[(H_(3)DIBA)_(2)Cl]·[HGeMo_(12)O_(40)]的合成、表征、光催化和电化学性质

利用水热法合成了一种新的基于Keggin型杂多酸的无机-有机杂化物[(H_(3)DIBA)_(2)Cl]·[HGeMo_(12)O_(40)],(HDIBA=3,5-二(1H--咪唑-1-基)苯甲酸).单晶X-射线衍射测试表明,该化合物为三斜晶系,P-1空间群,a=1.27831(4)nm,b=1.29723(4)nm,c=1.98978(5)nm;α=94.51°,β=102.61°,γ=117.99°,V=2.77968(14)nm 3,Z=2.结构研究表明,在该化合物中HDIBA被质子化,配体与游离的Cl-之间通过氢键相互作用形成了一维超分子链状结构,Keggin型[GeMo_(12)O_(40)]^(4-)多酸阴离子与[H_(3)DIBA]^(2+)之间通过氢键作用将相邻的一维超分子链连接形成三维超分子结构.该化合物可以光催化降解有机染料孔雀石绿,150 min内降解率达到99.99%;另外,该化合物具有电催化还原BrO_(3)^(-)和电催化氧化抗坏血酸(AA)的性质.总之,该化合物可以作为一种有效处理废水中污染物的异相光、电催化剂.

H_(3)PMo_(12)O_(40)/UiO-66的制备及其吸附性能研究

采用溶剂热法制备复合材料H_(3)PMo_(12)O_(40)/UiO-66,通过加入不同质量的三氯乙酸来调节H_(3)PMo_(12)O_(40)/UiO-66复合材料的形貌,提高对亚甲基蓝(MB)溶液的吸附.通过X射线衍射、扫描电镜、红外光谱等表征方法证明复合材料制备成功,当添加TCA为10 mmol、pH=6时,H_(3)PMo_(12)O_(40)/UiO-66的吸附效果最优,多次循环实验后,吸附量未发生明显变化,表明该材料吸附性能稳定.吸附过程符合Langmuir吸附模型和二级动力学模型,通过热力学参数发现ΔG<0和ΔH<0,证明复合材料H_(3)PMo_(12)O_(40)/UiO-66吸附MB的吸附过程属于自发放热的.

Synthesis of Acetic Acid on Pd-H_4SiW_(12)O_(40)-Based Catalysts by Direct Oxidation of Ethylene

Synthesis of acetic acid by direct oxidation of ethylene on Pd-H4SiW12O40-based catalysts was studied in a fixed-bed integral reactor and a pulse differential reactor. From the performance of the catalysts with different compositions and configurations, it is proposed that acetic acid is predominantly produced via an intermediate of acetaldehyde. This can be easily confirmed by comparing the product distributions in the integral and the differential reactors. The active sites for acetic acid formation are considered to exist mainly at the boundaries between the H4SiW12O40 and the Pd particles. The Pd-based catalysts reduced by H2/N2 have higher activities than those reduced by hydrazine, as explained by the degree of Pd dispersion obtained from the characteristics of hydrogen chemical adsorption. It was found that the Pd-Se-SiW12/SiO2 catalyst with selenium tetrachloride as a precursor was more active than that with potassium selenite, and that the acetic acid yield can be greatly increased by adding a suitable amount of dichloroethane (C2H4C12/C2H4 mole ratio=0.03) to the reactants.

K_5CoW_(12)O_(40)·3H_2O催化合成环己酮1,2—丙二醇缩酮

研究了杂多化合物K_5CoW_(12)O_(40)·3H_2O作为催化剂对环己酮和1,2-丙二醇缩酮的催化活性。系统考察了酮醇物质的量比、催化剂质量、带水剂体积、反应时间和催化剂重复使用性等因素对产品收率的影响。实验结果表明,杂多化合物K_5CoW_(12)O_(40)·3H_2O是合成环己酮1,2-丙二醇缩酮的良好催化剂,在酮醇物质的量比为1:1.4、催化剂质量为0.5 g、带水剂环己烷体积为9 mL、反应时间为70 min的最佳条件下,环己酮1,2-丙二醇缩酮的收率最高可达94.2%。

H_4SiW_(12)O_(40).nH_2O催化合成己二酸

本文在常压、无有机溶剂和相转移催化剂情况下,以30%H_2O_2为氧源,以H_4SiW_(12)O_(40).nH_2O为催化剂,用H_2O_2氧化环己醇合成己二酸。探讨了催化剂用量、H_2O_2用量、反应温度和时间等条件对反应的影响。在优化工艺[n(环己醇):n(H_2O_2):n(H_4SiW_(12)O_(40).nH_2O)=100:700:4]条件下,反应温度为110℃,反应时间7 h,己二酸分离收率可达68.8%,纯度为99.6%;催化剂重复使用5次后,己二酸收率仍可达60.2%。

联咪唑修饰{SiW_(12)O_(40)}杂化物的合成及超级电容性能

以H_(4)SiW_(12)O_(40)为前驱体,采用水热法合成了联咪唑修饰的超分子杂化物,经元素组成和热重分析,确定其分子式为[Co(bim)_(2)(H_(2)O)_(2)][H_(2)SiW_(12)O_(40)]·2H_(2)O(bim=联咪唑)(1).单晶衍射分析表明,该杂化物是由[H_(2)SiW_(12)O_(40)]_(2‒)、[Co(bim)_(2)(H_(2)O)_(2)]_(2+)和2个H_(2)O组成,各组分之间通过氢键或超分子作用形成一维(1D)~三维(3D)结构.分别以玻碳、碳布和泡沫镍为集流体的三电极体系,当电流密度为1 A/g时,杂合物1的比电容分别为350.09,107.02和186.83 F/g;5000次循环后,电容保持率分别为94.5%,92.8%和95.1%.动力学分析显示,该化合物的电荷存储机制是以表面控制电荷为主.在对称纽扣电池体系中,当电流密度为1 A/g时,其比电容为80.00 F/g;在0.75 V的电压窗口中,功率密度为130.83 W/kg时,其能量密度为9.41 W·h/kg;5000次循环后,电容保持率为92.4%,表明合成的杂化物是一种较好的超级电容器电极候选材料.

ZrO_(2)-(NH_(4))_(3)PW_(12)O_(40)光催化降解罗丹明B

采用水热沉淀法制备了ZrO_(2)-(NH_(4))_(3)PW_(12)O_(40)复合光催化剂。采用XRD、SEM、TEM、UV-Vis DRS和FTIR等技术对催化剂进行了表征,并通过光催化降解罗丹明B(RhB)评价其光催化性能。实验结果表明:ZrO_(2)与(NH_(4))_(3)PW_(12)O_(40)的配比对催化剂的形貌和光催化性能均有影响,当n(Zr)∶n(W)=1∶5时催化剂的分散性好,光催化活性较高;紫外光照射90 min后,RhB的降解率达到96.69%;重复使用4次后,该催化剂仍保持较高的催化活性。

H_(3)PMo_(12)O_(40)修饰电极对酪氨酸酶的电化学传感

通过阳极化处理玻碳电极,吸附法制备H_(3)PMo_(12)O_(40)修饰电极,研究H_(3)PMo_(12)O_(40)修饰电极在不同支持电解质、扫描速度下对酪氨酸酶的电化学传感。结果表明:以0.1 mol/L H 2 SO 4为支持电解质效果最佳,超纯水效果最差,并且该电化学反应属于表面与扩散的共同控制过程;在温和条件下,V(0.1 mol/L H 2 SO 4)∶V(0.5 mol/L Na 2 SO 4)=2∶8混合溶液作为支持电解质,该多酸修饰电极在100 mV/s扫描速度下对酪氨酸酶具有良好的催化作用,氧化还原峰明显,检出限(S/N=3)达15.76 U/mL。

H_3PMo_(12)O_(40) catalyzed three-component one-pot synthesis of 4,6-diarylpyrimidin-2(1H)-ones under solvent-free conditions

4,6-Diarylpyrimidin-2(1H)-one derivatives have been synthesized from three-component one-pot condensation of acetophe-none derivatives,aldehydes and urea in the presence of trimethylsilyl chloride and a catalytic amount of HPMoOunder solvent-free conditions.

H_(4)GeW_(12)O_(40)/TiO_(2)催化合成乙酸正戊酯

主要运用杂多酸盐H_(4)GeW_(12)O_(40)/TiO_(2)作为冰乙酸和正戊醇反应合成乙酸正戊酯的催化剂,实验探究了诸多因素对该反应中产品收率的影响.实验证明:H_(4)GeW_(12)O_(40)/TiO_(2)是合成乙酸正戊酯的良好催化剂,当n_(冰乙酸)∶n_(正戊醇)=1∶1.35和适宜的反应条件下,乙酸正戊酯的收率可高达95.7%.

[(CH3)2NH]3[H3PMo12O40]的合成、结构及表征

通过水热合成法,成功合成了化合物[(CH_3)_2NH]_3[H_3PMo_(12)O_(40)],并通过单晶X射线衍射,IR,XRD,元素分析和电化学分析对该化合物进行表征。该化合物中,Keggin型磷钼酸之间通过氢键形成二维折叠层,这些层按照ABCD沿c轴方向堆积。二甲胺分子分布在层间,通过氢键连接相邻的来自不同层的两个Keggin型磷钼酸,将二维折叠层进一步拓展成三维超分子骨架。

SiO_2包裹的杂多酸催化剂Cu-H_4SiW_(12)O_(40)瞬间催化四氢吡喃化反应(英文)

以微乳化法制备的二氧化硅担载的的杂多酸催化剂Cu-H4SiW12O40在室温下能瞬间催化四氢吡喃化反应。且催化剂在至少重复使用四次而未见明显的失活。

H_4SiW_(12)O_(40):An efficient catalyst for the synthesis of new spiro-[dibenzo[a,i]xanthene- 14,3'-indoline]-2',8,13-triones

Novel spiro[dibenzo[a,i]xanthene-14,3＇-indoline]-2＇,8,13-triones were prepared by the three-component reaction ofβ-naphthol, isatins,and 2-hydroxy-1,4-naphoquinone in the presence of a catalytic amount of H_4SiW_（12）O_（40）.This protocol provides a simple one-step procedure with the advantages of easy work-up,mild reaction conditions and environmentally benign.

Cs_(2.5)H_(0.5)PW_(12)O_(40)/SiO_2固体酸催化剂上乙酸与烯烃的酯化和叔戊烯与甲醇的醚化

以硅胶为载体,制备了负载型的Cs2.5H0.5PW12O40催化剂,将该催化剂用于乙酸与1 丁烯的酯化反应和叔戊烯与甲醇的醚化反应,考察了其活性组分负载量、载体硅胶性质和焙烧温度对催化剂性能的影响.研究了催化剂用量、反应温度、反应压力、n(1 丁烯)/n(乙酸)、反应时间等反应条件对酯化反应中乙酸转化率的影响.与其他类型催化剂的醚化活性进行了对比,并进行了Cs2.5H0.5PW12O40/SiO2催化剂的醚化稳定性实验.结果表明,以低钠硅胶为载体,在活性组分负载量为40%,焙烧温度为300～400℃时制备的Cs2.5H0.5PW12O40/SiO2催化剂具有较高的催化活性.随着负载量增大,催化剂孔径、孔容和比表面积减小,而催化活性先增加后减小.在反应温度120℃、压力1.5MPa、n(1 丁烯)/n(乙酸)比3.0、催化剂用量4%、反应时间7h的条件下进行酯化反应,乙酸的转化率为87.36%.在反应温度80℃、压力1.0MPa、n(甲醇)/n(叔戊烯)比1.1、LHSV为1h-1的条件下进行醚化反应,叔戊烯的转化率为68.57%.制备的新型Cs2.5H0.5PW12O40/SiO2催化剂对于乙酸与1 丁烯的直接酯化反应和叔戊烯与甲醇的醚化反应具有良好的活性与选择性,催化剂寿命长.因此,Cs2.5H0.5PW12O40/SiO2是一种理想的乙酸与烯烃直接酯化和叔戊烯与甲醇醚化反应的催化剂.

叔戊烯与甲醇在Cs_(2.5)H_(0.5)PW_(12)0_(40)/SiO_2催化剂上的醚化

采用Cs2 5H0 5PW12040/SiO2催化剂进行了叔戊烯与甲醇的醚化反应研究考察了催化剂制备方法和工艺条件对叔戊烯转化率的影响。研究结果表明,以硅胶为载体,在负载量40%、焙烧温度400℃条件下制备的Cs2 5H0 5PW12040/SiO2催化剂具有较高的催化活性。在反应温度为80℃、压力为1 0MPa、n(甲醇)/n(叔戊烯)比为1 1、LHSV为1h-1的条件下,叔戊烯的转化率为68 57%。

Construction of a Bronsted-Lewis solid acid catalyst La-PW-SiO_(2)/SWCNTs based on electron withdrawing effect of La(Ⅲ)onπbond of SWCNTs for biodiesel synthesis from esterification of oleic acid and methanol

A novel solid Bronsted-Lewis acid catalyst La-PW-SiO_(2)/SWCNTs(single-wall carbon nanotubes)was synthesized from the synergistic modification of H_(3)PW_(12)O_(40)(HPW)by single-walled carbon nanotubes functionalized with sidewall hydroxyl groups(SWCNTs–OH)and La^(3+) via sol–gel method.The freshly prepared catalyst was characterized by several methods,and the catalytic activity and stability of it were studied from the esterification of oleic acid and methanol.Results showed that the highest conversion of oleic acid was 93.1%(mass)and maintained as high as 88.7%(mass)after six cycles of La-PW-SiO_(2)/SWCNTs.The high catalytic activity and stability of La-PW-SiO_(2)/SWCNTs can be attributed to the strong electron withdrawing effect of La^(3+) on π bond of SWCNTs,because it can facilitate the formation of a large number of strong Lewis acid sites.Therefore,the reduction of catalytic activity of a solid acid catalyst due to the fact that hydration reaction of its Bronsted acid sites can be effectively reduced.La-PW-SiO_(2)/SWCNTs can be an efficient and economical catalyst,because it shows good catalytic activity and stability.

Keggin-type polycationic AlO_(4)Al_(12)(OH)_(24)H_(2)O_(12)^(7+)intercalated MoO_(3)composites for methyl orange adsorption

Molybdenum trioxide(MoO_(3))can be employed as an excellent host for intercalation due to its 2D lay-ered structure that connected by van der Waals interactions.Herein,a series of polyoxometalate-based MoO_(3) composites(Al_(13)@MoO_(3))were successfully prepared by interpolating the Keggin-type polycationic AlO_(4)Al_(12)(OH)_(24)H_(2)O_(12)^(7+)(Al_(13))into MoO_(3)gallery.These composites can be applied to rapidly adsorb the anionic dye methyl orange(MO)through strong electrostatic interactions lead to compact and sta-ble gathering in the surrounding of the numerous charged Al_(13).Adsorption behaviors of composites with the different amount of Al_(13) were determined,these results revealed that Al_(13)-3.34%@MoO_(3)exhibited the most remarkable adsorption capacity.More importantly,the composite maintains superior adsorption capacity for five consecutive adsorption/desorption cycles,suggesting that Al_(13)@MoO_(3)can be an efficient and durable adsorbent.

硅钨酸催化合成苯甲醛乙二醇缩醛

以硅钨酸为催化剂,对以苯甲醛和乙二醇为原料合成苯甲醛乙二醇缩醛的反应条件进行了研究。实验表明:硅钨酸是合成苯甲醛乙二醇缩醛的良好催化剂,较系统地研究了醛醇摩尔比、催化剂用量、反应时间诸因素对收率的影响。最佳反应条件为:n(苯甲醛)∶n(乙二醇)=1∶2.1,催化剂用量为反应物料总质量的1.0%,环己烷为带水剂,反应时间60min。上述条件下,苯甲醛乙二醇缩醛的收率可达83.9%。

硅钨酸催化合成苯甲醛1,2-丙二醇缩醛

以硅钨酸为催化剂,通过苯甲醛和1,2-丙二醇反应合成了苯甲醛1,2-丙二醇缩醛.实验结果表明,硅钨酸对缩醛反应具有较高的催化活性,反应的最佳条件为:苯甲醛150 mmol,n(苯甲醛):n(1,2-丙二醇)=1.0:1.5,催化剂0.7%(反应物料总质量),带水剂环己烷8 mL,反应温度85 ℃～125 ℃,反应时间1.0 h,收率达88.9%.

超声波对十二钨硅酸酸化制备的研究

用超声波对传统的乙醚萃取法[1]制备12 钨硅酸进行了改进。探索了硅酸钠与钨酸钠的物质的量比、用超声波处理与未用超声波处理、反应温度、酸度与加酸的快慢等因素对产品质量的影响。实验表明:在硅酸钠与钨酸钠的物质的量比为1.1∶1,控温90～98℃,pH值1～2,加酸速率1滴/(2～3)s的优化条件下,用超声波处理反应液可以增加产品的产量和质量。