NMR 法研究Na+在二元混合溶剂中的溶剂化

本文测定了NaClO_4在水-丙酮, 水-乙腈,水-乙醇以及NaBPh_4在甲醇-DMF, 甲醇-苯, 甲醇-二氧六圜混合溶剂体系中~(23)Na~+的化学位移随溶剂组成的变化规律。利用等溶剂化点比较了各溶剂对Na~+的溶剂化能力: H_2O>(CH_3)_2CO≥CH_3CN≥C_2H_5OH; DMF>CH_3OH。对于甲醇-DMF和水-丙酮体系, 估算出DMF对甲醇, 丙酮对水的Na~+优先溶剂化自由能分别为-2.7 kJmol~(-1)和+4.6 kJmol~(-1)。在甲醇-苯混合溶剂体系中, ~(23)Na~+的化学位移独立于苯的含量。它支持了甲醇-惰性溶剂混合体系的单一溶剂化模型。而在甲醇-二氧六圜体系中~(23)Na~+的化学位移随混合溶剂组成而发生变化。~(23)Na~+磁共振的峰宽随二氧六圜的加入急剧增加, 这表明二氧六圜分子可能进入了在甲醇中的Na~+原溶剂化层, 导致了Na~+化学环境不对称。     

三元体系Na2SO4-CuSO4-H2O 25 ℃活度系数的研究

用自制的Hg-Hg_2SO_4电极和Na离子选择性电极, 在25 ℃和离子强度分别为1.0和2.0的条件下, 测定了Na_2SO_4在Na_2SO_4和CuSO_4混合水溶液中的平均活度系数。对所使用的电极组的热力学响应、重现性等性能进行了检验。根据文献提供的Pitzer方程, 推导了计算Na_2SO_-CuSO_4-H_2O体系中Na_2SO_4和CuSO_4平均活度系数的表达式, 求出了Pitzer混合参数和Harned方程系数, 计算了CuSO_4在该体系中的平均活度系数。     

水系混合离子全电池LiMn2O4//NaTi2(PO4)3

分别以LiMn_2O_4,NaTi_2(PO_4)_3为正负极,1 mol·L~(-1) Li_2SO_4和0.5 mol·L~(-1) Na_2SO_4的混合水溶液为电解液组装成一种水系混合离子全电池。分别将正负极材料在3种不同水相电解液(1 mol·L~(-1) Li_2SO_4、0.5 mol·L~(-1)Na_2SO_4以及1 mol·L~(-1) Li_2SO_4+0.5 mol·L~(-1)Na_2SO_4混合电解液)中进行循环伏安和恒流充放电测试,结果发现,LiMn_2O_4在上述电解液中仅有Li~+的脱出/嵌入而Na~+由于半径较大而不参与该过程,NaTi_2(PO_4)_3在3种电解液中Li+、Na+均参与嵌入/脱嵌过程,且Li~+和Na~+的嵌入/脱出峰电位相差不大,分别为-0.82和-0.64 V,-0.95和-0.75 V;全电池在265 mA·g~(-1)电流密度下平均放电电压为1.55 V,充放电比容量分别为100.1和74.9 m Ah·g~(-1)。     

NMR法研究Na+在二元混合溶剂中的溶剂化(Ⅱ)

本文测定了NaBPh_4在CH_3OH-CH_3COCH_3, CH_3OH-CH_3CN, DMSO-DMF, DMSO-HCONH_2混合溶剂体系中~(23)Na~+的化学位移随溶剂组成的变化规律。利用Covington模型计算了四个混合溶剂体系中一种溶剂B对另一种溶剂A的优先溶剂化自由能。同时利用等溶剂化点法比较了各种溶剂对Na~+的溶剂化能力。两种方法得出的相对溶剂化能力为: 对甲醇体系二种方法皆为CH_3OH>CH_2-COCH_3>CH_3CN。对DMSO体系, Covington模型: DMSO>HCONH_2>DMF; 等溶剂化点法: DMSO=HCONH_2>DMF 实验结果表明: 在二元混合溶剂体系中一种溶剂对阳离子的溶剂化能力的大小除了与其本身的特性有关外, 还与共同构成二元系的另一种溶剂的性质有关。     

添加Na4P2O7对CaO催化剂上甲烷氧化偶联反应的影响

用Na_4P_2O_7做为Na+添加剂制备Na_4P_2O_7/CaO催化剂。在5.5×10~(_2)的Na_4P_2O_7/CaO上及760℃,w/F=0.0.9g·s·mL~(-1)条件下可以获得23.4×10~(-2)的CH_4转化率和66.8×10~(-2)的C_2烃选择率。催化剂表面Na~+的富集有利于表面活性中心的形成。催化剂表面存在CO_2的碳酸化与脱碳酸化平衡。表面Na~+的流失会引起催化剂活性的下降。     

从钙热还原氟化稀土渣中提取稀土热力学分析

在已有较优直接酸浸和碱处理(碱煮、焙烧)-酸浸工艺条件下,对钙热还原稀土渣(简称稀土渣)进行酸浸热力学理论分析,应用X射线多晶衍射仪(XRD)分析碱处理过程物相变化,应用扫描电镜型附带的能谱仪(SEM+EDS)对碱煮的样品进行线性扫描和元素分析。热力学理论计算和实验结果均表明:碱煮条件下,氟化稀土能转化为氢氧化稀土;碱性添加剂焙烧条件下,氟化稀土能转化为氧化稀土,但NaOH,Na_2CO_3焙烧-酸浸工艺稀土却不能完全浸出,原因是酸浸过程CaF_2对稀土浸出影响大。此外,碱煮-酸浸的稀土提取率低,原因是碱煮时新生成的氢氧化稀土"包裹"了氟化稀土,阻碍了氟化稀土进一步碱转。在与添加Na_2SiO_3焙烧方面,Na_2SiO_3焙烧处理能削减CaF_2对稀土浸出的影响,使稀土接近完全浸出,因为酸浸Na_2SiO_3焙烧产物将生成偏硅酸和SiF~(6-)络合物,[SiF_6]~(2-)络合物的生成结合了CaF_2中大量的F-,同时抑制了稀土离子对CaF_2的解离作用,促进了稀土的浸出。此时,溶液中CaF_2固体与Ca~(2+),[SiF_6]~(2-)和稀土离子共存达到新的平衡。     

NASICON型Na4FeV(PO4)3的合成、晶体结构和电化学性能

采用高温熔盐法制备了NASICON型Na_4Fe V(PO_4)_3单晶。单晶X射线衍射数据分析表明,Na_4Fe V(PO_4)_3属于六方R3c空间群,单胞参数为a=b=0.878 17(4) nm,c=2.170 1(2) nm,Z=6,V=1.449 31(18) nm~3。该磷酸盐属于典型的NASICON结构,由PO_4四面体和Fe/VO_6八面体共顶点组成三维框架结构,提供多维的Na~+传输通道,2种不同类型Na~+位于框架的间隙。以Na_4Fe V(PO_4)_3/C粉末样品作为钠电池正极材料并以金属钠为对电极制备电池时,电化学测试结果表明其具有较高的容量。     

金属的溶剂萃取热力学研究 2:In~2(SO~4)~3+Na~2SO~4+D~2EHMTPA+n-C~8H~18+H~2O体系

在温度278.15-303.15K和离子强度=为0.1-2.0mol/kg范围内,在萃取体系In~2(SO~4)~3+Na~2SO~4+D~2EHMTPA+n-C~8H~18+H~2O体系中,本文测定了萃取平衡的In^3+的平衡浓度和水相pH值,其中Na~2SO~4为支持电解质.根据Pitzer电解质溶液理论,估算了平衡水相中的真实离子强度值,并用直线外推法和多项式拟合法确定了萃取过程的热力学平衡常数K^ ,进而计算了这个萃取过程的各个热力学量.     

Na-β氧化铝/NaOH水溶液界面电势的测定

测定了Na-β氧化铝管在NaOH、NaOH-KOH、NaOH-(CH_3)_4NOH以及NaOH-NaCl四种溶液的浓差电池体系中的电动势, 求得Na-β氧化铝与NaOH水溶液之间的界面电势Δφ。结果表明: 在NaOH、NaOH-NaCl水溶液中, Δφ与loga_2(Na~+)/a_1(Na~+)之间的关系服从Nernst公式; K~+离子的存在影响Δφ值, 而OH~-、(CH_3)_4N~+贴无影响。探讨了用β氧化铝在高浓碱性Na~+水溶液中做Na~+离子选择性电极的可能性。     

超离子导体CaF2中的Ca2+亚晶格和F-亚晶格

CaF_2在熔化以前为超离子导体相。一些实验和理论的研究表明,在超离子导体相中,Ca~(2+)仍维持原有的面心立方骨架,而F~-则在Ca~(2+)骨架中运动。早期的分子动力学模拟结果表明Ca~(2+)的均方根位移仅约0.3A,而F~-的扩散系数可达2.6×10~(-5)cm·s~(-1),已是熔盐扩散系数量级。近年来的中子散射实验表明在扩散离子和近邻离子间存在着某种动力学相关。为解释这些事实,新近Gillan的分子动力学模拟表明扩散离子伴随着F~-亚晶格变形,而Kaneko和Ueda的分子动力学模拟则表明扩散离子伴随着近邻离子在同一运动方向的相关运动。进一步的研究尚待进行。八十年代初,Nelson等人提出了描述晶体、非晶和液态中键取向的键球谐函数方法。     

桑葚状CaF_2纳米材料的合成及CaF_2:Yb~(3+)的光学性质

通过一步水热法合成了分散性良好、尺寸均一的桑葚状CaF2纳米材料.采用X射线粉末衍射(XRD)、场发射扫描电子显微镜(FESEM)和透射电子显微镜(TEM)对产物的结构、形貌及尺寸进行了表征,发现CaF2纳米材料是由尺寸约为50 nm的纳米粒子构成.通过对不同反应阶段产物的分析提出了其形成机理.研究了Yb3+掺杂CaF2纳米材料的近红外发光性质.     

Structure and Thermodynamics of NaF-AlF(3) Melts with Addition of CaF(2) and MgF(2)

The NaF-AlF(3) system with additions of CaF(2) and MgF(2) has been studied with Raman and vapor pressure measurements for 3 >/= CR (NaF/AlF(3) molar ratio) >/= 1 and up to 50 mol % additive. The results show that the binary melt can be described using the two equilibria AlF(6)(3)(-) = AlF(6)(2)(-) + F(-) and AlF(5)(2)(-) = AlF(4)(-) + F(-) with equilibrium constants 0.25 and 0.05, respectively, at 1293 K. Both reactions have positive reaction enthalpies. The first equilibrium is strongly shifted to the right resulting in a melt mixture with very low AlF(6)(3)(-) concentrations even at the Na(3)AlF(6) composition. Evidence for nonideal mixing of anions was found. For the ternaries, models based on Raman data are presented and compared with vapor pressure measurements. Good agreement is observed when association between the additives, CaF(2) or MgF(2), with the AlF(5)(2)(-) ions in the melt was considered. This association could be experimentally observed through a band broadening and a slight shift in the AlF(5)(2)(-) band frequency. Our vapor pressures and Raman data both indicate that MgF(2) clearly acts as an acid when added to NaF-AlF(3) melts of any composition. When CaF(2) is added, a slight decrease of vapor pressure occurs. Raman data indicate a decrease of AlF(4)(-) concentration, corresponding to a dissociation of CaF(2) with liberation of F(-) ions. All these results are, however, very much dependent on the initial melt composition. These data are explained in terms of acid-base, dilution, and association reactions of the solute with the solvent.     

Li_(1.3)Ti_(1.7)Al_(0.3)(PO_4)_3,Na_(1.3)Ti_(1.7)Al_(0.3)(PO_4)_3的离子交换研究

研究了在不同温度下的NaNO3和AgNO3水溶液中Li1.3Ti1.7Al0.3(PO4)3和Na1.3Ti1.7Al0.3(PO4)3离子交换行为.实验表明Li1.3Ti1.7Al0.3(PO4)3和Na1.3Ti1.7Al0.3(PO4)3均显示出了高选择性与Na+和Ag+进行离子交换的特征,且对Ag+的选择性高于Na+.升高温度可显著提高Ag/Li和Ag/Na的交换反应速度.     

苯并15-冠-5与Na_2[M(SCN)_4](M=Pd,Pt)配合物的合成与结构

合成了苯并15-冠-5与Na_2[M(SCN)_4] (M = Pd, Pt)生成的配合物：[Na(B15- C-5)]_2[Pd(SCN)_4] (1), {[Na(B15-C-5)][Na(B15-C-5)(H_2O)]}[Pt(SCN)_4] (2)。1为单斜晶系，空间群P2_1/n，a = 1.0164(6) nm，b = 1.3743(3) nm，c = 1.4987(7) nm，β = 95.248(6)°，V = 2.0847 nm~3，Z = 2，D_(calcd) = 1. 47 g/cm~3，F(000) = 944，R = 0.053，wR = 0.072。2为三斜晶系，空间群P(1- bar)，a = 1.1484(2) nm，b = 1.4210(3) nm，c = 1.5026(3) nm，α = 62.500 (3)°，β = 72.393(3)°，γ = 73.106(4)°，V = 2.0398(7) nm~3，Z = 2， D_(calcd) = 1.674 g/cm~3，F(000) = 1028，R_1 = 0.0327，wR_2 = 0.0885。1 由两个[Na(B15-C-5)]~+配阳离子和一个[Pd(SCN)_4]~(2-)配阴离子组成，两者通 过Na-N键形成中性配合物，[Na(B15-C-5)]~+A相对钯原子呈反式排列。2由[Na (B15-C-5)]~+和[Na(B15-C-5)(H_2O)]~+配阳离子和一个[Pt(SCN)_4]~(2-)配阴离 子组成，它们也通过Na-N键形成中性配合物，配阳离子相对铂原子呈顺式排列。2 的两个分子通过氢键形成二聚结构。     

Nonlinear chemical reaction between Na_2S_2O_3 and Peroxide compound

Kinetics of reaction between Na2S2O3 and peroxide compound ( H2O2 or Na2S2O8) in a batch reactor and in a continuous stirring tank reactor (CSTR) were studied.Steady oscillations in uncatalyzed reactions in a CSTR were first discovered.In Na2S2O3-H2O2-H2SO4 reaction system,Pt potential and pH of higher and lower flow rutes beyond oscillation flow rates were in around the same extreme values.The reaction catalyeed by Cu2+ corsist of the catalyzed oscillation process and the uncatalyzed osciliation one.On the basis of experiment,a reaction mechanism consisting of three stages was put forward.The three stages are H positive-feedback reactions,proton negative-feedba k (uncatalyzed negative-feedback and catalyzed negative-feedback) reactions and transitional reactions.The mechanism is able to explain reasonably the nonlinear chemical phenomena appearing in the thiosulfatc oxidation reaction by peroxide-compounds.     

用激光诱导荧光方法研究Ca+NF3, CHF3反应的初始产物能态分布

本文使用LIF方法在气-束装置上研究了Ca+NF_3——CaF+F_2N 和Ca+CHF_3——CaF+CHF_2二个反应的初始产物能态分布。通过测得的CaF分子的LIF激发光谱和计算机模拟计算, 发现二个反应的CaF振动分布属于类Boltzmann型, 并取得其内能分配的信息。通过光谱模拟和信息论计算, 还获知NF_2和CHF_2自由基的内能态是激发的。根据分析, 本文认为这二个反应是具有后期释能特征的直接碰撞反应。     

Visible to ultraviolet up-conversion in a novel rare earth-free up-converting phosphor

A novel up-converting phosphor,Na_xAl_yF_x+3y/CaF2（0.3 < x < 0.5,0 < y < 0.1） composite,is prepared by a hydrothermal process at 180°C and an annealing treatment at 500℃.X-ray diffraction（XRD） pattern indicates that Na_xAl_yF_x+3y/CaF₂ is a composite consisting of NaF,Na₃ AlF₆,and CaF₂.The up-conversion luminescence properties of this phosphor are investigated by fluorescence spectrometer.Results show that Na_xAl_yF_x+3y/CaF₂ exhibits visible-to-ultraviolet up-conversion luminescence properties.The emission peaks at 316 and 336 nm are observed when excited by 610 nm,the luminescence lifetime of the emissions is great than 18 ms,and the internal fluorescence quantum yield is 4.2%.Additionally,the luminescent mechanism of this phosphor is also mentioned.     

SYNTHESIS, STRUCTURE AND PROPERTIES OF Na_3[V_2O_3(nta)_2]·5H_2O

<正> Compound Na3 [V2O3 (nta )2 ]·5H2O (1) (ntaH3 = N (CH2CO2H)3) has been prepared by reduction of a mixture of (NH4)2[VO(O2)2Cl] and H3(nta) in H2O with Na2S2O4. The compound crystallizes in the triclinic system, space group P1 with Mr = 685. 2, a = 11. 050(6), b=12. 179(4), c=9. 792 (3)A,α=111.71(2),β= 98. 23(3), γ= 89. 36(2)°, Z=2, V = 1210. 5A3,λ(MoKa) = 0. 71069 A, F(000) = 694 and DC = 1. 880g/cm3. The structure was solved by direct methods and refined by full-matrix least squares to final R and Rw values of 0. 055 and 0. 065, respectively.The structure of the anion can be considered as two [VO(nta)] fragments connected by one μ2-O atom. Each vanadium atom in the fragment is coordinated by one vanadyl oxygen atom, one bridging-oxygen atom, three oxygen atoms and one nitrogen atom from (nta) ligand in a distorted octahedral geometry. In this paper, we have studied the conversion of compound 1 to mononuclear compound Na2[VO(O2) (nta)]·5H2O (2) by oxidation with hydrogen peroxide, as well as thei     

CaF_2微晶玻璃的一步法制备及Eu~(3+)离子探针特性

以组成为n(SiO_2)∶n(Al2O3)∶n(CaO)∶n(CaF_2)∶n(NaF)∶n(B_2O_3)=40∶20∶10∶10∶15∶5的微晶发光玻璃为基质,采用一步析晶法制备了CaF_2析晶相.利用X射线衍射仪(XRD)、扫描电子显微镜(SEM)、X射线能量散射谱仪(EDS)和荧光分光光度计等对样品结构、组成及光谱性能进行分析,探讨了Eu3+掺杂浓度和析晶温度对微晶玻璃发光性能的影响.实验结果表明,在850℃下处理可获得分布均匀、粒径尺寸为200 nm的CaF_2析晶相,微晶玻璃的发光强度是基质玻璃的1.7倍.微晶玻璃的发射光谱在590,614,652和700 nm出现发射峰,分别对应Eu3+的5D0-7FJ(J=1,2,3,4)跃迁.通过对5D0-7F1和5D0-7F2跃迁强度的分析以及Judd-Ofelt理论参数Ω2值的计算可知Eu3+周围晶体场在析晶前后对称性发生变化.机理分析表明,析晶处理后Eu3+从高声子能量的Si-O环境进入低声子能量的Ca-F环境中,说明Eu3+可作为荧光探针研究微晶玻璃晶体结构的变化.     

［Vmo_3O_4（O_2CEt）_8］_2Na_2的合成与结构

［ＶＭｏ３Ｏ４（Ｏ２ＣＥｔ）８］２Ｎａ２（１），三斜晶系，Ｐ１空间群，ａ＝１２．９７７（７），ｂ＝１４．０７０（６），ｃ＝１２．３３８（８），α＝１０９．８１（４），β＝１１７．２０（４），γ＝９０．５１（５）°，Ｖ＝１８４８．８３，Ｍｒ＝２０２０．６，Ｄｃ＝１．８１ｇ／ｃｍ３，Ｚ＝１，Ｆ（０００），μ＝１２．９ｃｍ１（ＭｏＫα）对３７４２个可观测反射点（Ｉ＞３σ（Ｉ））最终一致性因子为Ｒ＝０．０１８，Ｒω＝０．０５４。单晶结构分析表明，簇阴离子中两个［Ｍｏ３Ｏ４］４＋单元通过两个＂桥＂金属Ｖ原子连接成一个奇特的环状结构，Ｍｏ－Ｍｏ平均键长为２．５１９（１），Ｍｏ…Ｖ间平均距离为３．６５４。簇阴离子通过Ｎａ＋连成一个一维长链，Ｎａ原子与氧原子形成一个少见的五配位三角双锥结构，Ｎａ－Ｏ距离仅为２．３１２，Ｎａ－Ｏ间较强的相互作用以及无限长链的晶体结构很好地解释了簇合物（１）的稳定性和不溶性。