[Ni（PMBPTSC）（H2PMBPTSC）]·C2H5OH·2H2O的合成、结构和非等温热分解动力学

报道了标题配合物[Ni(PMBPTSC)(H2PMBPTSC)]@C2H5OH@2H2O的制备,晶体结构及非等温热分解动力学,该晶体属单斜晶系,空间群Pn,a＝1.0376(3)nm,b＝1.1522(3)nm,c＝1.7591(3)nm;β＝90.75(2)°;V＝2.1028(8)nm3;Z＝2,Dc＝1.3g/cm3;μ＝0.614 mm-1;F(000)＝880.根据TG-DTG曲线,运用Achar法与Coats-Redfer法对配合物第一步热分解反应进行了非等温热分解动力学研究,其机理为三维扩散机理,动力学方程为da/dt=Ae-E/RT3/2(1-α)2/3[1-(1-α)1/3]-1,动力学补偿效应表达式为InA＝0.307915 E-1.20469.

新型含能配合物CuATZ·2H2O的合成

合成了一种新的含铜高能配合物,通过化学分析确定其组成为CuATZ.2H2O(ATZ2-=5,5′-偶氮四唑离子)。测定了配合物的溶解性,研究了配合物的生成反应过程。在实验和计算基础上,得到了298.15 K下液相生成反应的焓变ΔrHmθ(l)为(-39.182±0.097)kJ/mol。改变液相反应的温度,研究了液相生成反应的热动力学。在所研究的温度范围内,反应的表观活化能E值(24.8805 kJ/mol)比较低,说明该高能配合物具有普通条件下合成的可能性及可行性,但室温下配合物毫克级用量对研磨非常敏感,热至60℃左右对摩擦、静电非常敏感,发生爆炸的危险性很大。归因于其对热、摩擦等的敏感性,不满足固体推进剂燃烧催化剂的特征。

SiO2包覆CaCl2·2H2O相变纳米复合材料的制备及表征

结晶水合物盐是一类无机相变储能材料,其存在相分离、过冷等现象,无法获得实际应用。通过溶胶-凝胶法制备SiO2包覆CaCl2·2H2O相变纳米复合材料,并通过XRD、EDS、SEM和TEM对样品进行表征。DSC和STA分析结果表明,样品具有良好的储热性能和热稳定性。样品的相变温度为75.8℃,相变焓为52.89 J/g。热循环实验表明其具有良好的热循环性能。水合盐的相分离、过冷现象得到了有效抑制和减轻,这是由于介孔限域效应的作用结果。

钠离子电池正极材料VOPO4·2H2O纳米片的合成与电化学性能

VOPO4·2H2O具有二维层状结构,有利于钠离子的存储及快速迁移,适合用作钠离子电池正极材料。本文利用水热法成功制备出了VOPO4·2H2O纳米片(厚度约10 nm)正极材料。借助材料表征手段、电化学分析技术等对VOPO4·2H2O纳米片正极材料的微观形貌和电化学性能进行了系统研究。结果表明,VOPO4·2H2O纳米片显微结构均匀,用作钠离子电池正极材料时,表现出较高的可逆比容量和优异的倍率性能及循环稳定性。0.05 C时,平均工作电压可达3.5 V,可逆比容量为130 mA·h/g;在5 C高倍率下,可逆比容量可达70 mA·h/g,循环400圈后,容量保持率为77%。VOPO4·2H2O的纳米片状结构可以有效促进钠离子的快速嵌入和脱出,使其具有较快的电化学反应动力学特性,从而表现出优异的储钠性能。

CaCO3和CaSO4·2H2O共同作用下Ca2+对C3A水化浆体固化氯离子性能的影响

采用平衡法研究了CaCO 3和CaSO 4·2H 2 O共同存在时Ca 2+对C3A水化浆体氯离子固化能力、生成产物和氯盐溶液pH值的影响.结果表明:C3A水化浆体固化氯离子后生成含氯铝酸盐并释放OH-,提高了氯盐溶液的pH值;CaCO 3和CaSO 4·2H 2 O分别作用时均会降低C3A水化浆体的氯离子固化能力和氯盐溶液pH值的提高程度,CaCO 3和CaSO 4·2H 2 O共同作用时则会显著降低C3A水化浆体的氯离子固化能力;C3A水化浆体中含氯铝酸盐生成量和氯离子固化能力随氯盐溶液pH值的降低而减小,而Ca 2+会降低氯盐溶液pH值的提高程度,但能提高C3A水化浆体的氯离子固化能力,CaCO 3或CaSO 4·2H 2 O单独存在时都能使Ca 2+提高氯离子固化能力的效果更为显著,且CaCO 3比CaSO 4·2H 2 O的作用更加明显,但CaCO 3和CaSO 4·2H 2 O共同存在时会出现负协同作用;在CaCO 3和CaSO 4·2H 2 O共同作用下,Ca 2+促进各水化产物与氯离子反应生成含氯铝酸盐的效果由小到大为:AFt<C3AH 6<AFm<碳铝酸钙水化物,同时改变了所生成含氯铝酸盐(固溶体)的物相结构.

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.

由盐酸法浸出磷矿的氯化钙溶液制备CaSO4·2H2O晶须

建立了以盐酸法磷酸产生的氯化钙溶液为原料,在常压、较低温条件下(T<90℃)制备硫酸钙(CaSO4·2H2O)晶须的方法。考察了不同晶形控制剂对所制备CaSO4·2H2O晶须的形貌和长径比的影响,并利用扫描电镜和X射线衍射对样品做了分析和表征。筛选并确定了十二烷基三甲基溴化铵(DTAB)为较适宜的晶形控制剂,通过对DTAB用量、反应温度、Ca^2+浓度等条件的优化,确定最佳的工艺条件:DTAB用量为3%(质量分数)、反应温度为90℃、Ca^2+浓度为0.1 mol/L、反应时间为25 min、钙硫比(钙离子与硫酸的物质的量比)为1∶1.1。此条件下,所制备的CaSO4·2H2O晶须长径比可达130,晶须沿平行于(040)晶面的法线方向优先生长,样品的(020)、(040)晶面衍射峰的相对强度明显增强,并依据螺旋生长定理对晶形控制剂作用机制做了初步探讨。

AgBr/Zn3（OH）2V2O7·2H2O可见光催化降解亚甲基蓝溶液

采用水热和沉淀两步合成法制备AgBr/Zn3(OH)2V2O7·2H2O催化剂,研究其在可见光下降解亚甲基蓝溶液的性能,并考察催化剂用量、亚甲基蓝溶液初始浓度、pH值以及盐浓度对光催化性能的影响,评价AgBr/Zn3(OH)2V2O7·2H2O催化剂的重复使用性能。结果表明,在前驱液pH为10、120℃水热10h、Ag与Br物质的量比为0.20条件下制备的复合催化剂在可见光下反应120min后,1.0g·L^-1的催化剂对10mg·L^-1的亚甲基蓝溶液脱色率达到85.2%。NaCl对亚甲基蓝的降解起抑制作用,Na2SO4对亚甲基蓝的降解起促进作用。催化剂重复使用4次后,光照120min后的亚甲基蓝溶液脱色率可达66.4%。催化剂对不同初始浓度亚甲基蓝溶液的光催化降解符合一级动力学模型。

氧化沉淀-陈化晶化法制备NH4Fe2(PO4)2(OH)·2H2O及LiFePO4

以H3PO4、FeSO4·7H2O、NH3·H2O、H2O2为原料,在pH=5.0时,采用连续的氧化沉淀法制得类球形非晶态的NH4Fe2(PO4)2(OH)·2H2O。将NH4Fe2(PO4)2(OH)·2H2O与一定浓度的H3PO4溶液混合,在90℃陈化2 h,制得结晶完好具有微纳米结构的NH4Fe2(PO4)2(OH)·2H2O前驱体。由该NH4Fe2(PO4)2(OH)·2H2O制得的LiFePO4正极材料具有较好的性能。0.2 C时首次充放电比容量分别为162.9和152.8 mAh/g,首次库仑效率为93.8%;1 C和5 C时可逆放电比容量分别大于120和70 mAh/g;具有较好的倍率性能和循环性能。用X射线衍射(XRD)和扫描电镜(SEM)等对NH4Fe2-(PO4)2(OH)·2H2O和LiFePO4的结构和形貌进行表征。氧化沉淀的pH值对前驱体的成份、结构具有重要影响。

稻壳灰负载FeCl2·2H2O:一个温和高效的多相催化剂用于Friedlnder杂成环反应合成多取代喹啉(英文)

Rice husk ash was used as a new, green, and cheap adsorbent for FeCl3. Characterization of the obtained reagent showed that rice husk ash supported FeCl2·2H2O was formed. This reagent is efficient at catalyzing the synthesis of multisubstituted quinolines by the Friedl鋘der heteroannulation of o‐aminoaryl ketones with ketones or β‐diketones under mild reaction conditions. This methodology allows for the synthesis of a broad range of substituted quinolines in high yields and with excellent regioselectivity in the absence of a solvent.

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.

王水法制备CuCl2·2H2O

讨论了以金属铜为原料植被CuCl2·2H2O的方法，王水法具有工艺简单、操作方便、产品纯度高等优点，实验室和工业生产均可采用。

黄鳝AK1基因序列特征及在性腺中的表达模式分析

【目的】探究腺苷酸激酶1(adenylate kinase 1, AK1)序列特征及其在黄鳝性腺发育过程中的功能。【方法】克隆黄鳝AK1基因序列,对其进行生物信息学分析;采用实时荧光定量PCR(qRT-PCR)技术检测AK1在黄鳝各组织、不同发育时期性腺以及H2O2孵育后卵巢中的表达情况,并利用免疫组化技术定位AK1在黄鳝性腺中的表达位置。【结果】黄鳝AK1编码区序列为630 bp,编码209个氨基酸残基,具有AK家族保守的NMP和LID结构域,与其他鲤科鱼类的同源基因具有较高的序列相似性;黄鳝AK1在垂体、眼睛、心、肝、肾、肠、脾、肌肉、血液、卵巢和精巢中均有表达,在肌肉组织中的表达量最高,在血液中表达量最低。AK1在卵巢发育周期的卵黄生成早期性腺和性逆转周期的间性晚期性腺表达量最高,而在卵黄生成中晚期性腺和间性早期性腺表达最低。H2O2孵育后各浓度组AK活性的表达均呈现先下降后上升的趋势(P<0.05),浓度越高变化的趋势越明显(P<0.05);而AK1的表达均受到抑制。AK1主要定位于卵黄生成早期性腺的颗粒细胞中。【结论】AK1参与了黄鳝性腺的发育,这为揭示黄鳝性腺发育过程中的能量代谢等生物学过程奠定了一定的基础。

有机-有机界面效应的原位及非原位研究

有机-有机异质结构已被广泛应用于各种有机电子器件,包括有机发光二极管(OLEDs)、有机场效应晶体管(OFETs)和有机太阳能电池等。全面理解有机-有机异质结构的界面效应,对于器件的设计和性能优化具有重要意义。然而由于有机半导体具有多样的化学特性以及分子间较弱的范德华力,界面电荷传输特性与有机-有机电子结构、环境气氛等密切相关。在此,我们报道了随着顶层半导体并五苯(pentacene)的沉积,并五苯/酞菁氧钒(VOPc)异质结构的原位实时电学性能监测。结果显示,异质结构晶体管的p型迁移率从0.4 cm2∙V−1∙s^(−1)下降至0.2 cm2∙V−1∙s^(−1),而n型迁移率从0.01 cm2∙V−1∙s^(−1)迅速增加至约0.9 cm2∙V−1∙s^(−1)。这种n型输运行为的增强归因于pentacene向VOPc的界面电子转移效应以及由此导致的VOPc层中陷阱态的填充。此外,非原位实验对比表明,当晶体管制备过程暴露于大气时会明显抑制这种界面电荷转移效应,导致沉积pentacene后n型输运几乎没有得到改善。薄膜形态、开尔文探针力显微镜(KPFM)和X射线光电子能谱(XPS)的结果表明,界面处存在从pentacene到VOPc的电子转移。进一步的密度泛函理论(DFT)计算表明,由于pentacene/VOPc之间较强的相互作用,pentacene往VOPc的电荷转移量约为0.15 e。此外,O_(2)/H2O的存在会抑制这种界面电荷转移效应,这与我们的实验结果一致。本研究通过原位电学表征对有机-有机界面之间的电荷转移效应给出了深入解释,有利于进一步的器件性能优化及界面效应分析。

NR/DAPI共染色-荧光计数法测定自来水中的微塑料

为解决现有NR/DAPI共染色-荧光计数法对水样中微塑料(MPs)的高估问题,对水样及实验器具的处理方法进行了优化研究。优化试验结果表明,在500℃条件下对玻璃器皿、滤膜灼烧1 h,可显著减少由实验器具带入样品中的MPs;对自来水样品采用30%H_(2)O_(2)在V_(H_(2)O_(2))∶VH_(2)O=1∶5条件下消解24 h,可消除水样中有机物引起的结果高估。采用改进的NR/DAPI共染色-荧光计数法对合肥市不同区域自来水样品测定结果表明,样品中MPs的平均浓度范围为350~1250个/L,占比最大的MPs种类为聚乙烯(PE,占比为40%~60%),尺寸小于10μm的MPs占比较高(36%~71%)。自来水样品中的MPs具有显著的时间分布特征,在夜间用水低谷时段供水管网中自来水流速低,小颗粒MPs发生沉降聚集,导致早晨龙头初放水中MPs浓度显著高于其他时段。

Kinetics of Thermal Decomposition of Zn1-xMnxC2O4·2H2O in Air

Thermal decomposition processes taking place in solid state complex of Zn1-xMnxC2O4·2H2O have been investigated in air using TG-DTG/DTA, XRD and TEM techniques. TG-DTG/DTA curves showed that the decomposition proceeded through two well-defined steps with DTA peaks closely to correspond to the weight loss. XRD and TEM showed that the final decomposition product of Zn1-xMnxC2O4·2H2O was Zn1-xMnxO and most of the individual particles were of size 10-13 nm. Kinetics analysis of Zn1-xMnxC2O4·2H2O decomposition steps was performed under nonisothermai conditions, the activation energies were estimated by Friedman and Flynn-Wall-Ozawa （FWO） methods, and the most probable kinetic model has been estimated with multiple linear regression method. The activation energies for the two decomposition steps of Zn1-xMnxC2O4·2H2O were 155.7513 and 215.9397 kJ/mol, respectively.

VO2·0.2H2O nanocuboids anchored onto graphene sheets as the cathode material for ultrahigh capacity aqueous zinc ion batteries

Aqueous Zinc-ion batteries(ZIBs),using zinc negative electrode and aqueous electrolyte,have attracted great attention in energy storage field due to the reliable safety and low-cost.A composite material comprised of VO2·0.2H2O nanocuboids anchored on graphene sheets(VOG)is synthesized through a facile and efficient microwave-assisted solvothermal strategy and is used as aqueous ZIBs cathode material.Owing to the synergistic effects between the high conductivity of graphene sheets and the desirable structural features of VO2·0.2H2O nanocuboids,the VOG electrode has excellent electronic and ionic transport ability,resulting in superior Zn ions storage performance.The Zn/VOG system delivers ultrahigh specific capacity of 423 mAh·g^−1 at 0.25 A·g^−1 and exhibits good cycling stability of up to 1,000 cycles at 8 A·g^−1 with 87%capacity retention.Systematical structural and elemental characterizations confirm that the interlayer space of VO2·0.2H2O nanocuboids can adapt to the reversible Zn ions insertion/extraction.The as-prepared VOG composite is a promising cathode material with remarkable electrochemical performance for low-cost and safe aqueous rechargeable ZIBs.

Low-Temperature Heat Capacities and Thermodynamic Properties of Hydrated Nickel L-Threonate Ni（C4H7O5）2·2H2O（S）

Low-temperature heat capacities of the compound Ni（C4H7O5）2·2H2O（S） have been measured with an auto- mated adiabatic calorimeter. A thermal decomposition or dehydration occurred in 350--369 K. The temperature, the enthalpy and entropy of the dehydration were determined to be （368.141 ±0.095） K, （18.809±0.088） kJ·mol ^-1 and （51.093±0.239） J·K^-1·mol^-1 respertively. The experimental values of the molar heat capacities in the temperature regions of 78-350 and 368-390 K were fitted to two polynomial equations of heat capacities （Cp,m） with the reduced temperatures （X）, [X=f（T）], by a least squares method, respectively. The smoothed molar heat capacities and thermodynamic functions of the compound were calculated on the basis of the fitted polynomials. The smoothed values of the molar heat capacities and fundamental thermodynamic functions of the sample relative to the standard reference temperature 298.15 K were tabulated with an interval of 5 K.

低温SCR脱硝催化剂的研究现状与挑战

综述了贵金属、分子筛、碳基和金属氧化物SCR催化剂的研究进展,全面阐述了影响低温催化剂活性的因素,包括前驱体引入方法、制备条件、载体预处理和催化剂结构,分析了SO_(2)和/或H_(2)O导致低温SCR催化剂中毒/失活的机理及缓解方式,总结了提高SCR催化剂抗毒化能力的方法并指出了未来研究的发展方向。

弱碱性过氧化氢漂白对杨木CTMP中碳水化合物和木质素的影响

本研究探讨了杨木CTMP碱性过氧化氢漂白中,MgO取代NaOH比例和漂白时间对杨木CTMP中碳水化合物和木质素含量及纸浆性能的影响。结果表明,在漂白初期,杨木CTMP中的碳水化合物和木质素溶出较快,漂白后期溶出的速率较缓慢。随MgO取代NaOH比例的增加,杨木CTMP的漂白得率显著提高,漂白浆中的碳水化合物和木质素含量明显增加。与对照样(以NaOH为碱源)相比,漂白时间90 min,MgO取代NaOH比例为75%时,漂白浆中的综纤维素和木质素含量分别达67.60%和23.09%;浆张的松厚度从2.09 cm^(3)/g上升到2.21 cm^(3)/g,增加了5.74%;白度略微下降;浆张的抗张指数和撕裂指数分别下降了14.16%和14.32%,达40.6 N·m/g和3.47 mN·m2/g。