Aqueous-phase catalytic hydrogenation of furfural to cyclopentanol over Cu-Mg-Al hydrotalcites derived catalysts:Model reaction for upgrading of bio-oil

A series of Cu-Mg-Al hydrotalcites derived oxides with a(Cu+Mg)/Al mole ratio of 3 and varied Cu/Mg mole ratio(from 0.07 to 0.30) were prepared by co-precipitation and calcination methods, then they were introduced to the hydrogenation of furfural in aqueous-phase. Effects of Cu/Mg mole ratio, reaction temperature, initial hydrogen pressure, reaction time and catalyst amount on the conversion rate of furfural as well as the selectivity toward desired product cyclopentanol were systematically investigated. The conversion of furfural over calcined hydrotalcite catalyst with a Cu/Mg mole ratio of 0.2 was up to 98.5% when the reaction was carried out under 140 ?C and the initial hydrogen pressure of 4 MPa for 10 h, while the selectivity toward cyclopentanol was up to 94.8%. The catalysts were characterized by XRD and SEM. XRD diffraction of all the samples showed characteristic pattern of hydrotalcite with varied peak intensity as a result of different Cu content. The catalytic activity was improved gradually with the increase of Cu component in the hydrotalcite.

Influence of the preparation method on the catalytic activity of Mg-Al hydrotalcites as solid base catalysts

Mg-Al hydrotalcites were synthesized using different preparation methods(a co-precipitation method, a urea method, and a simple one) to analyze their effect on the catalytic activity of these solid base catalysts. The method strongly affected the structure of their layers(e.g., the growth and stacking of the layers, and the type of intercalated anions) and, accordingly, their catalytic activity. The Mg-Al hydrotalcite prepared by co-precipitation showed the best catalytic performance in the isomerization of glucose into fructose, due to the small crystallite size and sand rose morphology enhancing the exposure of surface active sites to reactants.

Efficient Removal of Phosphate from Aqueous Solutions Using Corundum-hollow-spheres Supported Caclined Hydrotalcite Porous Thin Films

Phosphate was removed from aqueous environment by corundum-hollow-spheres supported caclined hydrotalcite (cHT) thin films. Mg-Al-CO3 hydrotalcite (HT) thin films were deposited on corundumhollow-sphere substrates by hydrothermal homogeneous precipitation at 120℃for 30-240 min and cHT thin films were obtained by annealing of the HT thin films at 500℃for 180 min. Their crystal phase, morphology and microstructure were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM).The results show that homogeneous, well-crystallized and hierarchical flower-like thin films were deposited firmly on the surface of the corundum. The mechanism of nucleation and growth of the HT thin films was fitted well with the anion coordination polyhedron growth unit model. To determine the absorption of phosphate by this adsorbent, different bed depth (10-30 cm) and flow rate (1.0-3.0 m L/min) were examined by column experiments. The highest removal efficiency of phosphate amounted to 98.5%under optimum condition (pH=7.2). The adsorption capacity increased as the bed depth increased and decreased as the flow rate increased.

Effect and Mechanism of Rare Earth Hydrotalcite Inhibiting Coal Spontaneous Combustion

A hydrotalcite(layered double hydroxide, LDH) inhibitor which is suitable for the whole process of coal spontaneous combustion and a LDH inhibitor containing rare earth lanthanum elements were prepared. The inhibition effect and mechanism were analyzed by scanning electron microscopy(SEM),X-ray diffraction(XRD), thermal performance analysis, in-situ diffuse reflectance infrared spectroscopy and temperature-programmed experiment. The results have shown that the inhibitor containing lanthanum can play a good inhibitory role in every stage of coal oxidation. During the slow oxidation of coal samples, the inhibitor containing lanthanum ions can slow down the oxidation process of coal and increase the initial temperature of coal spontaneous combustion. At the same time, because the hydroxyl groups in LDHs are connected with-COO-groups on the coal surface through hydrogen bonds, the stability of coal is improved. With the increase of temperature, LDHs can remove interlayer water molecules and reduce the surface temperature of coal. CO release rate of coal samples decreases significantly after adding inhibitor containing lanthanum element, and the maximum inhibition rate of the inhibitor is 58.1%.

Mg-Al水滑石的制备及对水中氟离子的吸附效果研究

通过共沉淀法制备了Mg-Al水滑石,研究了镁铝摩尔比对Mg-Al水滑石的晶格结构、微观形貌、光谱性能的影响。以NaF溶液为模拟含氟废水,测试了Mg-Al水滑石对水中氟离子的吸附量和去除率,通过吸附模型研究了相应的吸附过程和机理。结果表明,Mg-Al水滑石外观为片层状结构,片层之间相互交叉堆积,镁铝比增大时,Mg-Al水滑石的层间距增大。水滑石对氟离子的饱和吸附量和去除率随着镁铝比的增大表现出先增大后减小的趋势,在吸附80 min时吸附量接近饱和,3Mg-Al水滑石的饱和吸附量达到最大值43.16 mg/g,去除率在120 min时达到最大值90.5%,经过5次吸附再生循环使用后,3Mg-Al水滑石对氟离子的去除率降至69.4%,保持率达到76.69%,具有良好的可重复利用性能。通过对Mg-Al水滑石吸附氟离子的数据进行拟合,发现Mg-Al水滑石吸附氟离子的过程更符合准二级动力学模型,主要以化学吸附作用为主。

新型Al-C晶粒细化剂的制备及对Mg-Al合金显微组织的影响研究

采用原位反应烧结法制备了新型Al-5C中间合金,利用光学显微镜(OM)、X射线衍射(XRD)和扫描电子显微镜(SEM)等研究了制备工艺对Al-5C中间合金组织以及该中间合金对Mg-Al合金晶粒细化的影响。结果表明,原位反应烧结法改善了Al与C的润湿性,Al-C的反应程度与球磨时间、烧结温度、烧结时间和压块方式有关;延长球磨时间、提高烧结温度或适当延长烧结时间均能促进Al-C反应,生成细小的Al4C3颗粒;Al-5C中间合金能有效地细化Mg-3Al合金的组织,添加量(质量分数)为2%时晶粒细化效果最佳。

Zn-Mg-Al LDO的制备及其除氟性能研究

半导体、电镀、冶金和陶瓷行业排放高浓度含氟废水,因此天然水中的氟化物污染已成为一个全球性问题,而Zn-Mg-Al LDO是很好的吸附材料。在n(Zn^(2+))/n(Mg^(2+))/n(Al^(3+))、反应温度不同的条件下,采用共沉淀法合成Zn-Mg-Al LDH,并将Zn-Mg-Al LDH在不同温度下焙烧制得Zn-Mg-Al LDO;利用X射线衍射(XRD)、扫描电子显微镜(SEM)、傅里叶变换红外光谱(FT-IR)、BET比表面积测试法等方法,探究了Zn-Mg-Al LDO的结构和性质;对50 mL质量浓度为20.0 mg/L的NaF溶液进行吸附实验,考察了Zn-Mg-Al LDO吸附去除氟离子的性能。结果表明,在n(Zn^(2+))/n(Mg^(2+))/n(Al^(3+))=2∶1∶1、反应温度为75℃、焙烧温度为400℃的条件下制备的Zn-MgAl LDO吸附去除氟离子的性能最好,氟离子的吸附去除率达到85.39%;Zn-Mg-Al LDO具有水滑石特征峰,晶型良好,呈层状结构;Zn-Mg-Al LDO为介孔材料,其比表面积为103.15 m2/g。此外,还研究了吸附过程的动力学和吸附机理。结果表明,吸附过程符合Langmuir吸附等温线和准二级动力学方程。

Effect of solution concentration on sealing treatment of Mg-Al hydrotalcite film on AZ91D Mg alloy

Cerium-based sealing treatment was developed for Mg-Al hydrotalcite film on AZ91D Mg alloy,and the influence of cerium salt solution was investigated to modify the surface integrity and corrosion resistance.Scanning electron microscope(SEM)and X-ray diffraction(XRD)measurements were carried out to analyze the surface morphology and phase composition.The corrosion resistance of Mg-Al hydrotalcite film after sealing treatment was evaluated by the polarization curve and electrochemical impedance spectroscopy(EIS)tests.The results showed that lower concentration of Ce-containing solution was beneficial to seal the micro-cracks on Mg-Al hydrotalcite film,and improve the surface integrity and corrosion resistance;higher concentration of Ce-containing solution could seal fewer micro-cracks,and the corrosion resistance was decreased owing to the disintegration of Mg-Al hydrotalcite film.

Preparation, Characterization of Hydrotalcites and the Catalytic Properties in Synthesis of o-Phenylphenol over Pt/CHT

Mg/Al mixed oxides with molar ratios of 2_6 of Mg to Al used as supports for platinum catalysts were obtained by the thermal decomposition method. The effect of the composition of the mixed oxides on the physicochemical properties was studied by TPD, nitrogen sorption, XRD and TG-DTA characterization methods. The synthesis of o-phenylphenol(OPP) from a dimer(obtained from cyclohexanone condensation) was investigated over Pt/CHT catalysts and compared with those over Pt/MgO and Pt/Al 2O 3 catalysts. These catalysts show a high activity and selectivity for OPP, with a conversion reaching 93.8% and a selectivity reaching 87.9% in some experiments. For Pt/CHTx catalysts, the calcined hydrotalcites exhibited strong base sites, which were necessary to catalyze the synthesis of OPP.

“Intelligent” reforming catalysts:Trace noble metal-doped Ni/Mg(Al)O derived from hydrotalcites

Trace amounts of noble metal-doped Ni/Mg（AI）O catalysts were pre- pared starting from Mg-Al hydrotalcites （HTs） and tested in daily start-up and shut-down （DSS） operation of steam reforming （SR） of methane or partial oxidation （PO） of propane. Although Ni/Mg（Al）O catalysts prepared from Mg（Ni）-Al HT exhibited high and stable activity in stationary SR, PO and dry reforming of methane and propane, the Ni/Mg（Al）O catalysts were drastically deactivated due to Ni oxidation by steam as purge gas when they were applied in DSS SR of methane. Such deactivation was effectively suppressed by doping trace amounts of noble metal on the catalysts by using a ＂memory effect＂ of HTs. Moreover, the noble metal-doped Ni/Mg（Al）O catalysts exhibited ＂intelligent＂ catalytic behaviors, i.e., self-activation and self-regenerative activity, leading to high and sustainable activity during DSS operation. Pt was the most effective among noble metals tested. The self-activation occurred by the reduction of Ni2＋ in Mg（Ni,Al）O periclase to Ni^0 assisted by hydrogen spillover from Pt （or Pt-Ni alloy）. The self-regenerative activity was accomplished by self-redispersion of active Ni^0 particles due to a reversible reductionoxidation movement of Ni between the outside and the inside of the Mg（Al）O periclase crystal; surface Ni^0 was oxidized to Ni2＋ by steam and incorporated into Mg（Ni2＋,Al）O periclase, whereas the Ni2＋ in the periclase was reduced to Ni^0 by the hydrogen spillover and appeared as the fine Ni^0 particles on the catalyst surface. Further a ＂green＂ preparation of the Pt/Ni/[Mg3.sAl]O catalysts was accomplished starting from commercial Mg3.5-AI HT by calcination, followed by sequential impregnation of Ni and Pt.

Ni-Co/Mg-Al catalyst derived from hydrotalcite-like compound prepared by plasma for dry reforming of methane

Ni-Co bimetallic catalysts with different Ni/Co content were derived from cold plasma jet decomposition and reduction of hydrotalcite-like compounds containing Ni,Co,Mg and Al,and their catalytic performance was investigated with dry reforming of methane.Experimental results showed that the hydrotalcite-like precursors could be completely decomposed and partly reduced by cold plasma jet,and the Nicontained catalysts exhibited much higher activity than the catalyst without Ni.Especially,the catalyst with Ni/Co ratio of 8/2 achieved not only the highest conversions of 80.3%and 69.3%for CH4 and CO2,respectively,but also the best stability in 100 h testing.The catalysts were characterized by XRD,XPS,TEM and N2 adsorption techniques,and the results showed that the better performance of the 8Ni2Co bimetallic catalyst was attributed to its higher metal dispersion,smaller metal particle size,as well as the interaction effect between Ni and Co,which were brought by the special catalyst preparation method.

Ca-Al Hydrotalcites as Catalysts for Methanolysis and Ethanolysis of Soybean Oil

The use of heterogeneous catalysts in the transesterification reaction of vegetable oils has getting emphasis in recent years, mainly by the alternative of obtaining clean fuel derived from renewable sources. Metal oxide such as MgO or CaO, supported ones like ?and zeolites are often applied in transesterification process. Among them, hydrotalcite has shown potential as catalysts on this reaction due to their physicochemical properties, such as: thermal stability, porosity, specific surface area, memory effect, basicity, acidity and anion exchange capacity. This work studies the catalytic performance of the calcium and aluminum based hydrotalcite in the transesterification reaction of soybean oil in methanol and ethanol. The hydrotalcite samples treated at 450?C were impregnated with KOH. The efficiency of impregnated and non- impregnated samples was compared and the non-impregnated one showed the best performance. This property was attributed to the higher availability of active sites used in the transesterification process.

MgFe hydrotalcites-derived layered structure iron molybdenum sulfide catalysts for eugenol hydrodeoxygenation to produce phenolic chemicals

Hydrodeoxygenation（HDO） is an effective alternative to produce value-added chemicals and liquid fuels by removing oxygen from lignin-derived compounds. Sulfide catalysts have been proved to have good activity for the HDO and particularly high selectivity to phenolic products. Herein, we presented a novel way to prepare the layered structure sulfide catalysts（MgFeMo-S） derived from MgFe hydrotalcites via the intercalation of Mo in consideration of the memory effect of the calcined hydrotalcite. By varying the Mg/Fe mole ratio, a series of MgFeMo-S catalysts were successfully prepared and characterized by nitrogen adsorption/desorption isotherms, X-ray diffraction（XRD）, transmission electron microscopy（TEM）,and inductively coupled plasma optical emission spectrometer（ICP-OES）. The characterization results indicated that the MgFeMo-S catalyst has retained the unique layered structure, which can facilitate uniform dispersion of the MoS2 species on both the surface and interlayer of the catalysts. For the HDO of eugenol, the Mg1Fe2Mo-S catalysts exhibited the best HDO activity among all the catalysts due to its higher active metal contents and larger pore size. The HDO conversion was 99.6% and the yield of phenolics was 63.7%, under 5 MPa initial H2 pressure（measured at RT） at 300 ℃ for 3 h. More importantly,MoS2 species deposited on the interlayer galleries in the MgFeMo-S catalysts resulted in dramatically superior HDO activity to MoS2/Mg1Fe2-S catalyst. Based on the mechanism investigation for eugenol, the HDO reaction route of eugenol under sulfide catalytic system has been proposed for the first time. Further applicability of the catalyst on HDO of more lignin-derived compounds was operated, which showed good HDO activity and selectivity to produce aromatic products.

Urea Decomposition Method to Synthesize Hydrotalcites

The urea decomposition property at high temperature has been used to control the pH value in the synthesis of layer compounds. The hydrotalcites of Mg-Al and Ni-Al with high crystallinity were synthesized by using this property.

The NO_xStorage and Desorption Activity of Mg/Al/Cu-NH₃·H₂O Hydrotalcites at Low Temperature

Ammonium containing catalyst Mg/Al/Cu-NH3·H2O hydrotalcite (HT) is prepared via co-precipitation, which is effective for NOx storage under 160℃. XRD and FT-IR are employed to characterize its structure and show that ammonium is successfully incorporated into HT. Meanwhile, the HT still retains the typical structure of hydrotalcite-like compounds. NOx storage activity tests indicate Mg/Al/Cu-NH3·H2O HT shows the significant NOx removal activity at 156℃ with a little Oxygen existence. TGA and DTG reveal the reaction of the released ammonium with NOx and storage NOx as nitrates will be responsible for the high NOx storage activity. Additionally, the temperature programmed desorption test of NOx adsorbed sample under 175℃ proves NOx is stored successfully into Mg/Al/Cu-NH3·H2O HT further.

反相微乳液法对Mg-Al LDHs材料结构及近红外光谱的性能研究

采用反相微乳液法制备出了具有介孔结构的Mg-Al LDHs粉体,采用XRD、SEM、BET、DSC/TG、傅立叶红外光谱仪、可见光-近红外分光光度计对样品的结构、成分、形貌、近红外光学性能进行了测试分析,系统研究了反相微乳液反应环境对Mg-Al LDHs粉体介孔结构、水负载量、近红外反射光谱的影响规律,进而探索了一种通过调控Mg-Al LDHs材料形貌结构以模拟天然植物近红外光谱特性的高光谱伪装颜料设计方法。当反相微乳液油-水体系中的水含量达到24%时,成功制备出了一种具有多孔结构的Mg-Al LDHs粉体,通过增大材料内部的孔隙率可以明显提高其在近红外波段的“水吸收峰”强度,并获得与天然植物高度相似的可见光-近红外光谱曲线,余弦相似度高达95.13%。多孔材料的内部孔隙一方面可有效提升材料对水分的负载能力,增强Mg-Al LDHs粉体在近红外波段的水吸收峰强度;另一方面,还能使入射光在材料内部发生多次折射,增大了材料对入射光吸收的几率,从而降低了光谱的整体反射率。在上述效应的综合作用下,最终实现了对天然绿色植物近红外反射光谱的精细化模拟。

Structural Analysis of Magnesium-Aluminium Hydrotalcites Modified with Iron III Obtained by Hydroxide Precipitation Method

Hydrotalcite-type anionic clays are a group of important materials used in adsorption processes, mainly for organic pollutants removal due the layered double hydroxide structure. The layer-interlayer interactions provide a structural memory even after dehydration and dehydroxylation process, since a very stable interlayer anions are part of material composition, like the carbonate one. A limited numbers of trivalent modifier cations can replace the aluminium cation due the ionic radii mismatch or oxidation state restrictions. Transition metal cations can replace the aluminium one in octahedral site of hydroxide lamellas in order to improve the adsorptive behaviors. In this work, we have investigate three compositions of carbonated magnesium-aluminium hydrotalcite with dif-ferent iron (III) contents through the co-precipitation method at pH 11 and aging step at 60°C for 6 hours. Thermal analysis was performed aiming the determination of the hydration water and hydroxyl amounts in dried precipitate samples, taking in account the results obtained for X-ray diffractometry, infrared spectroscopy, and nitrogen adsorption-desorption characterization for several thermally treated samples. All of synthesized samples showed high surface areas, even for high temperature of thermal treatment. The co-substitution with iron (III) reduced the temperature of dehydration and dehydroxylation process, but the co-substitution at 5 mol% provides other desirables characteristics, like a more amount of rhombohedral HDL phase and higher porosity, even after the thermal treatment at 500°C for 4 hours. This result makes that composition very applicable as a reusable adsorbent material in order to removal several types of micro-pollutant compounds in aqueous media.

微量Y_(2)O_(3)对多孔Mg-Al合金组织和性能的影响

镁基多孔材料在生物医用领域具有广阔的应用前景,为提高多孔Mg-Al合金在人体体液中的耐腐蚀性,采用粉末冶金法制备多孔Mg-Al合金,添加不同含量(0,0.2%,0.4%,0.6%)的Y_(2)O_(3)对Mg-Al合金进行改性。采用金相显微镜、XRD、SEM、万能试验机和电化学工作站探究了Y_(2)O_(3)含量对多孔Mg-Al合金的孔隙率和孔隙形貌、显微组织、抗压强度及其在Hank’s仿生溶液中耐蚀性的影响。结果表明:采用粉末冶金法制备的多孔Mg-Al合金的孔隙率为39%左右,粉末冶金法可较为准确地控制多孔Mg-Al合金的孔隙形貌和大小。多孔Mg-Al合金主要由Mg和第二相Al12Mg17组成,Y_(2)O_(3)的添加可使多孔Mg-Al合金晶粒得到细化、晶粒尺寸均匀化,第二相分布更加均匀,并提高多孔Mg-Al合金的抗压强度及其在Hank’s仿生溶液中的耐蚀性。当Y_(2)O_(3)含量为0.4%时,多孔Mg-Al合金的抗压强度为46.4 MPa,在Hank’s仿生溶液中的腐蚀速率为0.88744 mm/a。

Preparation and enantiosorption of L-aspartic acid pillared hydrotalcites

L-aspartic acid(Asp)pillared hydrotalcites were prepared by direct reaction of the L-Asp anion with layered double hydroxides(LDHs).The obtained samples were characterized by X-ray diffractometry(XRD),Fourier transform infrared(FTIR),and thermogravimetric and differential thermal analysis(TG/DTA).The results show that the initial interlayer carbonate ions can be completely replaced by the L-Asp anion under the controlled conditions.The pillared hydrotalcites have a crystallized supramolecular structure and thermal stability.The L-Asp pillared LDHs were used in the enantiosorption of enantiopure phenylalanine(Phe),the results suggest that L-Asp pillared LDHs exhibit an excellent enantiosorption capability for D-Phe,and the adsorption isotherm fits Freundlich equation.

Graphene oxide/hydrotalcite modified polyethersulfone nanohybrid membrane for the treatment of lead ion from battery industrial effluent

In the present study, polyethersulfone based nanohybrid membranes were effectively fabricated by incorporating graphene oxide(GO) and hydrotalcite(HT) nanosheets into the membrane structure. HT was prepared to overcome the irreversible agglomeration behavior of GO at a high concentration which affects the performance of the membranes. In particular, the shedding of HT in formamide provides a two-dimensional nanosheet with a higher positive charge density to prevent the restacking of GO nanosheets. Here, exfoliated GO and HT with different combinations(1:1, 1:2 and 1:3) were infused in the membrane matrix to treat lead-acid battery effluent effectively. Finally, the hybrid membranes were characterized for hydrophilicity, mechanical strength and pure water flux. In combination with the superior properties of GO and HT, the prepared hybrid membranes can be used as effectively to improve the separation and permeation performance. The phase inversion process eliminated the leaching of nanoparticles from the membrane matrix. The reusability of the hybrid membrane was achieved using0.1 mol·L^(-1)NaOH solution and reused without significant reduction in lead removal efficiency. The cost analysis of the membrane was also estimated from the lab study. Therefore, the present study suggested the selective and sustainable treatment of lead from a real-life effluent.