Structural change of molybdenum on silica–alumina in contact with propene studied by ESR and Mo LIII-edge XANES

To obtain structural information of the molybdenum species supported on silica–alumina (SAH-1), as a unique catalyst for propene metathesis, Mo L_III-edge XANES and ESR spectroscopies were applied to characterize. The molybdenum species on SAH-1 are partly reduced to form Mo⁵⁺ ions in contact with propene even at room temperature (293 K), and the reduced ions increased with an increase in reaction temperature up to 473 K. From the results of Mo L_III-edge XANES, unique polymolybdate species with tetrahedral and octahedral structures are dominant in MoO₃/SAH-1 before the reaction. After the metathesis reaction, Mo ions are partly reduced to form metathesis active species and a ratio of tetrahedral structure decreases. This unique redox behavior of Mo ions is brought about by SAH-1 support. It is suggested that the metathesis active species of MoO₃/SAH-1 are not highly dispersed Mo ions in reduced state but are in poorly crystallized polymolybdate species, which can be partly reduced in contact with propene even at room temperature.     

BaGd2(MoO4)4:Tb3+,Eu3+荧光粉的 发光特性与能量传递机理

利用高温固相法制备了BaGd_2(MoO_4)_4∶Tb~(3+)与BaGd_2(MoO_4)_4∶Tb~(3+),Eu~(3+)荧光粉,并借助于X射线衍射(XRD)、激发光谱、发射光谱及荧光衰减曲线对样品的结构及发光性能进行了表征。在290 nm激发下,BaGd_2(MoO_4)_4∶Tb~(3+)样品在550 nm处具有较强的绿光发射,表明该样品可用作绿色荧光粉。Tb~(3+)离子的最佳掺杂浓度为50%,电偶极间相互作用是引起浓度猝灭效应的主要原因。当在BaGd_2(MoO_4)_4∶Tb~(3+)荧光粉中共掺入Eu~(3+)离子后,可同时观测到Tb~(3+)与Eu~(3+)离子的特征发射峰。随Eu~(3+)掺杂浓度的升高,Tb~(3+)离子的发光强度逐渐下降,而Eu~(3+)离子的发光强度逐渐增加。根据BaGd_2(MoO_4)_4∶Tb~(3+),Eu~(3+)中Tb~(3+)离子的荧光寿命计算了Tb~(3+)与Eu~(3+)离子间的能量传递效率,并根据荧光寿命与激活离子掺杂浓度的关系证实了能量传递机制为电偶极间相互作用。     

基于MoO3/Ag/MoO3透明阳极的顶发射OLED的模拟计算与制备

运用传输矩阵法和正交分析法模拟计算出MoO₃/Ag/MoO₃透明电极的最佳厚度,采用镀膜实验验证模拟计算的准确性,制备了一系列不同MoO₃膜厚度和Ag膜厚度的透明电极。然后,制备了一系列顶发射有机电致发光器件:铝/氟化锂(LiF)/三(8-羟基喹啉)铝(Alq₃)/N,N'-二苯基-N,N'-(1-萘基)-1,1'-联苯-4,4'-二胺/三氧化钼(MoO₃)/银(Ag)/三氧化钼(MoO₃),来进一步验证模拟计算运用在器件制备中的准确性。MoO₃(10 nm)/Ag(10 nm)/MoO₃(25 nm)在532 nm处的透射率达到最大值88.256%,以该透明电极制备的器件与参考器件相比,性能有了明显提高,最大亮度和最大效率分别为20 076 cd/m²和4.03 cd/A,提高了18.5%和56%。器件性能的提高归因于顶发射OLED器件透射率的提高和MoO₃对空穴注入能力的提升。     

Al~(3+)/Mo~(6+)双离子取代ZrV_2O_7中Zr~(4+)/V~(5+)实现近零膨胀

采用固相烧结法制备了Zri_(1-x)Al_(2-x)V_(2-x)Mo_xO_7(0≤x≤0.9),并通过调整Al~(3+)/Mo~(6+)对ZrV_2O_7中的Zr~(4+)/V~(5+)离子替代量来实现近零膨胀,对于较小的x值(x≤0.3),材料保持了与ZrV_2O_7相同的立方相结构.随着Al~(3+)/Mo~(6+)替代量的增加,(Al/Zr)~-和(Mo/V)~+之间的库仑相互作用逐渐加强,这种库仑相互作用导致材料中未发生畸变的立方相晶体结构逐渐减少.当x≥0.7时,材料中立方相晶体结构完全消失.在425-750 K温度区间内,Zr_(0.5)Al_(0.5)M_(0.6)O_7展示出近零膨胀性质(-0.39×l0~(-6)K~(-1)).Zr_(0.5)Al_(1.5)V_(1.5)Mo_(0.5)O_7的低热膨胀性能可能与Al~(3+)/Mo~(6+)对ZrV_2O_7中Zr~(4+)/V~(5+)部分替代引起部分晶体结构发生的畸变及其对未替代部分的晶格结构的影响有关.     

Li+离子掺杂对红色发光材料Y2(W,Mo)O6:Eu3+发光性能的影响

采用高温固相法制备了荧光粉Y2-x(W,Mo)O6:Eu3+,xLi+,利用X射线衍射仪和电子扫描显微镜对样品的结构和形貌进行了表征,并利用荧光光谱法分析了样品的光谱特性.首先在Y2WO6中掺入少量的Mo6+离子,掺入Mo6+后增加了原Y2WO6:Eu3+的激发光谱在近紫外光区的吸收,扩展了激发光谱的谱宽,但却使Y2W...     

改性羧甲基壳聚糖复合材料的制备、表征与研究

为了提高壳聚糖的水溶性及其止血方面的性能，将壳聚糖（CS）进行羧甲基化改性，并引入具有抗菌作用的Ag⁺和TiO₂，制备出羧甲基壳聚糖复合止血材料。首先，在壳聚糖中引入羧甲基，制得羧甲基壳聚糖（CMCS），之后向其中引入Ag⁺和TiO₂，分别制备出Ag⁺-CMCS、TiO₂-CMCS和Ag⁺-TiO₂-CMCS复合材料。然后，采用FTIR、XRD、SEM等手段对复合材料的结构进行表征。最后，对复合物的凝血、止血性能进行了测试。实验结果表明：改性后的羧甲基壳聚糖的IR图谱在3 423 cm^-1和1 380 cm^-1处出现了羧甲基壳聚糖钠盐的特征吸收峰。改性后的羧甲基壳聚糖在XRD图谱中表现出了金属晶态。CMCS的粒径为14.8 nm左右，Ag⁺粒径为143.5 nm左右，纳米TiO₂的粒径为267.2 nm左右，且三者分散的很均匀。Ag⁺-TiO₂-CMCS的凝血、止血效果要优于Ag⁺-CMCS和TiO₂-CMCS，同时Ag⁺-CMCS和TiO₂-CMCS的凝血、止血效果要优于CMCS。     

K5Bi(MoO4)4-Nd3+晶体生长和光学性质

在化学计量的熔料里,用提拉法生长了K₅Bi_0.9Nd_0.1(MoO₄)₄和K₅Bi_0.97Nd_0.03(MoO₄)₄单晶。该晶体属于三方晶系,空间群为R3m,Z=1.5,晶胞常数为a=6.023?,c=20.887?(Nd_0.1)。K₅Bi(Mo 关键词：     

Mo-SiO2-C3H6催化反应体系的ESR动态表征

文章考察了Mo-SiO₂催化剂体系在丙烯歧化反应过程中的动态ESR波谱,发现在催化歧化反应过程中有两种Mo⁵⁺顺磁中心,一种为扰动八面体配位,g_||=1.89,g_⊥=1.94;另一种为扰动四棱锥配位,g_||=1.86,g_⊥=1.95。测得同位素^95,97Mo⁵⁺的各向异性超精细耦合常数A_||=90.3×10^-4cm^-1,A_⊥=44.8×10^-4cm^-1;观测到反应产生的积炭信号,g≈2.0O₂;氧阴离子自由基信号g₁=2.018,g₂=2.011,g₃=2.005。用LCAO-MO理论对上述Mo⁵⁺的ESR波谱进行计算,求得分子轨道系数,发现并总结出△g_||/△g_⊥与△g成直线关系,并建议用△g_||/△g_⊥=4(△E(B₂→E))/(△E(B₂→B₁)(β₁/ε)²之比值作为衡量C_4v扰动程度的尺度。     

Eu3+掺杂的含氧磷酸盐发光性质

采用固态反应法制备了Gd₃PO₇:Eu³⁺ 和 La₃PO₇:Eu³⁺发光材料,通过X射线衍射和SEM确定了样品的结构和形貌。 在真空紫外光的激发下,Gd₃PO₇:Eu³⁺样品展示了较弱的基质吸收;但在紫外光的激发下,Gd₃PO₇:Eu³⁺显示了比La₃PO₇:Eu³⁺更强的红光发射,其原因是在Gd₃PO₇:Eu³⁺中存在Gd³⁺到Eu³⁺的有效能量传递过程。两个样品的发射光谱峰值位于618 nm,属于Eu³⁺的⁵D₀→⁷F₂跃迁。Eu³⁺在材料中处于较低的格位对称环境,具有很好的色纯度。     

Tm3+浓度对Y2（MoO4）3：Tm3+，Yb3+荧光粉上转换发光性质的影响

采用传统的高温固相反应法合成了Tm³⁺/Yb³⁺共掺杂Y₂（MoO₄）₃系列荧光粉。XRD结果表明合成的样品为相纯度好的Y₂（MoO₄）₃。在980 nm光激发下,样品具有较强的位于487 nm和800 nm的蓝色和近红外发射,同时伴有较弱的位于649 nm的红光发射。它们分别来自于Tm³⁺的¹G₄→³H₆、³H₄→³H₆和¹G₄→³F₄跃迁。根据功率相关的上转换发射和能级图分析了Tm³⁺的上转换发光机制。结果表明,¹G₄和³H₄能级的布居分别来自于三光子和两光子的能量传递上转换。此外,随着Tm³⁺浓度的增加,蓝色、红色和近红外发射带均呈先增加后降低的趋势,即发生了浓度猝灭。同时,蓝光发射和近红外发射的强度比随Tm³⁺掺杂浓度的增加而减小。     

Experimental optimum design and luminescence properties of NaY(Gd)(MoO_4)_2:Er~(3+)phosphors

Three-factor orthogonal design(OD) of Er~(3+)/Gd~(3+)/T(calcination temperature) is used to optimize the luminescent intensity of Na Y(Gd)(MoO_4)_2:Er~(3+)phosphor.Firstly,the uniform design(UD) is introduced to explore the doping concentration range of Er~(3+)/Gd~(3+).Then OD and range analysis are performed based on the results of UD to obtain the primary and secondary sequence and the best combination of Er~(3+),Gd~(3+),and T within the experimental range.The optimum sample is prepared by the high temperature solid state method.Photoluminescence excitation and emission spectra of the optimum sample are detected.The intense green emissions(530 nm and 550 nm) are observed which originate from Er~(3+)~2H_(11/2)→~4I_(15/2)and~4S_(3/2)→~4I_(15/2),respectively.Thermal effect is investigated in the optimum NaY(Gd~(3+))(MoO_4)_2:Er~(3+)phosphors,and the green emission intensity decreases as temperature increases.     

试验优化设计Tm3+/Yb3+共掺钼酸钇钠荧光粉上转换发光性质的研究

为得到最大发光强度的Tm³⁺/Yb³⁺共掺钼酸钇钠荧光粉, 采用试验优化设计的方法建立发光强度与Tm³⁺/Yb³⁺掺杂浓度的回归方程, 再通过遗传算法优化算出方程的最大解. 利用高温固相法制备出了该解的Tm³⁺/Yb³⁺共掺钼酸钇钠荧光粉样品. 在980 nm抽运激发下, 测量了样品的上转换荧光发射谱, 分析了上转换发光机制, 在室温下观察到强烈的蓝光(476 nm)和微弱的红光(649 nm)发射, 其分别对应于Tm³⁺的¹G₄→³H₆ 和¹G₄ →³F₄ 跃迁. 在Tm³⁺/Yb³⁺ 上转换发光体系中, ¹G₄ 的上转换可见发射是双光子合作上转换能量传递过程. 并探讨了样品的温度效应, 发现该样品蓝光发光强度随温度升高而减弱, 并对其温度猝灭机理进行了解释. 关键词： 试验优化设计 上转换 钼酸钇钠 3+/Yb³⁺')" href="#">Tm³⁺/Yb³⁺     

近紫外宽带激发LED用红色荧光粉(Gd_(1-x)Eu_x)6(Te_(1-y)Mo_y)O_(12)的制备与性能

利用高温固相法制备了一种新型红色荧光粉(Gd_(1-x)Eu_x)_6(Te_(1-y)Mo_y)O_(12),研究了Eu~(3+)单掺和Eu~(3+),Mo~(6+)共掺Gd_6TeO_(12)荧光粉的结构、形貌和荧光性能.实验结果表明,所合成的粉体为纯相.在393 nm近紫外光激发下,(Gd_(1-x)Eu_x)_6(Te_(1-y)Mo_y)O_(12)荧光粉发出特征红光,位于632 nm处的发射主峰属于Eu~(3+)的~5D_0→~7F_2跃迁.当Eu~(3+)掺杂浓度超过20%(物质的量分数)时发光出现浓度淬灭,经证实这是由电偶极-电偶极相互作用造成的.随着工作温度升高,荧光粉发光强度减小,计算得到Eu~(3+)热淬灭过程中的激活能为0.1796 eV.当(Gd_(0.8)Eu_(0.2))_6TeO_(12)中共掺Mo~(6+_(取代Te~(6+)),该荧光粉发射光谱的峰位、强度变化不大,但是Mo~(6+)-O~(2-)电荷迁移态显著增大了近紫外波段的激发带宽度,可以有效提高激发效率.具有近紫外宽带激发特征的(Gd_(0.8)Eu_(0.2))_6(Te_(0.6)Mo_(0.4))O_(12)是一种潜在的白光LED用荧光粉材料.     

Methane activation over Ag-exchanged ZSM-5 zeolites: A theoretical study

Methane activation catalyzed over Ag-exchanged ZSM-5 zeolites was investigated by using the density functional theory (DFT) with a cluster model. Two different pathways were taken into account in this work: the “alkyl” and the “carbenium” pathways. The activation barriers obtained are 34.09 and 66.63 kcal/mol for the “alkyl” and the “carbenium” pathway, respectively. The calculated results show that the activation barrier of the “alkyl” pathway is smaller than that of “carbenium” pathway. Consequently, the “alkyl” pathway is the preferential reaction pathway. A new mechanism of methane conversion in the presence of ethene was proposed. In the catalytic cycle, the initial step of methane activation proceeds with the “alkyl” pathway and the Ag⁺ cation acts as an acceptor of the methyl group, then ethene reacts with the Ag⁺CH₃⁻ group to form propene. In addition, it is found that the Ag⁺ cations play an important role in the methane activation, compared with the reaction of methane activation over H-ZSM-5.     

纳米壳聚糖复合材料的制备与性能研究

为了提高壳聚糖的水溶性及其止血方面的性能,将壳聚糖(CS)纳米化,并引入具有抗菌作用的Ag~+离子和凝血辅助作用的Ca~(2+)离子,制备出纳米壳聚糖金属离子复合止血材料。首先,采用离子交换法制备纳米壳聚糖(nmCS),再分别加入AgNO_3和饱和CaCl2溶液,制得nmCS-Ag、nmCS-Ca、nmCS-Ag-Ca复合材料。然后,采用FTIR、XRD、SEM等手段对复合材料的结构进行表征。最后,对复合物的凝血、止血性能进行了测试。实验结果表明:改性后的壳聚糖IR图谱在1647cm-1和1560cm-1处出现了纳米壳聚糖钠盐的特征吸收峰;复合了金属离子的纳米壳聚糖在XRD图谱中表现出了Ag~+、Ca~(2+)的晶型特征;扫描电镜显示nmCS-Ag中Ag~+有部分析出而nmCS-Ca的复合效果较好;nmCS-Ag-Ca的凝血、止血效果要优于nmCS-Ag和nmCS-Ca,同时nmCS-Ag和nmCS-Ca的凝血、止血效果要优于nmCS。测试结果表明,成功制备了纳米壳聚糖金属离子复合止血材料。     

Gd2(MoO4)3:Tb3+荧光粉的固相合成与光谱性质

以MoO3、Gd2O3及Tb4O7为原料,以NH4HF2为助溶剂,在碳粉还原条件下制备了不同Tb3+掺杂浓度的Gd2( MoO4)荧光粉样品.采用X射线衍射(XRD)对样品的晶体结构进行了表征,发现掺杂浓度的改变未对产物的晶体结构产生影响,产物均为单一正交相Gd2( MoO4)3.对样品的激发、发射光谱及荧光衰减特性进...     

TiO2禁带宽度和光吸收系数对其光催化性能的影响

为了研究TiO₂禁带宽度和光吸收系数对其光催化性能的影响,使用Materials Studio的Dmol3和CASTEP模块分别对Ag⁺、Fe³⁺、Pt⁴⁺、La³⁺ 4种金属离子掺杂TiO₂的能带结构和光学性质进行分析。分子模拟表明:金属离子掺杂使TiO₂的禁带宽度变窄、吸收波长红移,相同光照条件下光吸收系数增加,影响了TiO₂的光催化性能。光催化反应实验表明:在254 nm照射条件下,TiO₂的禁带宽度为1.09 eV时光催化性能最好,TiO₂的光吸收系数越大,光催化性能越好。     

水热法制备的Li4-3xEux(MoO4)2微晶及其发光性能

采用水热法制备了Li_4-3xEu_{x(MoO4)2系列红色荧光粉.通过X射线衍射(XRD)、扫描电镜(SEM )和荧光分析(FL)对产物的微结构、形貌和发光性能进行表征分析.XRD分析表明,制备的Li4-3xEux(MoO4)2微晶均为白钨矿四方结构.SEM结果显示:随着x的增大,Li4-3xEux(MoO4)2微晶的晶粒尺寸相应减小,在0.2~0.5 μm之间变化.荧光分析结果表明:源于Eu³⁺的⁵D0→⁷F2和⁵D0→⁷F1电荷转移的592 nm和614 nm的特征发射峰显现明显,后者的发射强度远远大于前者.随着x的增大,样品中Eu³⁺的两个特征发射峰的强度先增大后减小,在x=1.0时达到最大.}     

Formation of silver colloids in silver ion-exchanged soda-lime glasses during annealing

The structural and compositional changes of the soda-lime glasses during the formation of the silver colloids were analyzed by the X-ray Photoelectron Spectroscopy (XPS) in order to examine the silver colloid formation mechanism. The in situ behavior of silver and SiO₂ networks on the surfaces of silver ion-exchanged soda-lime glasses during heating and cooling processes in ultra-high vaccum was monitored. The results showed that silver diffuses toward the surface, precipitates, and crystallizes during heating and the total silver surface concentration is slowly increased during cooling. The concentration changes of oxidized and neutral Ag, a new non-bridging oxygen species (NBO^*), and a new silicon species (Si[a]) were applied to deduce a disappropriation reaction mechanism of Ag⁺ on the surface during annealing. The SiO₂ network is modified at temperatures below 350°C to accommodate more silver on the surface and to balance the extra charge carried by the Ag⁺. That the SiO₂ network polymerizes during annealing was deduced from the results of the higher binding energies of Si2p and O1s after annealing. This observation suggests that the reduction of the Gibbs free energies and the relaxation of tensile stress result in the formation of the silver colloids under thermal annealing.     

CuCl2/γ-Al2O3催化剂的EPR研究

通过测定Cu含量不同的新鲜CuCl₂/γ-Al₂O₃催化剂的EPR谱,以及对EPR谱的线型及强度的计算机处理和理论拟合等,研究了催化剂中CuCl₂在载体表面的分散方式,和Cu含量对Cu²⁺配位形式的影响.EPR结果表明,催化剂表面的Cu²⁺至少有两种不同配位状态.新鲜催化剂中所存在的两种不同谱线的比例决定了EPR谱的线型和强度,而两种谱线的比例又取决于催化剂中的Cu含量.在低Cu催化剂中Cu²⁺相互离散,倾向于形成富氧配位,具有较高的EPR强度,只有在Cu含量较高时,Cu²⁺才能形成富氯配位.鉴于低Cu催化剂不能与乙烯反应,而高Cu催化剂则可以使乙烯转化为二氯乙烷的事实,认为富氧配位的Cu²⁺可能具有与乙烯反应的活性.