富钇氧化物中钇的X射线荧光光谱法测定

拟定了 X 射线荧光光谱法测定富钇氧化物中钇的方法.试验表明,微量溶液滤纸片制样,以锶为内标,X 射线荧光光谱法测定,有较好的精密度和准确度.

用钇基混合稀土氧化物制备高Tc超导材料的研究

本文研究了用钇基混合稀土氧化物制备的材料的超导特性。电阻和直流磁化率与温度关系的测量表明。该体系在86K～92K呈现零电阻。混合稀土中轻稀土元素及非稀土杂质对Tc有较大的影响,但经过简单的化学处理,特别是经过轻、重稀土分段处理后,仍可以利用廉价的钇基混合稀土氧化物代替Y_2O_3制备出相同Tc的超导材料。

镍钇双金属氢氧化物复合石墨烯制备及电化学性能研究

以氧化石墨烯,六水合硝酸镍,六水合硝酸钇,氨水为原料,通过一步水热法制备电化学性能优异的rGO/Ni-Y LDH材料应。研究结果表明,氢氧化钇和还原氧化石墨烯的协同作用下,材料的导电性得到了改善,加快了电子的转移速率,提高了材料的比电容和倍率性能。其中氢氧化钇含量为10%的样品电极性能最为优异,在1A·g-1的电流密度下,复合材料的比电容为1876F·g-1,拥有十分优异的倍率性能。

掺杂Y_2O_3的铁锡复合氧化物的穆斯堡尔谱学研究

采用化学共沉淀法合成α－Fe2O3－SnO2和α－Fe2O3－SnO2—Y2O3的铁锡复合氧化物，应用X射线衍射和穆斯堡尔谱学等手段研究材料的微结构和微粒生长情况。实验结果表明：掺杂Y2O3对晶粒生长有明显抑制作用，不同温度热处理可制得不同尺寸大小的纳米晶α-Fe2O3-SnO2-Y2O3材料。

用作高速红外探测器的钇钡铜氧化物薄膜

制得钇钡铜氧化物(Y-Ba Cu O)薄膜红外探测器并用各种激光对其进行研究,用 CO_2激光器对10μm 范围内以测辐射热和非测辐射热两种模式工作的探测器进行了研究。用测辐射热模式工作的探测器,其探测率在90K 下为2.1×10~8cmHz^(1/2)/W,响应时间为15ps,相应的带宽为70kHz。用非测辐射热模式工作的探测器,其响应速度非常快,超出仪器的分辨率。用有皮秒速度的氮分子激光器,仪器输出显示持续时间限于2ns。用非测辐射热模式由于极低的噪声,探测率不能测定。超导膜的质量是这些探测器性能的关键。

稀土氧化物前驱体的合成及其对YAG:Ce荧光粉影响的研究

分别用草酸和碳酸氢铵为沉淀剂通过沉淀法制备氧化钇及钇铈复合氧化物,并以其为原料,在高温下合成YAG∶Ce黄色荧光粉。用XRD、SEM、粒度测试仪、光谱分析仪等表征了氧化物前驱体和YAG∶Ce。SEM和比表面测试结果表明,碳酸氢铵沉淀法制备的氧化钇或钇铈复合氧化物的一次粒径约100 nm,形貌规则,比表面积高。用该钇铈复合氧化物合成的YAG∶Ce具有发光强度高、形貌规则、粒度小等优点。

H_2O和Y(O)对NiCoCrAl热障涂层高温氧化的影响

分别利用真空等离子沉积和超音速火焰喷涂技术制备含有Y和含Y氧化物的NiCoCrAl涂层,用差热分析和光学及电子显微镜研究两种涂层在Ar-16.7%O_2,Ar-3.3%H_2O和Ar-0.2%H_2-0.9%H_2O气氛中1100℃时的氧化动力学和断面微观结构,通过第一性原理计算对比在不同气氛中含Y氧化物对涂层氧化的影响机理。结果表明:对于NiCoCrAl+Y涂层,Y倾向于向界面扩散并在界面富集导致Al_2O_3膜生成更多有利于内氧化的孔洞,水蒸气更会对内氧化产生促进作用。而对于NiCoCrAl+Y(O)涂层,由于Y在涂层制备过程中被氧钉扎,导致NiCoCrAl+Y(O)涂层在上述气氛中生成了平直而均匀的Al_2O_3层,不同气氛对其氧化行为影响较小。上述研究进一步揭示NiCoCrAl涂层中活性元素Y的存在状态和氧化气氛中的水蒸气对氧化铝组织结构和生长速率有重要影响。

钇钡铜氧超导体中层错的高分辨电子显微术研究

我们运用高分辨电子显微术,在Y_1Ba_2Cu_3O_(7-δ)高T_c超导体中观察到两种类型的层错,它们具有相同的层错面(001),不同的相对位移矢量即[0,b/2,c/6]和[a/2,b/2,c/6].这两种层错都是由于完整晶体的基本铜氧面插入另一铜氧链形成的,它们既可以穿过整个晶体,也可中止在晶体中,在层错中止处,我们观察到不全位错.我们还观察到上述两种层错存在同一(001)面的情况,并在两种层错的窄过渡区观察到不全位错,其伯格斯矢量为[a/2,0,0],相应的结构模型亦已提出.

对含Y_2O_3和Gd_2O_3的La_2O_3-B_2O_3-BaO玻璃化学稳定性研究

本文研究了含Ｙ２Ｏ３和Ｇｄ２Ｏ３的Ｌａ２Ｏ３－Ｂ２Ｏ３－ＢａＯ玻璃的耐水性和耐酸性。结果表明，比硅酸盐玻璃化学稳定性差的Ｌａ２Ｏ３－Ｂ２Ｏ３－ＢａＯ玻璃，可以适量的用Ｙ２Ｏ３和Ｇｄ２Ｏ３取代Ｌａ２Ｏ３。

Ru-Zr-Y氧化物涂层电极的制备及其性能

将组元Zr和Y引入钛阳极氧化物涂层制备体系,采用热分解法在TA2基材上制备出Ru0.4Zr0.6O2、Ru0.32Zr0.48Y0.2O1.9涂层电极。采用XRD分析电极涂层的组织结构,测试各电极的析氯析氧电位、极化曲线、循环伏安曲线以及电极的稳定性,同时与同条件下制备的RuO2进行对比分析。研究结果表明,经450℃烧结制备的Ru0.32Zr0.48Y0.2O1.9三元电极涂层的综合性能比RuO2优越。说明添加Zr和Y组元,能有效提高涂层的析氯电催化活性和强化寿命。

凝胶注模成型制备高性能氮化硅陶瓷(Ⅰ)──助烧剂包覆氮化硅粉料对材料性能的影响

用无机盐共沉淀法在氯化硅颗粒表面包覆一层纳米级的钇铝氧化物后，粉料的分散性大大提高，可用来制备团相体积分数为５０％的悬浮体，利用凝胶注模成型和气压烧结制备了氮化硅陶瓷，与机械混合加入助烧剂相比。

Nd:YVO_4激光晶体Raman光谱的分析

根据商群对称性分析法对Nd :YVO4 晶体的Raman光谱做了理论计算和指认 ,运用实验的手段 ,根据谱线数目判定其合理性 ,同时断定晶体原胞中含有 4个Nd :YVO4

纳米YAG相包覆SiC复合粉体

利用共沉淀包覆方法制备了SiC-YAG(Y3Al5O12)陶瓷复合粉体。探讨了Y3+和Al3+的先驱沉淀物共沉淀包覆SiC粉体的包覆原理,当溶液中的OH-浓度控制在非均匀形核和均匀形核所需要的临界浓度范围之内,可以使Y3+和Al3+的先驱沉淀物共沉淀包覆在SiC颗粒表面。Y3+和Al3+的先驱沉淀物在1000℃煅烧后,直接形成YAG相,而不形成中间相,YAG相形成温度比常规形成温度明显降低(约600℃)。同时研究了溶液的pH值和沉淀剂滴定速度对SiC-YAG陶瓷复合粉体包覆性的影响。结果表明pH=9和沉淀剂滴定速度为5ml·min-1时,可以实现共沉淀包覆。

Occurrences of Yttrium in Soil and Its Potential Impacts on Paddy Rice Triticum aestivum

[Objective] The effects of yttrium nitrate （YNO3） on biomass and antioxi- dant systems of paddy rice （Yttrium （Y）; Oxidative stress; Dismutases （SOD）; Per- oxidases （POD）, Catalases （CAT）, Paddy rice （Triticum aestivum）） together with the occurrences of Y in soils were investigated to assess its ecotoxicological effects on plant. [Method]Y solutions with various concentrations were sprinkled on soil sam- ples, which were well mixed and then put into culture dishes to culture paddy rice seeds for further evaluation. [Result] The results indicated that 25-100 mg/kg Y treatments significantly increased the biomass （total weight, root weight, shoot weight and leaf weight）, chlorophyll （CHL） content and protein content of paddy rice, whereas 200-800 mg/kg Y treatments had a converse effect. Similarly, biomarker for the antioxidant systems including superoxide dismutases （SOD）, peroxidases （POD） and catalases （CAT） all exhibited similar trends in both shoots and roots of paddy rice. At the same time, the malonaldehyde （MDA） content increased at from 25 to 100 mg/kg and decreased with concentrations of Y from 100 to 800 mg/kg in both shoots and roots of paddy rice. This indicated that Y could stimulate the growth of plant at low concentration, but inhibit the growth at relatively high concen- tration. [Conclusion] The levels of Y were 641＋49, 328_＋16 and 473_＋40 mg/kg in soils collected from mining area, farmland and navel orange orchard respectively. The levels of Y in the investigated area were higher than the benefit level （100 mg/kg）, which could cause low biomass as well as low activity of SOD, POD and CAT in paddy rice. Therefore, a more careful use of Y is necessary in crop management.

布里渊散射深入研究Y_(3-x)Bi_xFe_5O_(12)晶体中的磁振子和声学声子(英文)

我们选用x =0 ,0 1 4 ,0 36 ,0 5 4 ,和 0 92的Y3 xBixFe5O12 系列单晶 ,开展了比早期实验更为深入的布里渊散射研究。实验发现对于Bi YIG晶体 ,照射在样品上小于 5mW的激光功率为最佳激发功率。布里渊散射结果表明Y3 xBixFe5O12 晶体中的磁性能和机械性质与Bi含量密切有关。此实验观测到了两种体波性质的磁振子 ,一个是热激发的自旋波 ,另一个被确认为静磁模。实验还发现声学声子的散射强度和声速随Bi含量的增加而减少。

W2012001工艺设计改进推动EcoRidge项目内关键稀土回收

PeleMountainResourcesInc．（TSXV：GEM）宣布工艺设计改进已使得安大略省埃利奥特湖EcoRidge稀土和铀矿项目内的关键稀土氧化物实现了更高的回收率，包括钕、镝和钇氧化物。

江西稀土和钨精矿价格大幅下跌 加强开采监管势在必行

据报道，截至11月上旬，赣州市稀土、钨精矿价格延续上月运行趋势，继续大幅下跌。其中，部分稀土品种及钨精矿市场零售价格跌幅有所扩大。11月上句高钇氧化物市场零售价每吨36万元，中钇氧化物每吨36万元，较上月分别下跌14．28％和10％；钨精矿市场零售价每吨13．5万元，较上月下跌8．78％。

赣州市钨精矿稀土价格继续上涨

5月份，赣州市稀土、钨精矿价格继续上涨，且涨幅较4月份有所扩大。据赣州市价格监测，高钇氧化物及中钇铕化物均由4月每吨20万元涨至23万元，每吨上涨3万元，涨幅15％。钨精矿由每吨13．2万元涨至15．5万元，每吨上涨2．3万元，涨幅17．4％。目前，稀土、钨精矿价格涨势依然强劲，价格水平处于历史高位。

Theoretical Aspects on Doped-Zirconia for Solid Oxide Fuel Cells:from Structure to Conductivity

Solid oxide fuel cells(SOFCs)are regarded to be a key clean energy system to convert chemical energy(e.g.H_(2) and O_(2))into electrical energy with high efficiency,low carbon footprint,and fuel flexibility.The electrolyte,typically doped zirconia,is the"state of the heart"of the fuel cell technologies,determining the performance and the operating temperature of the overall cells.Yttria stabilized zirconia(YSZ)have been widely used in SOFC due to its excellent oxide ion conductivity at high temperature.The composition and temperature dependence of the conductivity has been hotly studied in experiment and,more recently,by theoretical simulations.The characterization of the atomic structure for the mixed oxide system with different compositions is the key for elucidating the conductivity behavior,which,however,is of great challenge to both experiment and theory.This review presents recent theoretical progress on the structure and conductivity of YSZ electrolyte.We compare different theoretical methods and their results,outlining the merits and deficiencies of the methods.We highlight the recent results achieved by using stochastic surface walking global optimization with global neural network potential(SSW-NN)method,which appear to agree with available experimental data.The advent of machine-learning atomic simulation provides an affordable,efficient and accurate way to understand the complex material phenomena as encountered in solid electrolyte.The future research directions for design better electrolytes are also discussed.

Improving oxidation resistance of porous FeAl-based intermetallics with high boron/yttrium alloying

The coalloying with high contents of chromium(Cr),boron(B)and yttrium(Y)for porous B2-structured FeAl intermetallics fabricated through reactive synthesis was conducted.The oxidation behaviors of porous FeAl-based materials were investigated by evaluating the pore-structure evolution,oxidation kinetics and oxide-scale configuration.The results show that with the coalloying of high contents of Cr,B and Y,the oxidation mass gains of porous FeAl materials at 600−800℃ are significantly reduced.The combination of B enriched on the surface of oxide scales and Y located at the scale−metal interface promotes the formation of thin protective nodularα-Al_(2)O_(3) oxide scales.It is indicated that introducing relatively high contents of reactive elements such as B and Y can benefit the selective growth ofα-Al_(2)O_(3) scales at relatively low temperatures without pre-treatment.