金属掺杂纳米固体超强酸SO_4~(2-)/ZrO_2的IR考察

首先采用sol gel法制备出ZrO(OH) 2 ,再分别用Ni2 + ,Al3 + ,Sn4+ ,Ag+ ,Sn2 + 金属盐溶液和H2 SO4稀溶液浸渍ZrO(OH) 2 的方法合成了一系列金属离子掺杂的SO2 -4/ZrO2 纳米固体超强酸。并用XRD ,TEM和IR技术考察了各样品的性能。结果发现 ,经不同金属掺杂的SO2 -4/ZrO2 颗粒具有固体超强酸的IR谱特征。经Ni2 + ,Sn4+ 掺杂的样品中Zr—O和 SO 键振动吸收峰明显蓝移 ,Zr—O的νZr—O由SO2 -4/ZrO2 的4 85cm-1增大到Ni2 + ,Sn4+ 掺杂样品的 5 0 0cm-1,SO的νas由 1390cm-1增大到 14 0 5和 14 0 0cm-1,而Sn2 + 掺杂的样品变化不大。说明Ni2 + ,Sn4+ 金属离子的掺杂增强了样品的超强酸性。同时还发现 ,随着样品焙烧温度的提高 ,经Ni2 + 和Al3 + 掺杂的SO2 -4/ZrO2 纳米颗粒 ,Zr—O和 SO 键振动吸收峰明显蓝移 ,而Ag+ 掺杂的样品在焙烧温度达到 10 73K时IR谱只是吸收强度减弱 ,振动频率不变。     

催化精馏专用填料型固体酸SO42-/ZrO2-Al2O3-Al的研究

为了研制催化精馏专用催化剂 ,采用铝阳极氧化法制备了Al2 O3 Al一体型载体 ,并将活性固体超强酸SO42 -/ZrO2 引入到Al2 O3 Al上 ,得到一种新型催化精馏专用填料式固体酸SO42 -/ZrO2 Al2 O3 Al催化剂 .利用XRD、SEM、BET、XPS、NH3 TPD等手段对其进行了表征 .结果表明 ,所制得的阳极氧化铝膜厚为 5 6 μm ,SO42 -/ZrO2 Al2 O3 Al固体酸具有比表面积大、酸强度适中的特点 .XRD结果表明 ,ZrO2 在Al2 O3 Al上处于高度分散状态 .将该固体酸用于乙酸 /乙醇酯化反应中 ,显示出较高的催化活性 ,且稳定性较好     

金属掺杂纳米固体超强酸SO2-4/ZrO2的IR考察

首先采用sol-gel法制备出ZrO(OH)2,再分别用Ni^2 ,Al^3 ,Sn^4 ,Ag^ ,Sn^2 金属盐溶液和H2SO4稀溶液浸渍ZrO(OH)2的方法合成了一系列金属离子掺杂的SO4^2-／ZrO2纳米固体超强酸。并用XRD,TEM和IR技术考察了各样品的性能。结果发现,经不同金属掺杂的SO4^2-／ZrO2颗粒具有固体超强酸的IR谱特征。经NiH,Sn^4 掺杂的样品中Zr-O和S-O键振动吸收峰明显蓝移,Zr-O的vZr-O由SO4^2-／ZrO2的485cm^-1增大到Ni^2 ,Sn^4 掺杂样品的500cm^-1,s=0的vas由1390cm^-1增大到1405和1400cm^-1,而Sn^2 掺杂的样品变化不大。说明Ni^2 ,Sn^4 金属离子的掺杂增强了样品的超强酸性。同时还发现,随着样品焙烧温度的提高,经Ni^2 和Al^3 掺杂的SO4^2-／ZrO2纳米颗粒,Zr-O和S=O键振动吸收峰明显蓝移,而Ag^ 掺杂的样品在焙烧温度达到1073K时IR谱只是吸收强度减弱,振动频率不变。     

纳米固体超强酸SO_4~(2-)/Fe_2O_3的红外光谱研究

由纳米α Fe2 O3 的前驱体 ,经一定的SO2 -4 离子的浸泡制得SO2 -4 /Fe2 O3 纳米固体超强酸。分别测定了在不同的温度下、不同SO2 -4 含量和不同焙烧时间三种状态下的红外吸收光谱 (IR) ,就其对乙酸乙酯的合成催化作用进行了初步的讨论。结果表明 ,纳米固体超强酸SO2 -4 /Fe2 O3 劈裂多重的特征谱图有别于对应的普通粒子固体超强酸 ,谱带劈裂与宽大现象与酯产率成正比关系。     

制备条件及添加稀土对SO_4~(2-)/ZrO_2-Al_2O_3固体超强酸酸性影响的研究

用共沉淀法制备了SO4 2 -/ZrO2 -Al2 O3 固体超强酸 ,并采用低温陈化和添加稀土La对其制备方法进行改进 .通过样品催化正丁烷异构化反应考察了该固体超强酸中nZr和nAl的最佳配比为 1∶2 .该法制备的样品的IR显示 ,在 1393cm-1处的吸收峰强度较常温陈化样品大大增加 .XRD分析表明 ,低温陈化和加入稀土添加剂的样品在6 5 0℃焙烧温度下 ,出现了亚稳态的ZrO2 四方晶相的晶体是表面酸性和催化活性增加的微观原因 .样品催化合成八乙酸蔗糖酯反应结果同样证明 ,在相同的时间内 ,低温陈化和添加稀土添加剂的样品具有较好的催化活性     

DL-2-氨基4-磺酸基-丁酸与金属离子相互作用的研究

运用傅里叶变换红外光谱技术,对DL-2-氨基-4-磺酸基丁酸(DLH)与Na+,Cu2+,Zn2+和Ni2+ 形成的配合物进行了研究,并用元素分析的方法确定配合物的组成。红外光谱显示DLH分子中的—COOH,—NH+₃和—SO-₃ 基团均可与金属离子发生直接或间接的相互作用。不同过渡金属离子与氨基、羧基相互作用的强度顺序均为： Cu2+＞Zn2+＞Ni2+,其中羧基与不同离子可能采取了不同的配位方式。     

Co,Sn共掺ZnO薄膜结构与光致发光的研究

采用溶胶-凝胶旋涂法在玻璃衬底上制备了Co,Sn掺杂ZnO系列薄膜.通过金相显微镜和X射线衍射(XRD)研究了Co与Sn掺杂对薄膜的表面形貌和微结构的影响.XRD结果表明,所有ZnO薄膜样品都存在(002)择优取向,特别Sn单掺ZnO薄膜的c轴择优取向最为显著,而且晶粒尺寸最大.XPS测试表明样品中Co和Sn的价态分别为2+和4+,证实Co²⁺,Sn⁴⁺进入了ZnO的晶格.室温光致发光谱(PL)显示在所有的样品中都有较强的蓝光双峰发射和较弱的绿光发 关键词： ZnO薄膜 溶胶-凝胶 掺杂 光致发光     

Ni/SnO_2复合薄膜的制备与光电性能

采用旋涂法将溶胶-凝胶法制备的Ni/Sn O2凝胶在玻璃基底上镀膜,得到了Ni/Sn O2复合薄膜,探讨了镍掺杂量、煅烧温度对薄膜结构和形貌的影响。通过X射线衍射、红外光谱、扫描电子显微镜等测试手段对Ni/Sn O2复合膜的结构和形貌进行表征。结果显示,500℃下煅烧的薄膜样品的结晶度较高,粒径小,颗粒分布均匀。用紫外-可见分光光度计和四探针电阻仪对其进行光学、电学性能测试,结果显示:适量的Ni掺杂可以提高Sn O2薄膜在近紫外光区的吸收,Ni/Sn O2薄膜在近紫外光区的吸收随着Ni2+掺杂摩尔分数从5%增加到10%而逐渐减小。当Ni2+掺杂摩尔分数为6%时,Ni/Sn O2复合薄膜的导电性能最好。     

陈化温度和Fe/Zr配比对SO42-/Fe2O3-ZrO2固体超强酸结构与性能的影响

用低温陈化法制备了SO42 -/Fe2 O3 ZrO2 (简称SFZ)固体超强酸催化剂 ,用红外光谱 (IR)和X光衍射(XRD)对其结构进行了表征 ,并考察了它对合成癸二酸二正丁酯的催化性能 .IR谱显示 ,低温陈化的SFZ样品在10 70cm-1处吸收峰远强于常温陈化样品 .XRD分析则显示 ,在焙烧温度为 6 5 0℃、Fe/Zr为 2∶1时 ,低温陈化的样品出现了亚稳态的ZrO2 四方晶相 .该样品在催化酯化反应中使产率达 90 %以上 ,高于常温陈化样品的 30 % .研究结果表明 :在其他条件不变时 ,低温陈化所出现的亚稳态的ZrO2 四方晶相是表面酸性和催化活性增加的微观原因     

铝对过渡金属离子掺杂的二氧化硅溶胶凝胶玻璃发光性质的影响

用溶胶凝胶法制备了过渡金属离子(Ni2+,Mn2+和Cu2+)单掺、铝共掺的二氧化硅玻璃,测量了荧光光谱、吸收光谱和红外光谱,研究了Al3+对过镀金属离子在二氧化硅玻璃中发光性质的影响。研究结果表明,Al3+对过渡金属离子的发光性质有着显著影响:Ni2+,Mn2+和Cu+的发光强度大幅度提高,Mn2+的发光峰峰位改变。     

硫氰酸铵-十二烷基二甲基苄基氯化铵-水体系浮选分离汞(Ⅱ)

研究了硫氰酸铵-十二烷基二甲基苄基氯化铵-水体系浮选分离汞(Ⅱ)的行为及其常见金属离子的分离条件。控制pH=5.0,当0.01mol/L硫氰酸铵溶液和0.01mol/L十二烷基二甲基苄基氯化铵(DDBAC)溶液的用量分别为0.30、0.50mL时,体系中形成的不溶于水的三元缔合物(DDBAC)2[Hg(SCN)4]可浮于水相上层形成界面清晰的液-固两相,分相过程中,Hg2+被定量浮选,而Zn2+,Cd2+,Mn2+,Ni2+,Co2+,Fe2+等离子在此条件下不被浮选,实现了Hg2+的定量分离。该方法对合成水样中微量Hg2+进行定量浮选分离测定,浮选率为96.0%—108.8%。     

Computational study of inverse ferrite spinels

The magnetic properties of inverse ferrite Fe_(3+) Fe_(3+)Co_(2+) O~(2-)_4, Fe~(3+) Fe~(3+)Cu~(2+) O~2_(-4), Fe~(3+) Fe~(3+)Fe~(2+) O~2_(-4),and Fe~(3+) Fe~(3+)Ni~(2+) O~(2-)_4spinels have been studied using Monte Carlo simulation. We have also calculated the critical and Curie Weiss temperatures from the thermal magnetizations and inverse of magnetic susceptibilities for each system.Magnetic hysteresis cycles have been found for the four systems. Finally, we found the critical exponents associated with magnetization, magnetic susceptibility, and external magnetic field. Our results of critical and Curie Weiss temperatures are similar to those obtained by experiment results. The critical exponents are similar to those of known 3 D-Ising model.     

CuO based catalysts on modified acidic silica supports tested in the de-NOx reduction

A series of dispersed CuO catalysts supported on modified silica supports with Al2O3 (SA), TiO2 (ST), and ZrO2 (SZ) were prepared optimising the adsorption method of copper deposition assisted by ultrasound treatment, already reported in a previous paper (S. Bennici, A. Gervasini, V. Ragaini, Ultrason. Sonochem. 10 (2003) 61). The obtained catalysts were characterized in their bulk (atomic absorption, X-ray diffraction, temperature programmed reduction) and surface (N2 adsorption, X-ray photoelectron spectroscopy, scanning electron microscopy) properties. The morphology of the finished materials was not deeply modified compared with that of the relevant supports. The employed complemented techniques evidenced a well dispersed CuO phase with a copper-support interaction on the most acidic supports (SA and SZ). The catalyst performances were studied in the reaction of selective catalytic reduction of NOx with ethene in oxidizing atmosphere in a flow apparatus under variable times (0.360-0.072 s) and temperatures (200-450 degrees C). The catalysts prepared on the most acidic supports (SA and SZ) were the most active and selective towards N2 formation. They showed a particular interesting activity in the reaction of NO2 reduction besides that of NO reduction.     

静电纺丝纳米ZrO_2:Ti纤维的制备与发光性质的研究

通过静电纺丝和高温煅烧相结合的方法制备了一维钛掺杂氧化锆的纳米纤维。复合纤维在1 000℃煅烧后,由于模板剂、聚乙烯吡咯烷酮(PVP)在高温下的分解,纤维直径大大减小,扫描电镜观察最终得到直径100 nm左右的单斜相纤维。利用稳态光谱和时间分辨光谱技术室温下研究了纤维的光致发光性质。结果表明发射主峰在467 nm的宽带,在350 nm处有一个小肩峰。两种不同的发光行为可以通过ZrO2∶Ti纳米纤维中存在的两种情况的氧空穴作为电子俘获中心来解释。一种由电荷补偿产生的氧空位,俘获电子,产生467 nm处Ti参与的发光现象。另外一种ZrO2表面缺陷导致的氧空穴,对应于350 nm的发光现象,没有发现长余辉现象。测得的激发态寿命短于体材料而长于普通的纳米晶,可能是由于一维纳米结构的独特性质导致的。     

用光谱和EPR谱确定CsMgBr3:Ni2+的局域结构

本文采用半自洽场(semi-SCF)自由Ni2 的3d轨道波函数、点电荷—偶极子模型和Ni2 -6X-(X=F,Cl,Br,I)络合物的μ-κ-α模型,建立了结构参数与光谱、EPR谱之间的定量关系,利用完全对角化方法,由光谱和电子顺磁共振(EPR)谱,确定了CsMgBr3:Ni2 晶体在77K温度时的局域结构参数,统一解释了CsMgBr3:Ni2 晶体的局域结构、光谱和EPR谱。所得理论结果与实验值符合得很好。此外,还讨论了晶体局域结构发生畸变的原因。     

Photoluminescence properties of Ca_4La_6(SiO_4)_4(PO_4)_2O_2-based phosphors for wLEDs

The apatite compound Ca_4La_6(SiO_4)_4(PO_4)_2O_2(CLSPO) was explored as the host material for phosphors used in white light-emitting diodes(w LEDs). The crystal structure of the CLSPO host prepared by the solid-state reaction method was investigated with Rietveld refinement. The rare earth ions(Eu~(3+)/Tb~(3+)/Ce~(3+), Tb~(3+)/Tb~(3+), Mn~(2+))activated CLSPO phosphors were synthesized, and their photoluminescence properties, quantum yields, as well as thermal stabilities, were studied. Under near-ultraviolet excitations, the Eu~(3+) and Tb~(3+) -doped CLSPO compounds exhibited red and green emissions with high luminescence efficiencies. Besides, tunable emissions from green to orange were obtained by introducing Mn~(2+) ions into the Tb~(3+) -doped CLSPO samples. The results showed that the phosphors studied may have potential applications for w LEDs.     

Absence of magnetic order in dichloro [1,2-bis(diphenylphosphino)ethane] nickel~(2+) single crystal

Dichloro [1,2-bis(diphenylphosphino) ethane] nickel~(2+)(Ni Cl_2(dppe)) is an organic compound containing C_(26)H_(24)P_2(dppe) molecules and Cl-, Ni~(2+)ions. The large-size Ni Cl_2(dppe) single crystals with longest dimension of4 mm were grown by the method of slow evaporation of organic solution. Single crystal x-ray diffraction spectrum indicates that the single crystal is of high quality. Magnetization results of the Ni Cl_2(dppe) single crystals show an anisotropic paramagnetism behavior and diamagnetic background, which come from Ni~(2+) ions and benzene ring, respectively. However, according to the specific heat results with temperature down to 0.1 K and magnetic field up to 14 T, no expected field-induced quantum phase transition was observed in Ni Cl_2(dppe) single crystals.     

过渡金属氧化物催化剂上NH3 分解Claus反应机理研究

运用浸渍法制备了七种过渡金属氧化物催化剂 .对于NH3 分解反应均可获得很高的NH3 转化率 ;对于NH3 分解Claus反应则可以获得较高的SO2 转化率和单质硫选择性 .通过比较发现Co3 O4 TiO2 和Fe2 O3 TiO2 催化剂的低温活性比较高 .经过XRD表征发现 ,在NH3 分解Claus反应中 ,催化剂的活性相可能是过渡金属硫化物 .结合活性评价和XRD表征结果提出了NH3 分解Claus反应的机理 .     

Tm3+和Ho3+双掺氟锗酸盐玻璃的中红外发光性质质

用高温熔融法制备了Tm3+和Ho3+离子双掺的65GeO2-12AlF3-10BaF2-8Li2O-5La2O3氟锗酸盐玻璃,应用Judd-Ofelt理论,获得了Ho3+离子的强度参量（Ω2,Ω4,Ω6）,自发辐射跃迁几率Ar,辐射寿命τ等光谱参量。根据McCumber理论,计算了玻璃中Tm3+和Ho3+离子的吸收截面σa、受激发射截面σe和增益光谱G(λ)。在808nm激光二极管激发下,研究分析了Tm3+离子的交叉弛豫过程和Tm3+敏化Ho3+离子的2.0µm的红外发射光谱。结果表明,一定浓度Ho3+的共掺提高了Tm3+（3F4）→Ho3+（5I7）之间的能量转移效率,增强了~2.0µm的红外发光。     

Magnetic M<Subscript><Emphasis Type="Italic">x</Emphasis></Subscript>O<Subscript><Emphasis Type="Italic">y</Emphasis></Subscript>@N-C as heterogeneous catalysts for the catalytic oxidation of aniline solution with sulfate radicals

Metal nanoparticles have been combined with magnet metal–organic frameworks (MOFs) to afford new materials that demonstrate an efficient catalytic degradation, high stability, and excellent reusability in areas of catalysis because of their exceptionally high surface areas and structural diversity. Magnetic M _x O _y @N-C (M = Fe, Co, Mn) nanocrystals were formed on nitrogen-doped carbon surface by using 8-hydroxyquinoline as a C/N precursor. The Co@N-C, MnO@N-C, and Fe/Fe₂O₃@N-C catalysts were characterized by X-ray diffraction (XRD), Raman, scanning electron microscopy (SEM), high-resolution transmission electron microscopy (HRTEM), N₂ adsorption/desorption, and X-ray photoelectron spectroscopy (XPS). The catalytic performances of catalysts were thoroughly investigated in the oxidation of aniline solution based on sulfate radicals (SO₄ ^?.) toward Fenton-like reaction. Magnetic M _x O _y @N-C exhibits an unexpectedly high catalytic activity in the degradation of aniline in water. A high magnetic M _x O _y @N-C catalytic activity was observed after the evaluation by aniline degradation in water. Aniline degradation was found to follow the first-order kinetics, and as a result, various metals significantly affected the structures and performances of the catalysts, and their catalytic activity followed the order of Co > Mn > Fe. The nanoparticles displayed good magnetic separation under the magnetic field.

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