Exact Traveling Wave Solutions to Phi-4 Equation and Joseph-Egri (TRLW) Equation and Calogro-Degasperis (CD) Equation by Modified (G'/G2)-Expansion Method

In this study, we will introduce the modified (G'/G2)-expansion method to explore some of the exact traveling wave solutions of some nonlinear partial differential equations namely, Phi-4 equation, Joseph-Egri (TRLW) equation, and Calogro-Degasperis (CD) equation. As a result, we have obtained solutions for the equations expressed in terms of trigonometric, hyperbolic and rational functions. Moreover, some selected solutions are plotted using some specific values for the parameters.

Synthesis of nanostructured Li_2FeSiO_4/C cathode for lithium-ion battery by solution method

Nanosphere-like Li2FeSiO4/C was synthesized via a solution method using sucrose as carbon sources under a mild condition of time-saving and energy-saving, followed by sintering at high temperatures for crystallization. The amount of carbon in the composite is less than 10% （mass fraction）, and the X-ray diffraction result confirms that the sample is of pure single phase indexed with the orthorhombic Pmn21 space group. The particle size of the Li2FeSiO4/C synthesized at 700 °C for 9 h is very fine and spherical-like with a size of 200 nm. The electrochemical performance of this material, including reversible capacity, cycle number, and charge-discharge characteristics, were tested. The cell of this sample can deliver a discharge capacity of 166 mA-h/g at C/20 rate in the first three cycles. After 30 cycles, the capacity decreases to 158 mA-h/g, and the capacity retention is up to 95%. The results show that this method can prepare nanosphere-like Li2FeSiO4/C composite with good electrochemical performance.

Effects of reaction parameters on preparation of Cu nanoparticles via aqueous solution reduction method with NaBH_4

The preparation of Cu nanoparticles by the aqueous solution reduction method was investigated. The effects of different reaction parameters on the preparation of Cu nanoparticles were studied. The optimum conditions for preparing well-dispersed nanoparticles were found as follows: 0.4 mol/L NaBH4 was added into solution containing 0.2 mol/L Cu2+, 1.0% gelatin dispersant in mass fraction, and 1.2 mol/L NH3?H2O at pH 12 and 313 K. In addition, a series of experiments were performed to discover the reaction process. NH3?H2O was found to be able to modulate the reaction process. At pH=10, Cu2+ was transformed to Cu(NH3)42+ as precursor after the addition of NH3?H2O, and then Cu(NH3)42+ was reduced by NaBH4 solution. At pH=12, Cu2+ was transformed to Cu(OH)2 as precursor after the addition of NH3?H2O, and Cu(OH)2 was then reduced by NaBH4 solution.

Study of a mass transfer-reaction model for SO_2 absorption process using LAS/H_2SO_4 solution

A regenerative absorption process for removal of SOx from FCC off-gas using LAS/ H2SO4 solution as absorbant was studied and pilot-plant experiments were carried out. A mass transfer- reaction model for the SO2 absorption process was established based on pilot-plant experiments, and the concentration distribution of components in the liquid film, and the partial pressure and mass transfer rate of SO2 along the height of the absorption tower, was calculated from this model. The numerical simulation results were compared with the experimental results and proved that the model can be used for describing the SO2 absorption process.

Interaction of Mechanical and Electrochemical Factors duringCorrosion Fatigue of Fe-26Cr-1Mo Stainless Steel in 1M H_2SO_4 Solution

The cyclic plastic straining electrode technique has been used to investigate the transient electrochemical behaviour of Fe-26Cr1Mo stainless steel in 1M H2SO4 solution at a passive potential.The influence of plastic strain amplitude and plastic strain rate on the dissolution current response was analysed. The experimental results showed that the transient current was dependent on the competitive process of the surface film rupture and repassivation of the new surface. The high plastic strain amplitude and the high plastic strain rate caused a change of electrochemical activity of specimen surface. In the condition of low strain amplitude and strain rate, the characteristics of current response was mainly relative tp the process of new surface repassivation.The competition kinetics has been analysed through the comparison of plastic strain rate and repassivating rate

A Highly Luminous LiCaPO₄:Eu²⁺Phosphor Synthesized by a Solution Method Employing a Water-Soluble Phosphate Ester

A LiCaPO4:Eu2+ phosphor with high photoluminescence was synthesized using a polymerizable complex (PC) method employing a water-soluble polyethylene glycol-conjugated phosphate ester (PEG-P). PEG-P could be obtained from a reaction among polyethylene glycol 300, phosphorus pentoxide, and pyrophosphoric acid. The PEG-P prepared was stable in an aqueous condition. A transparent solution and gel were obtained when the PEG-P was used as a source of P during the PC method, whereas the use of H3PO4 caused an undesirable precipitate. The LiCaPO4:Eu2+ obtained via the PC method employing the PEG-P showed higher emission intensity than those synthesized by a solid state reaction method and the PC method employing H3PO4. The high luminescence properties of the sample synthesized using the PEG-P may be attributed to high homogeneity of constituents in the sample.

Direct synthesis of single-phase α-CaSO4·0.5H2O whiskers from waste nitrate solution

Single-phaseα-CaSO4·0.5H2O whiskers were directly synthesized from waste Ca(NO3)2 solution using a hydrothermal method,and HNO3 was synchronously regenerated.The effects of reaction temperature and Ca^2+concentration on the phase composition and morphology of products were determined by X-ray diffraction and optical microscopy.On the basis of the experimental results,the formation diagram ofα-CaSO4·0.5H2O was plotted within the range of 5–35 g·L^-1 Ca^2+and 115°C–150°C.In addition,the conditions of the direct synthesis ofα-CaSO4·0.5H2O were determined.Well-crystallized,single-phaseα-CaSO4·0.5H2O whiskers with high aspect ratios(length,1785μm;diameter,10.63μm;aspect ratio,168)and HNO3(70.25 g·L^-1)were obtained at the optimal conditions of 25 g·L^-1 Ca^2+and 125°C.

304不锈钢晶间腐蚀敏感性的EPR法和H_2SO_4-CuSO_4-Cu法对比测定

目前,将电化学动电位再活化(EPR)法和传统H2SO4-CuSO4-Cu法结合研究不锈钢晶间腐蚀敏感性的报道较少。用EPR法和H2SO4-CuSO4-Cu法分别测试了不同敏化温度、时间下304不锈钢的晶间腐蚀敏感性。结果表明:EPR法和H2SO4-CuSO4-Cu法都能准确评价304不锈钢的晶间腐蚀倾向,二者结果一致;增加敏化时间和敏化温度都会加大304不锈钢的晶间腐蚀倾向;当敏化度高于19.4%时,304不锈钢易发生晶间腐蚀。

模板法制备多孔Bi_(0.5)La_(0.5)VO_(4)固溶体光催化还原CO_(2)

光催化还原CO_(2)为有价值的化学品为缓解温室效应提供了理想的途径。本工作中,采用纳米球形SiO_(2)模板剂抑制光催化剂颗粒的生长从而合成高比表面积的多孔Bi_(0.5)La_(0.5)VO_(4)(BLV)固溶体光催化材料。得益于纳米SiO_(2)的限域效应,硬模板法制备的固溶体的粒径明显小于固相法制备的体相固溶体。N_(2)吸脱附测试结果显示950℃焙烧下制备的多孔BLV的比表面积为固相法的11.9倍。光催化CO_(2)还原活性评价表明多孔BLV-950固溶体的CO析出速率达0.58μmol·g^(-1)·h^(-1),是体相BLV的3.9倍。这归因于多孔BLV较体相具有更高的载流子分离效率和更低的CO_(2)还原界面阻力。

[C_(2)mim][BF_(4)]离子液体^(1)H NMR性质的理论研究

本研究选择1-甲基-3-乙基咪唑四氟硼酸盐(简称[C_(2)mim][BF_(4)])离子液体为研究对象,计算其^(1)H NMR化学位移。首先,我们构建了含有20对阴阳离子的凝聚相体系,采用分子动力学模拟方法获得其凝聚相的平衡态结构。随后,我们等间距的选择5个平衡态结构,用于构建QM/MM模型,详细考察两种QM/MM模型对离子液体^(1)H NMR性质的影响。选取的两种QM/MM模型中的QM分别是一个阳离子、一对阴阳离子。在QM/MM计算中,QM层采用B97-2/pcseg-2模型,MM层采用UFF点电荷模型。我们发现,QM/MM计算结果比仅采用一个阳离子的计算结果与实验值更加的接近。我们考察了MM背景电荷对计算结果的影响,研究表明,当MM层有背景电荷时,其实验值与计算值的偏差为0.30,当MM无背景电荷时,其实验值与计算值的偏差为0.31,表明MM的背景电荷对计算结果的影响较小。

水热法制备Ni/Zr_(0.4)Ce_(0.6)O_2-Al_2O_3催化剂上CH_4-CO_2重整反应研究:NiO含量的影响

采用水热合成法制备不同NiO含量的Ni Zr0 4 Ce0 6 O2 Al2 O3催化剂 ,使用X射线衍射 (XRD)和H2 的程序升温还原 (H2 TPR)对样品进行表征 ,研究了NiO的含量对催化剂结构和CH4 CO2 重整性能的影响。结构表征表明 ,少量Ni组分能在催化剂表面分散并进入CeO2 ZrO2 固熔体晶格间隙而被固熔体包裹 ,并使固熔体晶粒变小 ,促进了固熔体的低温还原 ,而过量的NiO暴露在外生成NiO颗粒。活性测试结果表明 ,NiO含量少的样品活性随反应进行有较高的增长。选择适当空速 ,能使CH4 CO2 以 1∶1反应。

亚铁法测定HNO_3-H_2C_2O_4混合液中的NO_3^-

对测定TRPO流程H2 C2 O4反萃液中的NO3- 的分析条件进行了研究。在H2 SO4介质中 ,Fe2 +与NO3- 作用 ,定量释放出NO ,并立即同过量Fe2 +反应生成有色的亚硝酰配合物 ,利用这种性质用分光光度法或容量法测定NO3- 浓度。实验结果表明 :在氨磺酸存在下 ,质量比R(NO2 - /NO3- ) =3和R (C2 O42 - /NO3- ) =1 90时 ,对NO3- 的测定无影响。分光光度法测定NO3- 的检测下限为 0 1mg/L ,相对标准偏差为 3% ,重加回收率为 97%～ 1 0 3%。

添加水蒸气对CH_4-CO_2重整催化剂Ni/CeO_2-ZrO_2-Al_2O_3中Ni组分结构影响的EXAFS研究

采用水热合成法制备了Ni/CeO2 -ZrO2 -Al2 O3催化剂。进行了添加和不添加水蒸气的CH4 -CO2 催化重整反应 ,测量了积碳量 ,并用EXAFS手段测试了催化剂Ni的K吸收边。结果表明 ,反应前后最近邻Ni-Ni配位距离无明显变化 ,而配位数却变化明显。无水蒸气反应后Ni-Ni配位数有较大幅度的减少 ;而添加了水蒸气 ,Ni-Ni配位数比反应前减少幅度小。水蒸气的添加能减少积碳量 ,稳定催化剂中Ni的结构 。

Fe(Phen)_3(ClO_4)_2H_2O在甲醇 - 水混合溶剂中的溶解度

在２８３．１５～３１８．１５Ｋ（间隔５Ｋ）下，用光度法测定了离子缔合物Ｆｅ（Ｐｈｅｎ）３（ＣｌＯ４）２Ｈ２Ｏ（简写为ＦＰＣ，以下同）在水及甲醇—水混合溶剂中的溶解度．经微机曲线拟合给出溶解度Ｓ随温度Ｔ及甲醇质量百分比浓度Ｗｔ％的经验关系ｌｇＳ＝１．９５８＋１．３０５×１０－２Ｗｔ％－（１５０３．４＋３．０８５×１０－２Ｗｔ％）／Ｔ．用溶剂结构理论对ＦＰＣ溶解度的变化规律进行讨论．

气相色谱法测定2-甲基-4-氯苯酚反应液中6种组分含量

采用气相色谱法测定2-甲基-4-氯苯酚反应液中6种组分的含量。通过优化色谱条件,样品中6种待测组分经TG 1701MS毛细管柱分离,使用氢火焰离子化检测器(FID)检测,以对甲酚为内标物,采用内标法定量,2-氯-6-甲基苯酚、邻甲酚(原料)、对甲酚(内标)、2,4-二氯-6-甲基苯酚、2-甲基-3-氯苯酚、2-甲基-4-氯苯酚(产物)、2-甲基-5-氯苯酚与相邻色谱峰分离较好,在测定浓度下有良好的线性关.系,线性相关系数r均大于0.999;方法的回收率为97%~105%,相对标准偏差RSD<3%,符合分析方法的要求。该分析方法操作简便、准确度高,可为2-甲基-4-氯苯酚的工艺优化和中控分析提供有效数据。

乙醇热合成3,4-二氢嘧啶-2(1H)-酮的工艺研究

利用氨基磺酸作催化剂,在乙醇热条件下合成了4-苯基-6-甲基-5-乙氧羰基-3,4-二氢嘧啶-2-酮,优化了工艺条件.结果表明:当苯甲醛用量为10 mmol,苯甲醛、乙酰乙酸乙酯、尿素、氨基磺酸投料比为1∶1.2∶1.5∶0.8,无水乙醇为10 mL,温度为80℃时,反应2 h产物收率达93.6%.该工艺是一种简便有效的方法.

Nitric acid pressure leaching of limonitic laterite ores:Regeneration of HNO3 and simultaneous synthesis of fibrous CaSO4·2H2O by-products

An innovative technology,nitric acid pressure leaching of limonitic laterite ores,was proposed by our research team.The HNO3 regeneration is considerable significance for the improvement of the proposed technology and its commercial application,but it has not been systematically investigated.Herein,regenerating HNO3 from Ca(NO3)2 solution with low-cost H2SO4,and simultaneous synthesis of fibrous CaSO4·2H2O by-products were studied.As a theoretical basis,the solubility of CaSO4·2H2O in HNO3 medium is studied.It is concluded that the solubility of CaSO4·2H2O increases with increasing temperature or increasing HNO3 concentration,which has considerable guiding significance for the subsequent experimental research and analysis.Then,the effects of various factors on the residual Ca^2+ concentration of filtrate,the regenerated HNO3 concentration and the morphology of synthesized products are investigated using ICP-AES and SEM.And the effect mechanism is also analyzed.The results indicate the regenerated HNO3 concentration reaches 116 g/L with the residual Ca^2+ concentration being 9.7 g/L at the optimum conditions.Moreover,fibrous CaSO4·2H2O by-products with high aspect ratios(length,406.32μm;diameter,14.71μm;aspect ratio,27.62)can be simultaneously synthesized.

(4″R,5″R)-1,1'-双(2″-4″,5″-二氢-4″,5″-二苯基-1″-H-咪唑基)二茂铁的合成新方法

研究了(4″R,5″R)-1,1'-双(2″-4″,5″-二氢-4″,5″-二苯基-1″-H-咪唑基)二茂铁的合成新方法.以二茂铁为起始原料,通过双甲酰化形成双甲酰二茂铁,再与手性1,2-二苯基乙二胺缩合环化,两步快速有效的合成了目标产物.研究表明该方法安全快速方便,产物易分离纯化,后处理操作简单.

蒸发干燥法制备LiNi_(0.5)Mn_(1.5)O_(4)正极材料

以LiNO_(3)、Ni(NO_(3))_(2)·6H_(2)O和Mn(CH_(3)COO)_(2)·4H_(2)O为原料,采用蒸发干燥法制备锂电池用LiNi_(0.5)Mn_(1.5)O_(4)正极材料。将原料在玛瑙研钵中研磨后置于100℃水浴盆中。待固体物料溶解后,在混合物中加入的无水乙醇和浓度为15.0 mol·L^(-1)的氨水,伴随机械搅拌。将混合物置于120℃的真空干燥室中,干燥2 h(始终在真空氛围中)以获得前驱体。把前驱体放在400℃空气中煅烧4 h,分解硝酸盐和醋酸盐,接着在不同温度的氧气中煅烧6 h,合成LiNi_(0.5)Mn_(1.5)O_(4)材料。将合成的LiNi_(0.5)Mn_(1.5)O_(4)材料放在600℃氧气氛围中退火氧化2 h,再冷却至室温。通过电化学测试得到,在烧结温度800℃,烧结时间6 h的条件下合成的LiNi_(0.5)Mn_(1.5)O_(4)正极材料具有较高的锂插层容量和良好的循环稳定性。

A novel wet-chemical method for preparation of silver flakes

A novel wet-chemical method for the preparation of silver flakes was studied. The well-defined particles were prepared by directly adding FeSO4 solution into AgNO3 solution containing citric acid at an agitation speed of 150 r/min at room temperature. The products were characterized by scanning electron microscopy （SEM） and X-ray diffraction （XRD）. The results show that particles are irregular thin silver flakes. And the sizes of them range from 2 to 10 μm. It is found that citric acid plays an important role in the formation of sliver flakes. There is an optimum amount of citric acid for the preparation of silver flakes by this method. It is also found that high reduction rate is favorable for the formation of silver flakes.