C6H10S2O联合Nano-CaCO3对铅染毒小鼠海马学习记忆功能的影响

评价 C6H10S2O联合Nano-CaCO3对铅染毒小鼠的海马学习记忆功能产生的影响,以指导铅染毒相关问题的处理。方法 选择齐齐哈尔医学院动物实验中心提供的20-30g 健康雌性 KM 小鼠,健康清洁级,分为正常对照组、模型对照组、C6H10S2O 组、Nano-CaCO3组、联合治疗组,其中后四组均为铅染毒模型。五组的饲养条件相同,方法 /剂量建立铅染毒模型,提供对应治疗方法,通过评估体质量与血液中铅元素含量、NO含量和ACHE活力、水迷宫、新物体识别测量的结果,判断治疗效果。结果 与空白对照组比较,模型对照组的体质量显著降低(P<0.05),血铅含量显著增加(P<0.05);与模型对照组比较,C6H10S2O组和联合治疗组小鼠的体质量显著提高(P<0.05),而血铅含量仅在联合治疗组显著减少(P<0.05);其他三组的体质量和血铅含量均无统计学差异(P>0.05)。与模型对照组比较,联合治疗组的跨越隐匿平台次数和平台象限游泳路程显著增加(P<0.05);与Nano-CaCO3组比较,联合治疗组的跨越隐匿平台次数和平台象限游泳路程也显著增加(P<0.05)。五组在NO含量和ACHE活力、认知指数方面的对比,差异均不存在统计学意义(P>0.05)。结论 C6H10S2O联合Nano-CaCO3可以减少铅含量,提高体质量,对空间学习能力有一定影响,但对认知能力、学习记忆能力不存在显著影响。

配合物Zn(Phe)(NO_3)_2·H_2O(s)的低温热容和标准摩尔生成焓

利用精密自动绝热热量计直接测定了配合物Zn(Phe)(NO_3)_2·H_2O(s)(Phe:苯丙氨酸)在78-370 K温区的摩尔热容.通过热容曲线的解析得到该配合物的起始脱水温度为,T_0=(324.27±0.37)K.将该温区的摩尔热容实验值用最小二乘法拟合得到摩尔热容(C_(p,m))对温度(T)的多项式方程,并且在此基础上计算出了它的舒平热容值和各种热力学函数值.依据Hess定律,通过设计热化学循环,选择体积为100 mL浓度为2 mol·L^(-1)的盐酸作为量热溶剂,利用等温环境溶解-反应热量计分别测定混合物{ZnSO_4·7H_2O(s)+2NaNO_3(s)+L-Phe(s)}和{Zn(Phe)(NO_3)_2·H_2O(s)+Na_2SO_4(s)}的溶解焓为,Δ_dH_(m,1)~0=(69.42±0.05)kJ·mol^(-1),Δ_dH_(m,2)~0=(48.14±0.04)kJ·mol^(-1),进而计算出该配合物的标准摩尔生成焓为,Δ_fH_m^0=-(1363.10±3.52)kJ·mol^(-1).另外,利用紫外-可见(UV-Vis)光谱和折光指数(refractive index)的测量结果检验了所设计的热化学循环的可靠性.

配位化合物Zn(Met)_3(NO_3)_2·H_2O(s)(Met=L-α-蛋氨酸)的低温热容及标准摩尔生成焓(英文)

利用精密绝热热量仪测定了配合化合物Zn(Met)_3(NO_3)_2·H_2O(s)(Met=L-α-蛋氨酸)在78-371 K温区的摩尔热容.通过热容曲线解析,得到了该配合物的起始脱水温度为T_D=325.10 K.将该温区的摩尔热容实验值用最小二乘法拟合得到了摩尔热容(C_p)对约化温度(T)的多项式方程,由此计算得到了配合物的舒平热容值和热力学函数值.基于设计的热化学循环,选择100 mL 2 mol·L^(-1)HCl溶液为量热溶剂,利用等温环境溶解-反应热量计,得到了298.15 K配合物的标准摩尔生成焓Δ_f H_m^0[Zn(Met)_3(NO_3)_2·H_2O,s]=-(1472.65±0.76)J·mol^(-1).

[Zn(DMF)_6]H_2SiW_(12)O_(40)·(CH_3)_2NH的合成,晶体结构及性质

The title compound H2SiW12O40·(CH3)2NH was synthesized in mixed solvent of aqueous and acetonitrile, and its crystal structure had been determined using single crystal X ray diffraction. The crystal belongs to monoclinic, space group C2/m, a=2.0654(4)nm, b=1.3306(3)nm, c=1.3194(3)nm, β=119.59(3)°, V=3.1531(11)nm3, Dc=3.606Mg·m-3, Z=2, R=0.0462, Rw=0.0836. The title compound comprises of a 2+ unit, a polyanion and a free (CH3)2NH molecule. The ESR spectrum of the title compound shows that charge transfer between organic groups and polyanion takes place under irradiation of the sunlight in solid state. The TG study of the title compound shows that it had four stages of the weight loss, and the increase of the decomposition temperature for the polyanion shows that the stability of the polyanion was enhanced due to the influence of Zn2+ ion. CCDC:175866.

一维链状超分子化合物[Zn(dafo)_2(H_2O)_2](NO_3)_2(dafo=4,5-二氮芴-9-酮)的合成、表征和晶体结构

A novel one-dimensional chain complex [Zn(dafo)2(H2O)2](NO3)2 was synthesized. It has been characterized by IR, UV, TGA, Elemental analysis and X-ray diffraction analysis. The crystal belongs to triclinic system, P1 space group. The Crystallographic data are: a = 0.702 7(14) nm, b = 0.828 95(17) nm, c = 10.225(2) nm, α = 95.02(3)°, β = 91.45(3)°, γ = 99.85(3)°. The crystal structure data indicate that the Zn(Ⅱ) ion was coordinated with the four nitrogen atoms of two dafo and two oxygen atoms of two coordination water molecules, respectively. The complex has a one-dimensional chain structure, which is formed by hydrogen bonds.

鼓形有机锡氧杂环羧酸簇合物[PhCH_2Sn(O)(O_2CC_4H_3S)]_6·2CH_2Cl_2 和 [PhCH_2Sn(O)(O_2CC_3H_2NO)]_6·2CH_2Cl_2的合成和晶体结构

利用三苄基氧化锡与 2 -噻吩甲酸和 2 -唑甲酸反应 ,合成了六聚体苄基锡氧 2 -噻吩甲酸酯 (1 )和六聚体苄基锡氧 2 -唑甲酸酯 (2 )鼓形簇合物 .通过元素分析、红外光谱和 X射线单晶衍射对其结构进行了表征 .测试结果表明 :化合物 1属三斜晶系 ,空间群 P1 ,a=1 . 2 76 0 (3) nm,b=1 .30 5 6 (3) nm,c=1 .334 3(3) nm,α=1 0 5 .6 5 (3)°,β=96 .2 7(3)°,γ=97.2 0 (3)°,Z=1 ,V=2 .0 997(7) nm3 ,Dc=1 .80 9g/ cm3 ,μ=2 .0 97mm- 1 ,F(0 0 0 ) =1 1 1 6 ,R=0 .0 6 5 1 ,w R=0 .1 2 92 .化合物 2属三斜晶系 ,空间群 P1 ,a=1 .2 2 4 0 (4 ) nm,b=1 .36 73(4 ) nm,c=1 .374 4(4 ) nm,α=1 0 7.76 0 (4 )°,β=98.0 6 9(5 )°,γ=91 .4 80(5 )°,Z=2 ,V=2 .1 6 31 (1 2 ) nm3 ,Dc=3.373g/ cm3 ,μ=3.799mm- 1 ,F (0 0 0 ) =2 1 36 ,R=0 .0 382 ,w R=0 .0 79.它们均为鼓形簇状结构 ,锡原子呈畸变的八面体构型 .化合物 1通过分子间 S… S近距离作用 ,形成一维链状结构 .

Constructing low-cost Ni3C/twin-crystal Zn0.5Cd0.5S heterojunction/homojunction nanohybrids for efficient photocatalytic H2 evolution

The development of low-cost semiconductor photocatalysts for highly efficient and durable photocatalytic H2 evolution under visible light is very challenging.In this study,we combine low-cost metallic Ni3C cocatalysts with twin nanocrystal Zn0.5Cd0.5S(ZCS)solid solution homojunctions for an efficient visible-light-driven H2 production by a simple approach.As-synthesized Zn0.5Cd0.5S-1%Ni3C(ZCS-1)heterojunction/homojunction nanohybrid exhibited the highest photocatalytic H2-evolution rate of 783μmol h‒1 under visible light,which is 2.88 times higher than that of pristine twin nanocrystal ZCS solid solution.The apparent quantum efficiencies of ZCS and ZCS-1 are measured to be 6.13%and 19.25%at 420 nm,respectively.Specifically,the homojunctions between the zinc blende and wurtzite segments in twin nanocrystal ZCS solid solution can significantly improve the light absorption and separation of photogenerated electron-hole pairs.Furthermore,the heterojunction between ZCS and metallic Ni3C NP cocatalysts can efficiently trap excited electrons from ZCS solid solution and enhance the H2-evolution kinetics at the surface for improving catalytic activity.This study demonstrates a unique one-step strategy for constructing heterojunction/homojunction hybrid nanostructures for a more efficient photocatalytic H2 evolution compared to other noble metal photocatalytic systems.

层状K_4Ag_2Sn_3S_9·2H_2O的溶剂热合成与表征

用溶剂热法合成了 K4 Ag2 Sn3S9· 2 H2 O,通过单晶 X射线衍射、 DSC、 TG、 IR和紫外漫反射光谱等手段对其进行了表征 .结果表明 ,K4 Ag2 Sn3S9· 2 H2 O属单斜晶系 ,P2 1 / m空间群 ,a=0 .780 71 ( 2 ) nm,b=2 .73 5 0 8( 1 ) nm,c=1 .0 5 0 0 8nm,α=90°,β=1 0 3 .87( 6)°,γ=90°,Z=4.其层状结构内具有一维孔道 。

吗啉二硫代氨基甲酸铁(Ⅲ)配合物Fe(S_2CNC_4H_8O)_3的合成、表征及晶体结构

合成了标题化合物Fe(S_2CNC_4H_8O)_3,得到黑色柱状晶体。晶体属三斜晶系,空间群为P-1,晶胞参数a=0.9300(2)nm,b=1.0490(2)nm,c=1.3710(3)nm,a=100.60(3)°,β=95.4O(3)°,γ=106.60(3)°,V=1.2445(4)nm^3,M_r=542.58,Z=2.中心Fe原子分别与来自三个吗啉二硫代氨基甲酸的六个硫原子配位形成八面体构型,由于四元螯合环的环张力,导致该八面体严重变形,六个Fe-S键的键长范围在0.2423(5)～0.2458(2)nm。热分析表明标题化合物在791.80℃完全分解。

耐硫甲烷化中H_2S浓度对MoO_3/Al_2O_3和CoO-MoO_3/Al_2O_3催化剂的影响（英文）

在0到12 m L·L-1(体积分数φ=0.00%-1.20%)范围内考察了不同H2S浓度对25%(质量分数,w)Mo O3/Al2O3和5%(w)Co O-25%Mo O3/Al2O3催化剂甲烷化性能的影响.结果表明,5%Co O-25%Mo O3/Al2O3的甲烷化活性随H2S浓度的增加单调上升,而25%Mo O3/Al2O3对H2S浓度并不敏感.对比这两种催化剂发现,只有在H2S浓度高于0.40%(φ)时,在25%Mo O3/Al2O3中添加Co助剂才会有促进作用;H2S浓度低于0.40%(φ)时,Co助剂会抑制25%Mo O3/Al2O3催化剂的甲烷化活性.分别对反应前后的催化剂表征发现,H2S浓度的改变不会对两种催化剂的物理结构产生明显的影响,而是通过影响催化剂表面的金属硫化物活性位来影响催化剂的甲烷化性能.耐硫甲烷化反应体系中较高的硫含量下Co助剂才表现出对25%Mo O3/Al2O3催化剂的促进作用.该研究明确了在Mo O3/Al2O3催化剂中添加Co助剂的硫化氢浓度范围,为工业上选择合适的催化剂提供了依据.

不同湿度的H_2S在Fe_2O_3表面的吸附反应研究

研究了H2S在Fe2O3表面的吸附反应过程,考察了温度,H2S湿度,H2S起始体积分数,Fe2O3湿度对吸附反应的影响。结果表明:温度的降低,H2S湿度和起始体积分数的增加,均促进吸附反应;而且当Fe2O3的湿度为10%时,吸附H2S的体积分数最大。干燥的H2S在干燥的Fe2O3表面也发生吸附反应,生成FeS,对设备产生一定的腐蚀作用。

三维无机-有机杂化骨架微孔材料Zn_3(bpdc)_3(4,4′bpy)·DMF·2H_2O的合成与结构

合成了一个具有三维骨架结构的无机 -有机杂化微孔材料Zn3(bpdc)3(4,4′ bpy)·DMF·2H2 O,并通过ICP和X射线单晶衍射分析等手段对其结构进行了表征.晶体属于正交晶系,Pbcn空间群,晶胞参数a =1.45 3 2 (3)nm,b =2.5 0 3 7(5 )nm,c=1.8184(4)nm,V =6.616(2 )nm3,Z =8,Dc=1.2 96g/cm3,Mr=64 5.5 8,μ =1.145mm-1,F(0 0 0)=2 65 6.最后的一致性因子为R =0.0 70 5,Rw =0.2 0 5 6.

H_2S分压对1-十二烯在NiMo/Al_2O_3催化剂上加氢反应的影响

在加氢裂化反应过程中 ,裂化产生的痕量烯烃会与H2 S结合生成硫醇。为研究H2 S对烯烃加氢及硫醇生成的影响 ,实验室采用微反以正 -十二烯为模型化合物 ,考察了H2 S存在下 1-十二烯在NiMo Al2 O3催化剂上的加氢反应。结果表明 ,在一定范围内H2 S分压的变化对 1-十二烯的转化率没有明显影响 ,但对产品中异构烯烃的选择性有很大影响 ,并直接影响产物中十二碳硫醇的收率与分布。

Reactive adsorption desulfurization coupling aromatization on Ni/ZnO-Zn_6Al_2O_9 prepared by Zn_xAl_y(OH)_2(CO_3)_z·x H_2O precursor for FCC gasoline

Aiming to improve the reactive adsorption desulfurization（RADS） performances of Ni/Zn O adsorbents,ZnxAly（OH）2（CO3）z·x H2 O precursor is synthesized by coprecipitation of Zn2＋,AlO-2,and CO2-3; the Zn OZn6Al2O9 composite oxides are obtained by the calcination of ZnxAly（OH）2（CO3）z·x H2 O precursor,and the Ni/Zn O-Zn6Al2O9（6.0 wt% Ni O） adsorbents are prepared by wetness impregnation method. The phase,acid strength,acid type and quantity,morphology,and thermal properties were characterized by X-ray diffraction,temperature-programmed desorption of ammonia,pyridine-adsorbed infrared spectrum,high-resolution transmission electron microscopy,and Thermo Gravimetry-Derivative Thermo Gravimetry（TG-DTG）,respectively. The breakthrough sulfur capacities of six adsorbents are between 34.2 and 47.9 mg/gcat. The kinetic studies indicated that the active energy of RADS（49.4 k J/mol） could reach nano-sized Zn O,the particle size of is about 12.0 nm. All the excellent RADS performances can be due to the high SBET. Also,there are some extents of aromatization reactions that occur,which can be contributed to the B？nsted acid rooted in Zn6Al2O9 composite oxide,and the octane number of products can be preserved well.

配合物Zn(Met)SO_4·H_2O(s)的低温热容和标准摩尔生成焓

利用精密自动绝热热量计直接测定了配合物Zn(Met)SO4·H2O(s)在78～370K温区的摩尔热容.通过热容曲线的解析得到该配合物的起始脱水温度为T0=329.50K.将该温区的摩尔热容实验值用最小二乘法拟合得到摩尔热容(Cp,m)对温度(T)的多项式方程,并且在此基础上计算出了它的舒平热容值和各种热力学函数值.依据Hess定律,通过设计热化学循环,选择体积为100cm3、浓度为2mol·L-1的盐酸作为量热溶剂,利用等温环境溶解-反应热量计,测定和推算出该配合物的标准摩尔生成焓为?fHms=-(2069.30±0.74)kJ·mol-1.

新型二维无机-有机骨架晶体材料Zn_3(PTC)_2(H_2O)_8·4H_2O的合成、结构与荧光性质

A\} novel two-dimensional coordination polymer Zn 3(PTC) 2(H 2O) 8·4H 2O was formed by \{Zn(CH 3COO) 2·\}2H 2O and 2-pyridine-1,3,5-tricarboxylate(H 3PTC) under the hydrothermal condition at 417 K and characterized by fluorescence. The crystal structure of the compound was determined by single-crystal X-ray diffraction analyses. The six-coordinated Zinc(Ⅱ) center displays an octahedral geometry . The crystal is monoclinic and space group is P2(1)/c with a=0.722 70(14) nm, b= 1.866 7(4) nm , \{c=\}1.072 6(3) nm, α=90°, β=103.198(19)°, γ=90°, V=1.408 7(6) nm 3, Z=4, D c= 2.474 Mg/m 3, M r=828.536, μ=3.099 mm -1 , F(000)=1 060, GOF=0.892, R=0.061 3, wR= 0.133 9 .

无机偶合反应化学发光分析 I.H_(2)O_(2)-Na_(2)S_(2)O_(3)-Luminol体系测定痕量钒

本文将钒(Ⅴ)催化过氧化氢氧化硫代硫酸钠的反应与Luminol-H2O2-K3Fe(CN)6体系的化学发光反应相偶合,用流动注射化学发光法测定痕量钒.化学发光强度与钒浓度在0.5—30ppb范围内呈线性关系,检测下限为4.3×10-10g·mL-1,测定2ppb钒,相对标准偏差为3.2%.用离子交换法分离干扰离子,可用于天然水中钒的测定.

过渡金属离子掺杂Zn_3(OH)_2V_2O_7·2H_2O的合成及其光催化性质

利用水热法合成了3d过渡金属离子掺杂Zn3(OH)2V2O7·2H2O的微米花结构,其分子式可表达为Zn3-3xM3x(OH)2V2O7·2H2O(其中M=Cu,Co,Ni,Mn;0.001≤x≤0.20)。应用XRD、SEM、TEM、UV-Vis DRS、EDX和BET等分析测试技术对产物进行了表征。结构和形貌分析结果显示过渡金属离子掺杂后产物仍保持Zn3(OH)2V2O7·2H2O的六方晶体结构,微米花由主晶面为(0001)的纳米片组装而成。紫外-可见漫反射光谱显示过渡金属离子掺杂后带边吸收红移,其中以Cu的掺杂产物Zn3-3xCu3x(OH)2V2O7·2H2O最为明显,带边吸收扩展到可见光区。首次对Zn3(OH)2V2O7·2H2O及其不同金属离子掺杂产物Zn3-3xM3x(OH)2V2O7·2H2O进行了可见光催化降解有机污染物的研究,结果显示与其它产物相比掺0.1at%Cu的Zn2.997Cu0.003(OH)2V2O7·2H2O对亚甲基蓝(MB)的可见光催化降解效果最好。对掺杂离子种类、掺杂离子浓度对产物可见光催化性质的影响也进行了考察。

Space Group of Aquaimidazolemaleatozinc, [(H_2O)(C_3H_4N_2)(O_2CCH=CHCO_2Zn)]_n

The space group of [(H2O)(C3H4N2)(O2CCH=CHCO2Zn)]n, which was originally described in the acentric Pc space group (Liu et al., Chin. J. Struct. Chem. 2004, 23, 160～163), is re-described in the centric P21/c space group.

配合物Zn(His)SO_4·H_2O(s)的低温热容和热力学性质

通过精密自动绝热热量计测定了配合物Zn(His)SO4·H2O(s)在78～390K温区的摩尔热容,由热容曲线得到其起始脱水温度328 90K;用最小二乘法拟合得到摩尔热容(Cp,m)对温度(T)的多项式方程,并在此基础上计算了它的各种热力学函数。此外,研究了其在惰性气氛下的热分解过程。