mu-oxo) species can be tuned by ligand design-specifically, more electron donating ligands favor the formation of the latter isomer, and the peroxo/bis(mu-oxo) equilibrium can be shifted from one extreme to the other within the same ligand system. Observations concerning the reactivity of the dioxygen adducts 2H and 3(NMe2) toward external substrates are also presented. 相似文献
20.
Research on Chemical Intermediates - A series of WO3-modified TiO2 sols with various WO3 contents were synthesized by peroxo sol–gel method using H2O2 as the agent. The as-synthesized... 相似文献