MgSO_4·5Mg(OH)_2·3H_2O的水热合成及反应时间对其形貌的影响(英文)

Both whisker and nanometer MgSO4·5Mg(OH)2·3H2O(MOS) were prepared by hydrothermal method at 140℃for different times, using NaOH and MgSO4·7H2O as raw materials. The MgSO4·5Mg(OH)2·3H2O part icles were characterized by powder X ray diffraction(XRD),thermal analysis(TGA DSC), infrared spectroscopy(FT IR),transmission electron microscopy(SEM) and scanning electron microscopy(TEM). The size distribution in whisker like and nanocrystalline materials arein the range of 10～50μm and 10～20nm respectively. The whisker MOS is metastable phase in MgSO4 NaOH H2O system at 140℃,whereas nanometer MOS is stable phase.

纳米晶MgSO_4·5Mg(OH)_2·3H_2O合成与表征

Nanocrystalline MgSO\-4·5Mg（OH）\-2·3H\-2O were prepared by the hydrothermal reaction at 140 ℃ for 24 h. Nanoparticle samples were characterized by FTIR, TG, DSC, XRD and TEM. The size distribution of nanocrystalline is in the range of 10\20 nm, the mean size is 16 nm.

Mg6Al2（OH）13CO3Br1.6Cl1.4·5.5H2O晶须的合成及其结构分析

以MgBr2 6H2O、AlCl3 6H2O为原料,Na2CO3-NaHCO3缓冲溶液为沉淀剂,合成了Mg6Al2(OH)13CO3Br1.6Cl1.4 5.5H2O(简写为LDH-CO3-Br1.6-Cl1.4)晶须,考察了缓冲溶液用量对样品的晶形及晶胞参数的影响,并采用X射线衍射(XRD)、扫描电镜(SEM)、N2吸附脱附法对样品的物相、结晶度、晶体形貌结构和比表面积进行分析.结果发现缓冲溶液用量对样品的形貌和板层结构有较大的影响.当反应液中 Na2CO3 和 NaHCO3 浓度分别为0.625和0.25mol/L,在65℃下反应205h时可获得晶形好、板层结构显著、规整性好、分散性好的LDH-CO3-Br1.6-Cl1.4晶须.

Synthesis of Mg_5(CO_3)_4(OH)_2·4H_2O with Flower-like Micro-structure and Its Catalytic Activity for Transesterification of Dimethyl Carbonate with Phenol

A novel flower-like hydrated magnesium carbonate hydroxide, Mg5 （CO3 ）4 （OH）2·4H2O, with micro-structure composed of individual thin nano-sheets was synthesized using a facile solution route without the use of template or organic surfactant. Reaction time has an important effect on the final morphology of the product. The micro-structure and morphology of Mg5 （CO3）4 （OH）2·4H2O were characterized by means of X-ray diffractometry （XRD）, fieldemission scanning electron microscopy（FE-SEM）. Brunauer-Emmett-Teller（BET） surface areas of the samples were also measured. The probable formation mechanism of flower-like micro-structure was discussed. It was found that Mg5 （CO3）4（ OH）2·4H2O with flower-like micro-structure was a novel and efficient catalyst for the synthesis of diphenyl carbonate （DPC） by transesterification of dimethyl carbonate （DMC） with phenol.

Liquid precipitation and microstructure of Mg6Al2(OH)15NO3CO3·4H2O whiskers

High-quality LDH-NO_3-CO_3 whiskers were synthesized via a liquid precipitation method using Mg(NO_3)_2·6H_2O and Al(NO_3)_3·9H_2O as raw materials and Na_2CO_3-NaHCO_3 buffer solutions as precipitant. The whiskers were characterized by X-ray diffraction, transmission electron microscope, and Brunauer-Emmett-Teller N_2 surface area measurement. The influence of buffer solution concentration on the characteristics of the sample was investigated. The results show that the buffer solution concentration has significant impact on whiskers with intercalated structure. Overall, LDH-NO_3-CO_3 whiskers with well-defined geometry, distinct intercalated structure, high quality, and good dispersion capability can be obtained under the following conditions: buffer solution volumetric ratio of 60%, reaction temperature of 55°C, and reaction time of 269 h.

配合物[Zn(bipy)_3]_2·4Cl·5H_2O的合成与晶体结构

合成了 [Zn(bipy) 3 ]2 ·4Cl·5H2 O(bipy =2 ,2′ 联吡啶 )配合物并利用X射线衍射仪确定其结构 .该配合物属单斜晶系 ,空间群为Cc ,晶胞参数a =1.36 10 (2 ) (nm) ,b =2 .2 5 4 4 (5 ) (nm) ,c =2 .3775 (4 ) (nm ) ;β=10 5 .77(1) (°) ,V =7.0 2 0 0 (2 ) (nm3 ) ,Fw =12 99.92 ,Dc =1.2 2 0 g·cm-3 ,Z =4 ,μ =0 .886mm-1,F(0 0 0 ) =2 6 4 0 .该配合物晶体中每两个锌和联吡啶的配离子组成一个不对称单位 ,Cl-,H2 O处于位置无序状态 .

在缓冲液中制备Mg_6Al_2(OH)_(13)-SO_4-CO_3-Br·5.5H_2O及其结构分析

以MgBr_2·6H_2O、Al_2(SO_4)_3·18H_2O为原料,Na_2CO_3-NaHCO_3缓冲对为沉淀剂,合成了优质的Mg_6Al_2(OH)_(13)-SO_4-CO_3-Br·5.5H_2O晶须.样品用XRD、SEM、N2吸附-解吸进行了物相、粒度、晶体形貌结构分析.分析了缓冲对体积分数对LDH-SO_4-CO_3-Br晶须晶形及晶胞参数的影响.结果发现,缓冲对用量在体系中含量的大小对其规整性、板层结构有较大的影响.当缓冲液用量为40%,反应温度T=75?C,反应时间t=212h时可获得晶形好、板层结构显著、规整性好、分散性好的优质LDH-SO_4-CO_3-Br晶须.

三维孔道结构(H_3NCH_2CH_2NH_3)_2(H_3NCH_2CH_2NH_2)[V~Ⅲ(H_2O)_2(V~ⅣO)_8(OH)_4(H(P,B)O_4)_4(P,B)O_4)_4(H_2O)_2]·3H_2O的水热合成及晶体化学研究——(1)水热合成与产物表征

为了探讨化学成份对VPO体系孔道结构化合物结构稳定性的影响,根据酸碱平衡原理进行了合成实验设计;利用V2O5、H3PO4、H3BO3等简单的无机前驱物、乙二胺作结构导向剂,水热法合成了孔道结构钒硼磷酸盐化合物(H3NCH2CH2NH3)2(H3NCH2CH2NH2)[VⅢ(H2O)2(VⅣO)8(OH)4(H(P,B)O4)4((P,B)O4)4(H2O)2]·3H2O(简称V9(P,B)8-en).典型的反应起始物摩尔比为n(V2O5):n(H3BO3):n(H3PO4):n(en):n(H2O)=0.89:3.50:3.50:3.60:265(pH值为6.5),在175℃、自生压力条件下恒温晶化6.5d(最终pH值为5.9).通过电子探针、粉末X射线衍射、红外吸收光谱、原子占位度修正等方法,对产物的化学成份、物相及其结构等进行了实验研究.证实V9(P,B)8-en为V9P8-en的类质同象化合物,不同晶粒中B与P的含量有差别,B与P之比为O.1:7.9～2.54:5.46(原子比),但恒有V:(P+B)≈9:8.表明通过合理设计和控制合成条件,可在保持V9P8-en基本结构不变的前提下通过同晶取代引入新的化学成份,并由此探讨成份与结构稳定性的关系.

Preparation of Magnesium Oxide Whisker by MgSO4·5Mg（OH）2·2H2O Whisker ＂Pseudomorph＂ Technique

To promote the scale-up production and industrial application of magnesium oxide （MgO） whiskers, MgO whiskers were prepared by the calcination method of the precursor. The precursor MgSO4·5Mg（OH）2·2H2O （152 MOS） single component was prepared by hydrothermal synthesis reaction in MgSO4 solution and NaOH solution. MgO whisker was prepared by heating treatment of the precursor at low heating speed to keep the structure of the precursor not be destroyed. The composition, the morphology and the structure of these whiskers were characterized by X-ray diffraction （XRD） and scanning electron microscopy （SEM）. The results indicate that the MgO whisker was about 0.5-1.2 μm in diameter and 20-80 μm in length, with an aspect ratio no less than 100.

Na_2S_2O_3-CuSO_4-C_2H_5OH-H_2O四元系合成法制取CuOH及其性质的研究──关于在常温下或无苛性碱处理时Na_2S_2O_3跟CuSO_4反应生成CuOH成立之证明(Ⅰ)

通过提出合成CoOH的新方法，讨论了体系浓度、温度、催化剂对CuOH合成所具有明显的影响以及CuOH的某些物理性质和化学性质．采用Na2S2O3、CuSO4、C2H5OH、H2O为主要原料合成CuOH获得成功．

Na_2S_2O_3──CuSO_4──C_2H_5OH──H_2O合成法制取CuOH反应机理的研究(Ⅱ)

作者研究了Na2S2O3、CuSO4、C2H5OH、H2O四元素合成CuOH的反应机理．由碰撞理论推得Cu＋和CuOH的生成速率方程。实验结果表明，温度、浓度对区应速率都有一定的影响．

不同镁源反应物对反应烧结制备Pb(Mg_(1/3)Nb_(2/3))O_3陶瓷的影响

采用MgO和(MgCO3)4.Mg(OH)2.5H2O为不同镁源反应物,通过高温反应烧结工艺制备Pb(Mg1/3Nb2/3)O3(PMN)陶瓷,研究不同Mg源反应物对PMN陶瓷物相组成、相对密度及组织形貌的影响。结果表明:以MgO为前驱体时,由于其反应活性差,扩散和反应不均匀,导致烧结样品中有焦绿石相残留,且焦绿石相对晶界的钉扎阻碍作用使得致密化过程进行相对较慢,所得PMN样品致密度相对较低;而以(MgCO3)4.Mg(OH)2.5H2O为前驱体时,因其受热分解可以得到大比表面积、高反应活性的MgO,从而可以制得高致密度且具有单一钙钛矿相组成的PMN陶瓷材料。

Mn_5(PO_3(OH))_2(PO_4)_2(H_2O)_4的水热合成和晶体结构研究

在水热反应的条件下合成了具有开放骨架结构的Mn5(PO3(OH) ) 2 (PO4) 2 (H2 O) 4,并用单晶X射线衍射方法对其结构进行了测定 ,该晶体属单斜晶系 ,空间群C2 C,a =1.76 0 5 8(11)nm ,b =0 .9140 5 (4)nm ,c=0 9490 1(4)nm ,β=96 .5 180 (19)° ,V =1.5 1733(13)nm3,Mr =72 8.6 6 ,Z =4,Dc =3.190g·cm- 3 ,μ(MoKα) =4.5 86mm- 1 ,F (0 0 0 ) =142 0 ,R =0 .0 2 0 7,wR =0 .0 6 14.标题化合物由MnO6 八面体和PO4四面体通过共顶点或共棱相连 ,形成具有二维孔道的开放性骨架结构 .

One-step Synthesis of 5-Ethyl-2-methylpyridine from NH4HCO3 and C2H5OH Under Hydrothermal Condition

A simple one-pot approach to synthesizing 5-ethyl-2-methylpyridine（EMP） was established using NHaHCO3 and C2H5OH as starting materials and commercial Cu2O as catalyst and oxidant under hydrothermal con- dition. Different reaction conditions were researched and the optimal ones were achieved by studying the parameters, that could affect the yield of product and by considering the energy and resource saving. The present study provided an eco-friendlv way to obtaining EMP with lower volatility using fewer toxic starting materials.

给Mg与NH4Cl溶液反应补充几点认识

Mg与NH4Cl溶液的反应,本质是镁与酸的反应。反应过程中溶液由酸到碱--溶液pH由低到高。反应生成NH3、H2和Mg(OH)2。着重阐明反应生成的H2是来自NH4+,而不是来自H2O,H2O仅与NH3反应生成弱碱(NH3·H2O)。

碱式硫酸镁晶须的合成及应用

以一定浓度的MgSO4和NaOH溶液为原料,在常温下混合,在160℃,0.5 MPa的条件下用水热法反应8 h,制备出增强阻燃材料MgSO4.5Mg(OH)2.3H2O型碱式硫酸镁晶须(MOS),探讨了反应条件对产物形貌、结构及组成的影响,初步确立了制备MOS的工艺条件。经过对复合材料的拉伸性能测试得出结论,采用MOS填充改性的聚丙烯,优于市售纳米氢氧化镁和阻燃级氢氧化镁。

水滑石类阴离子黏土的合成及催化应用研究进展

水滑石类阴离子黏土具有一些独特的性能,作为催化材料应用广泛。本文就水滑石类阴离子黏土的合成现状进行了概述,对其各种不同的合成方法进行了比较。给出了它作为碱催化剂、氧化还原催化剂以及催化剂载体的应用实例,共引用文献60篇。

卤水-氨法碱式氯化镁晶须的制备及影响因素的研究

在常压下用液相反应法制备了碱式氯化镁晶须,研究了氯化镁浓度、氯化镁与氨水的摩尔比、反应温度、陈化温度、陈化时间对碱式氯化镁晶须制备的影响。根据XRD和SEM测试结果,提出了制备碱式氯化镁晶须的最佳工艺条件:(1)氯化镁浓度为3mol/l;(2)氯化镁与氨水的摩尔比为4∶1~6∶1;(3)最佳反应温度为30℃;(4)氨水的加料速度为10m l/m in^20m l/m in;(5)最佳陈化温度为50℃~60℃,最佳陈化时间为48h^72h。制备得到了长径比≥100碱式氯化镁晶须。

复合改性硫氧镁水泥的性能研究

目的研究当总掺量不同时,复合改性硫氧镁水泥的物相组成、抗压强度及耐水性能,提出提高和改善硫氧镁水泥力学性能和耐水性能的方法.方法按材料用量的不同进行硫氧镁水泥基本配比试验;制备复合改性硫氧镁水泥;利用扫描电镜和X光谱衍射进行微观分析.结果硫氧镁水泥的抗压强度达到最大时的基本配比:质量分数为30%,固液比为1.2,粉煤灰掺量为30%;复合酸总掺量取2%,草酸质量与柠檬酸质量比为1∶3的配比时,硫氧镁水泥28 d的抗压强度为72.5 MPa左右,是不添加改性剂硫氧镁水泥的2倍多;复合酸使水泥软化系数在0.95以上,微观分析确定新物相为5Mg(OH)_2·MgSO·7H_2O.结论加入复合酸使水泥内部更加密实,孔隙率降低,抗压强度提高,并表现出较好的耐水性能和力学性能;新物相的生成是复合改性硫氧镁水泥耐水性能和力学性能显著提高的主要原因之一.

水热控制合成球形碱式磷酸铁及生长机理研究

以FeCl3·2H2O和NH4H2PO4·2H2O为水热反应原料,采用一步水热法通过调节反应体系的浓度合成形状规则的球形Fe5(PO4)4(OH)3·2H2O颗粒。研究发现,反应体系浓度是影响Fe5(PO4)4(OH)3·2H2O微晶颗粒形貌生长的重要因素。此外,本文结合SEM及SAED表征分析,理论性的探讨了球形Fe5(PO4)4(OH)3·2H2O微晶在高温水热条件下的生长机理。