Zn2SnO4纳米线高压下的相变研究

 利用金刚石对顶压砧（DAC）对具有反尖晶石结构的透明导体氧化物Zn₂SnO₄（ZTO）纳米线进行了原位高压同步辐射角散X射线衍射（ADXRD）研究。结果发现：在压力为12.9 GPa附近,晶体的对称性降低,并发生晶体结构相变,产生中间过渡相;当压力为32.7 GPa时,发生高压相变,形成高压相。在样品加压前后,纳米线的形貌发生了很大的变化。通过Birch-Murnaghan方程,拟合得到B′₀=4时的体弹模量B₀ =(168.6±9.7) GPa。     

不同压制压力下NiFe2O4纳米固体的ESR研究

 以反滴共沉定法制备了NiFe₂O₄纳米微粉，并在不同压力下将其压制成纳成米固体，然后用XRD谱和ESR谱研究了NiFe₂O₄纳米固体结构和界百状态随压制压力的变化。实验结果表明，NiFe₂O₄纳米固体的结构在高压下没有明显的变化，但其ESR谱的共振线宽和g因子值随着压力升高均表示出先逐渐增大至最大值，然手缓慢下降的规律。这种变化可以归因于纳米固体内部界面离子间的磁相互作用在压力的下所发生和变化。这引起实验结果境示，对于NiFe₂O₄纳米固体而言，最佳的成型压力是4.5 GPa，在此压力下，NiFe₂O₄纳米粒子既可以被压制成致密的纳米固体，又能够保留下它们的纳米结构和纳米性质。     

TiN/TiB2纳米复合材料的合成与性能

 结合高能球磨和高温高压实验技术,制备了块体TiN/TiB₂纳米复合材料。通过X射线衍射和拉曼光谱对材料的微观结构进行了研究。结果表明,采用金属Ti和六方BN为原料,在球磨过程和高温高压实验过程中,TiN先于TiB₂形成,球磨70 h后有少量的纳米晶TiN开始形成。在高温高压实验中,在样品腔的合成温度低于1 300 ℃时,没有TiB₂出现;当温度达到1 300 ℃后,合成出了TiN和TiB₂的复合材料。对所合成的块状材料的热膨胀性和导电性能进行了测试。     

静高压下Al80Mn14Si6合金准晶相形成的研究

 本文首次研究了Al₈₀Mn₁₄Si₆合金在静高压下准晶相得形成。利用静高压熔态淬火方法，在压力2.8和3.1 GPa下得到淬火的Al-Mn-Si样品。电子和X射线衍射实验表明，高压淬火样品中含有准晶二十面体相和非晶相。X射线衍射实验还表明，高压淬火样品经350 ℃退火一小时基本上没有发生变化；而经过500 ℃退火一小时后，准晶相晶化为α-Al₇₃Si₁₀Mn₁₇相。另外，电子衍射实验表明，高压淬火后样品中还存在其它中间亚稳相。本文还讨论了静高压熔态淬火方法的适用性。     

制备温度对TiO2基膜表面非晶态ZnO薄膜发光特性影响的研究

利用电子束热蒸发镀膜的方式，以高纯度的ZnO和TiO₂颗粒为原料，以Si为基底在有氧的气氛中制备ZnO/TiO₂复合薄膜。研究制备温度对ZnO/TiO₂薄膜的结构以及发光性能的影响。通过拉曼(Raman)谱和X射线衍射(XRD)谱分析了ZnO/TiO₂薄膜的结构，表明所制备的ZnO薄膜为非晶态。用光致发光 (PL) 谱表征了它的发光特性，数据表明在250℃时制备的非晶态ZnO薄膜在波长389nm处具有极强的紫外光发射，在波长431nm处发出很强的紫光，在波长519nm处发出较强的黄绿光。     

纳米晶ZnO可见发射机制的研究

利用化学沉淀法制备了纳米ZnO粉体,室温下测量了样品的光致发光谱(PL)、X射线衍射谱(XRD),给出了样品的透射电子显微照片(TEM).X射线衍射(XRD)的结果表明:纳米晶ZnO具有六角纤锌矿晶体结构,颗粒呈球形或椭球形.观察到二个荧光发射带,中心波长分别位于398 nm的紫带和510 nm的绿光带.发现随退火温度升高,粒径增大,紫带的峰值减弱、绿带的峰值增强.证实了纳米晶ZnO绿光可见发射带来自氧空位形成的施主和锌空位形成的受主之间的复合.     

ZnO:Er3+纳米晶的制备及发光性质研究

为了探讨稀土Er3 与纳米ZnO基质之间的能量传递,利用化学方法制备了ZnO:Er3 纳米晶,测量了样品的X射线衍射谱(XRD)、光致发光谱(PL)和激发谱(PLE).X射线衍射结果表明,ZnO:Er3 具有六角纤锌矿晶体结构.室温下,在365 nm激发下,在ZnO宽的可见发射背景上,观测到了Er3 的激发态4S3/2(550 nm),2H11/2(521 nm)和4F5/2(456 nn)的特征发射.分析了ZnO:Er3 纳米晶的带边发射和稀土Er3 的特征发射的峰值强度随掺Er3 浓度的变化关系,比较了ZnO:Er3 与未掺杂的ZnO的光致发射峰值强度的变化,给出了稀土Er3 的激发态4S3/2→4I15/2,2H11/2→4I15/2和4F5/2→4I15/2的发射机制,证实了纳米ZnO基质与稀土Er3 离子之间存在能量传递.     

高压处理对BiSrCaCu2Oy超导电性的影响

 本文在高T_c超导体BiSrCaCu₂O_y常压制备的基础上，研究了热压烧结和冷压处理对其形成、结构及超导电性的影响，并与常压结果进行了比较。结果表明，高压可以使样品的合成时间缩短，合成温度降低。但同时它也抑制了晶格参数较大的相（高T_c相）的形成，使小晶格参数的杂相含量增多。对于提高样品的超导电性而言，1.5 GPa时一个较好的压力点。     

Ti1-xCexO2体系纳米粉体的制备及其结构表征

 采用溶胶凝胶法制备了纳米Ti_1-xCe_xO₂系列样品。利用X射线衍射（XRD）、透射电子显微镜（TEM）、高分辨电子显微镜（HRTEM）对纳米Ti_1-xCe_xO₂系列样品颗粒尺寸、形貌以及固溶区范围和物相组成进行了研究；同时，采用Rietveld结构精修的方法研究了Ce的不同掺杂量对TiO₂晶体结构的影响。实验结果表明，Ce掺杂TiO₂能够形成Ti_1-xCe_xO₂固溶体，Ti_1-xCe_xO₂的固溶区范围在x=0～0.06之间，Ti_1-xCe_xO₂的晶粒度为5～10 nm，平均颗粒粒度约35 nm，且粒度均匀。     

ZnO∶Eu3^＋纳米晶的制备及发光性质研究

为了探讨稀土Eu^3＋与纳米ZnO基质之间的能量传递,利用溶胶-凝胶法（Sol-Gel）制备了ZnO∶Eu^3＋纳米晶,测量了样品的X射线衍射谱（XRD）、光致发光谱（PL）和激发谱（PLE）。X射线衍射结果表明,ZnO∶Eu^3＋具有六角纤锌矿晶体结构。观察到稀土Eu^3＋强而窄的特征发射和ZnO基质弱而宽的可见发射。分析了稀土Eu^3＋激发态5^D0→7^F1,5^D0→7^F3和5^D0→7^F2特征发射机制。给出了Eu^3＋离子特征发射的峰值强度随掺Eu^3＋浓度增加而增强的变化关系,证实了纳米ZnO基质与稀土Eu^3＋离子之间存在能量传递。比较了Eu^3＋离子5^D0→7^F1磁偶极跃迁（MD）与5^D0→7^F2电偶极跃迁（ED）的相对强度,证实了在ZnO纳米晶基质中大多数Eu^3＋占据了对称性较低的格位。     

微波吸收法研究ZnO光电子衰减过程

微波吸收无接触测量技术可以用于半导体粉体材料、微晶材料等研究光生载流子衰减过程。本文采用微波吸收法在室温下分别测量了ZnO纳米材料和微晶材料的光电子衰减过程。发现在紫外激光短脉冲激发下,两种材料的导带光电子寿命有很大的差异,ZnO微晶粉体材料的光电子寿命为50ns,而ZnO纳米材料的光电子寿命仅为10ns。分析认为纳米ZnO的光电子寿命缩短是由于纳米ZnO晶体的表面积远远大于体材料的表面积,纳米材料的表面形成了大量的缺陷能级,加速了光电子的表面复合,缩短了光电子的寿命。纳米材料内部缺陷增多和量子限域效应同样会缩短光电子的寿命。     

锡催化剂助生长法制备孪晶ZnO纳米线及其结构表征

用SnO和Zn的均匀混合物在高温下共烧通过VLS机制制备出孪晶ZnO纳米线的均匀结构。SEM图像显示孪晶ZnO纳米线的直径在100~200nm之间,长度在几十微米到几百微米之间的范围内,有的甚至达到了毫米级,产率也非常的高。TEM图像中ZnO孪晶纳米线顶端的金属Sn颗粒表明了孪晶结构的Sn催化生长。高分辨电子图谱显示了氧化锌纳米线孪晶结构的特征。电子衍射分析发现孪晶氧化锌的晶带轴的方向是[0110],孪晶面为(1013),并且通过明场像和暗场像分析了孪晶纳米线的晶格关系,确定了孪晶纳米线的汽-液-固(VLS)生长机制。     

Shuttle-like ZnO nano/microrods: Facile synthesis, optical characterization and high formaldehyde sensing properties

Shuttle-like ZnO nano/microrods were successfully synthesized via a low temperature (80 °C), “green” (without any organic solvent or surfactant) and simple hydrothermal process in the solution of zinc chloride and ammonia water. X-ray diffraction and Raman spectroscopy indicated that the ZnO nano/microrods are a well-crystallized hexagonal wurtzite structure. Yet photoluminescence analysis showed that abundant intrinsic defects (52.97% electron donor defects and 45.49% electron acceptor defects) exist on the surface of ZnO crystals. Gas sensors based on the shuttle-like ZnO nano/microrods exhibited high sensitivity, rapid response-recovery and good selectivity to formaldehyde in the range of 10-1000 ppm at an optimum operating temperature of 400 °C. Through applying linear fitting to the plot of sensitivity versus formaldehyde concentration in logarithmic forms, the chemisorbed oxygen species on the ZnO surface were found to be O²⁻ (highly active among O₂, O₂⁻ and O⁻ species). Notably, formaldehyde can be easily distinguished from acetaldehyde with a selectivity of about 3. The high formaldehyde sensitivity is mainly attributed to the synergistic effect of abundant electron donor defects (52.97%) and highly active oxidants (surface adsorbed O²⁻ species) co-existed on the surfaces of ZnO.     

Improved photocatalytic performance of Pd-doped ZnO

ZnO and Pd-doped ZnO photocatalysts with different molar ratio of Pd/Zn (1/100, 2/100, 3/100 and 4/100) were prepared by a sol-gel method. The photocatalysts prepared were characterized by BET surface area, X-ray diffraction (XRD), UV/vis diffuse reflectance (DRS) and surface photovoltage spectroscopy (SPS), respectively. The results show that doping Pd into ZnO decreases the BET surface area. The XRD spectra of the Pd-doped ZnO catalysts calcined at 773 K show only the characteristic peaks of wurtzite-type. Doping Pd into ZnO increases the absorbance of ZnO in visible region and enhances the photoinduced charge separation rate. The photocatalytic activity of Pd-doped ZnO photocatalysts for decolorization of methyl orange (MO) solution was evaluated, of all the photocatalysts prepared, the Pd-doped ZnO with 3/100 possesses the best photocatalytic activity. The results of further experiments show that increased adsorption ability of light and high separation rate of photoinduced charge carriers all play an important role in promotion of photocatalytic activity of Pd-doped ZnO nanostructure.     

Eu和Dy包覆纳米ZnO的发光特性的研究

通过共沉淀法制备了Eu和Dy包覆的纳米ZnO材料.X射线衍射被用来测量样品的结构和粒径.光致发光测量显示325 nm的紫外光能很好激发Eu3+的612 nnm的红光发射和Dy3+的484和575 nm发射,显示氧化锌基质与Eu3+和Dy3+之间实现了能量传递,并对能量传递的机制进行了讨论.在Eu和Dy共同包覆的样品中,通过能量传递可能在紫外激发下实现白光发射.     

Synthesis and characterizations of new morphological ZnO and Ce-doped ZnO powders by sol–gel process

ZnO micro-tori and cerium-doped hexangulars ZnO have been prepared by the sol–gel method under methanol hypercritical conditions of temperature and pressure. X-ray diffraction (XRD) measurement has revealed the high crystalline quality and the nanometric size of the samples. Scanning electron microscopy (SEM) has shown that the ZnO powder has a torus-like shape while that of ZnO:Ce has a hexangular-like shape, either standing free or inserted into the cores of ZnO tori. Transmission electron microscopy (TEM) has revealed that the ZnO particles have sizes between 25 and 30 nm while Ce-doped ZnO grains have diameters ranging from 75 nm to 100 nm. It is demonstrated from photoluminescence (PL) spectra at room temperature that the introduction of cerium in ZnO reduces the emission intensity lines, particularly the ZnO red and green ones.     

ZnO/Cu_2O异质结纳米阵列制备及光催化性能

利用湿化学法在FTO玻璃基底上制备了高度规整的ZnO纳米棒阵列(ZnO NRAs),以此为衬底,采用磁控溅射法在ZnO NRAs表面沉积Cu_2O薄膜。分别用X射线衍射仪、X射线光电子能谱、扫描电镜、光致光谱、紫外可见分光光度计和电化学工作站对样品的物相、形貌、吸收光谱、光电性能进行了表征,用甲基橙(MO)模拟有机物废水研究复合材料的光催化性能。结果表明:ZnO纳米棒为六方纤锌矿结构,其直径约为80~100 nm,长约2~3μm,棒间距约100~120 nm。立方晶系的Cu_2O颗粒直径约为100~300 nm,形成致密膜层并紧密覆盖在ZnO NRAs表面上,构成ZnO/Cu_2O异质结纳米阵列(ZnO/Cu_2O HNRAs)结构。与纯ZnO NRAs和Cu_2O相比,ZnO/Cu_2O HNRAs在可见光范围内的吸收显著增强,吸收波长向可见光方向偏移。ZnO/Cu_2O HNRAs的载流子传递界面的电荷转移速度快,有效促进了光生电子和空穴的分离。在紫外-可见光照射65 min后,ZnO/Cu_2O HNRAs的降解效率为94%,分别是纯ZnO NRAs和Cu_2O的18倍和1.7倍。     

TiO2/SnO2复合光催化剂的制备及性能

采用特殊液相沉淀法制备纳米级的TiO2/SnO2复合粒子,对制备的纳米TiO2/SnO2采用XRD、TEM等手段进行了表征。用它做催化剂在日光下对甲基橙溶液进行了光催化实验。结果表明,纳米级TiO2/SnO2复合催化剂比纯TiO2的催化活性好,当SnO2摩尔百分数为20%时效果最佳,在60min内对10mg/L的甲基橙水溶液的降解率高达90.2%,具有较好的光催化活性。     

Influence of oxygen pressure of ZnO/glass substrate produced by pulsed filtered cathodic vacuum arc deposition

The effects of oxygen pressure on the structural and optical properties of high quality transparent conductive ZnO thin films were studied in detail. ZnO thin films were prepared by pulsed filtered cathodic vacuum arc deposition system under various oxygen pressures on glass substrate at room temperature. With increasing oxygen pressure, the structure and optical properties of films change. The structural and optical properties of the ZnO thin films were investigated using X-ray diffraction, transmittance spectrometry, refractive index, oscillator parameters, energy band gap and Urbach tail. The films show c-axis oriented (0 0 2) hexagonal wurtize crystal structure. It has been found that the grain size of ZnO thin films increases from 16.9 to 22.6 nm with the increase of oxygen pressure from 3.8×10⁻⁴ to 6.9×10⁻⁴ Torr and the crystallinity is enhanced. Average transmittance is about 90% in the visible region of the ZnO thin films. From optical transmittance spectra of ZnO films, the absorption edge shifts towards the taller wavelength with an increase in oxygen pressure. The energy band gap decreases from 3.31 to 3.20 eV with an increase in oxygen pressure. The packing density investigation shows in ZnO films high packing densities (above 0.78) can be obtained.     

石英衬底上Au缓冲层对ZnO薄膜微结构的影响

采用单源化学气相沉积(SSCVD)法,在石英衬底上以Au为缓冲层,Zn4(OH)2(O2CCH3)6.2H2O为固相源制备ZnO薄膜。SEM和XRD测试ZnO薄膜的微结构,结果表明:相对于SiO2衬底上生长的ZnO薄膜,Au/SiO2衬底上生长的ZnO薄膜具有较好的结晶质量和表面平整度;对制备ZnO薄膜的衬底温度进行了工艺优化,结果表明:500℃时制备的ZnO薄膜颗粒大小均匀,结晶质量较好;通过荧光光谱仪对Au/SiO2衬底上的ZnO薄膜进行光致发光(PL)谱测试,ZnO薄膜在400nm出现紫光发射峰,而没有出现与缺陷相关的深能级发射峰,表明ZnO薄膜具有较好的结晶质量。