退火对Pb辐照Al2O3单晶发光特性的影响

研究了230MeV的²⁰⁸Pb²⁷⁺辐照Al₂O₃样品及随后在600,900,1100K高温条件下退火后的光致发光特性。从辐照样品的测试结果可以清楚地看到在波长为390,450nm处出现了强的发光峰。辐照量为1×10¹³ions/cm²时,样品的发光峰最强。经过600K退火2h后测试结果显示,380nm发光峰剧烈增强,而其他发光峰显示不明显。在900K退火条件下,380nm的发光峰开始减弱,而在360,510nm出现了明显的发光峰,至到1100K退火完毕后380nm的发光峰完全消失,而360,510nm的发光峰相对增强。从被辐照样品的FTIR谱中看到,波数在460~510cm^-1间的吸收是振动模式,经过离子辐照后,吸收带展宽,随着辐照量的增大,Al₂O₃振动吸收峰消失,说明Al₂O₃振动模式被完全破坏。1000~1300cm^-1之间为Al—O—Al桥氧的伸缩振动模式,辐照后吸收带向高波数方向移动,说明其振动模式受到影响。辐照剂量较小的样品,损伤程度相对较低,经退火晶化后,振动模式基本恢复到单晶状态;辐照剂量较高的样品,损伤程度大,退火处理后表面变得较粗糙,振动模式并未出现,说明结构破坏严重。     

高温注氦及随后230MeV的208Pb27+辐照Al2O3的光致发光谱的研究

主要研究了110keV的He⁺高温注入Al₂O₃单晶及1.1MeV/u的²⁰⁸Pb²⁷⁺辐照注氦Al₂O₃样品的光致发光的特性. 从测试结果可以清楚地看到在375nm, 413nm和450nm处出现了强烈的发光峰. 并且在600K, 5×10sup>16ions/cm²剂量点, 样品的发光峰是最强的. 这 表明He⁺注入Al₂O₃后使带隙中深的辐射中心复合的效率大幅度提高, 极大的增强了其发光强度,而且发光伴随着蓝移现象. 而经过高能²⁰⁸Pb²⁷⁺辐照后的样品, 在390nm出现了新的发光峰,从FTIR谱中我们能够看到, 可能是²⁰⁸Pb²⁷⁺辐照相对沉积膜出现一定的晶化, 其中含有许多纳米尺寸的Al₂O₃晶粒所致.     

快重离子辐照对非晶态SiO2薄膜光致发光谱的影响

用湿氧化法在单晶硅表面生长了非晶态SiO2薄膜,再用高能Pb和Xe离子对薄膜进行辐照,最后用荧光光谱分析了辐照参数(剂量、电子能损值)与发光特性改变的相关性.研究发现,快重离子辐照能显著影响薄膜的发光特性,进一步分析显示,辐照导致了SiO2薄膜内O-Si-O缺陷、缺氧缺陷和非桥式氧空位缺陷的产生,且缺氧缺陷和非桥式氧空...     

Fe离子注入多晶Al2O3的光电子能谱研究

本文应用光电子能谱(XPS)方法分析Fe离子注入多晶Al₂O₃样品中各离子的存在状态。通过微机对谱峰进行高斯拟合处理,得出注入离子Fe不同价态的相对含量。 关键词：     

SO2-4/Fe2O3-Al2O3纳米固体酸的红外光谱研究

用IR光谱研究了SO4^2-/Fe2O3-Al2O3纳米固体酸在不同焙烧温度下表面结构与酸性的变化，结果表明，当焙烧温度在450－500℃时，双齿螯合配位结构特征谱带齐全，酸性强，小于450℃时，双齿螯合配位特征谱带不齐全，酸性不强，而大于500℃时，随着温度的升高，特性谱带区域宽化，特征峰消失，酸性变弱。此外，从Fe-O纳米颗粒的特征振动带显示可得知，样品的粒径小于30nm。     

Pt/CeO2-ZrO2/Al2O3催化剂的光谱表征

利用拉曼光谱表征了不同方法添加ＣｅＯ２－ＺｒＯ２混合氧化物对Ｐｔ／Ａｌ２Ｏ３催化剂的影响,并采用了ＸＲＤ,Ｈ２化学吸附,ＢＥＴ表征了相应的分散度影响。结果表明：Ｃｅ、Ｚｒ、与金属Ｐｔ存在着强的相互作用,而ＣｅＯ２－ＺｒＯ２以盐的形式加入时,高度分散在Ａｌ２Ｏ３载体上,提高贵金属Ｐｔ的分散度,进而提高了反应的活性。     

Al2O3陶瓷衬底碳离子预注入对金刚石薄膜应力的影响研究

通过对Al2O3陶瓷衬底进行碳离子预注入，大大降低了Al2O3陶瓷衬底上金刚石薄膜的应力，且金刚石薄膜中的压应力随碳离子注入剂量的增加而线性下降.通过对Al2O3陶瓷衬底注入前后的对比分析表明，高能量的碳离子注入Al2O3陶瓷衬底以后，并没有产生过渡层性质的新相，而是大量累积在Al2O3晶格的间隙位，使Al2O3晶格发生畸变.而且，随着碳离子注入剂量的增加，Al2O3基体内晶格畸变加剧，注入层残余压应力也随之上升.当金刚石薄膜沉积以后，在降温的过程中衬底这部分残余应力得到释放，从而部分弛豫了金刚石薄膜中的 关键词： 金刚石薄膜 应力 离子注入 Al2O3陶瓷     

CuO/Al2O3、CuO/CeO2-Al2O3和CuO/La2O3-Al2O3催化剂中CuO物种被CO氧化的比较

用浸渍法制备了CuO/Al2O3 (Cu/Al)、CuO/CeO2- Al2O3 (Cu/CeAl)和CuO/La2O3-Al2O3(Cu/LaAl)催化剂. 通过原位XRD、Raman和H2-TPR方法， 对催化剂中的CuO物种以及CuO-Al2O3的固-固相反应进行了表征. 结果表明，对于Cu/Al催化剂，CuAl2O4存在于CuO与Al2O3层之间，CuO以高分散和晶相两种相态存在于催化剂的表层；对于Cu/CeAl催化剂，除了少量高分散和晶相的CuO存在于表层外，大部分CuO迁移到了CeO2的内层，     

退火温度对Er/Yb共掺Al2O3薄膜的光致荧光光谱的影响

通过对不同退火条件下Er/Yb共掺Al2O3薄膜光致荧光(PL)光谱的系统分析,研究了高Er/Yb掺杂浓度所导致的晶体场变化对薄膜PL光谱的影响,并结合薄膜结构分析,探讨了Al2O3薄膜的结晶状态在Er3+激活、PL光谱宽化中的作用及可能的物理机理.研究结果表明:退火处理所导致的Er3+ PL光谱的变化与薄膜的微观状态之间有着密切的联系.在600-750℃范围内,薄膜呈非晶态结构,薄膜荧光强度的增加主要是薄膜内缺陷减少所致;在800-900℃范围内,γ-Al2O3相的出现是导致荧光强度明显增加的主要原因;当退火温度为1000℃时,Er,Yb的大量析出致使荧光强度的急剧下降.此外,对PL光谱线形分析表明,各子能级跃迁的相对强度变化是导致荧光光谱宽化的主要因素.     

利用倾斜角度蒸发法制备Al/Al2O3/Al超导隧道结

利用电子束曝光法对双层光刻胶进行曝光来制备悬空掩模结构,在此基础上利用电子束蒸发系统采用倾斜角度蒸发法制备铝超导薄膜,采用热氧化法在底层铝膜表面形成氧化铝作为势垒层,制备出铝SIS超导隧道结,并在360mK的情况下对铝结进行了Ⅰ～Ⅴ特性的初步测量.铝隧道结的成功制备为下一步构建超导量子比特器件,研究其量子特性奠定了良好的基础.     

重离子辐照SiO2的光致发光

基于荷能离子与固体相互作用特点,提出了一种新的制备光致发光材料的方法-- 高能重离子辐照. 用这种方法研究了SiO2薄膜的光致发光特性,发现高能84K r和40Ar离子辐照可在注碳SiO2薄膜样品中产生强的蓝-紫光发射带,掺杂碳增强了辐照样品的发光特性.     

低束流Nd3+注入硅基薄膜结构及光致发光的研究

采用金属蒸气真空弧离子源（MEVVA）制备了掺Nd^3 硅基薄膜材料。用扫描电镜和X射线衍射观测了表面形貌及物相结构随注入条件、退火温度的变化，样品经1000℃退火处理形成NdSi相钕硅化合物。测试了样品的光致荧光谱，在254nm（－5.0eV）光激发下获得了紫蓝光区（410－430nm）和红光区（746nm）蒌光发射，随着退火温度的升高，荧光强度增大。746nm红光光谱显示了Nd^3 特征光发射跃迁（^4F7/2,^4S3/2→^4I9/2），讨论了注入层结构与荧光发射的相关性。     

C+2离子轰击聚乙烯合成C26晶体

C2^＋离子轰击聚乙烯合成了由C26分子六角形密堆积组成的一种新碳晶体对高分辨透射电子显微镜、电子衍射和飞行时间质谱的研究证实,构成晶体的C26分子具有笼状富勒烯结构。     

Eu3+掺杂Bi2O3-PbO-B2O3-ZnO玻璃光谱性质

用高温融熔法制备了Eu³⁺掺杂浓度为1%的(60-x)Bi₂O₃xPbO30B₂O₃10ZnO(x=0,10,30,摩尔分数)玻璃.测定了玻璃的差热分析曲线、吸收光谱、声子边带谱、发射光谱与激发光谱.由发射光谱与稀土Eu³⁺离子光学跃迁矩阵元的特点,计算了Eu³⁺光学跃迁的J-O参数Ω₂与Ω₄.结果显示强度参数Ω₂随着PbO量的增加而略减少,表明材料的对称性略增加,Eu—O键强减弱,共价性降低.PbO组分的增加,使玻璃的结晶起始温度与软化温度差降低,导致玻璃的热温度性变差.随着PbO的增加,电-声子耦合减弱.     

Synthesis and characterization of Cr doped CdS nanoparticles stabilized with polyvinylpyrrolidone

Undoped and Cr (2 and 4 at.%) doped CdS nanoparticles were synthesized in aqueous solution by simple chemical co-precipitation method using polyvinylpyrrolidone (PVP) as stabilizer. The prepared nanoparticles were examined using X-ray diffraction (XRD), energy dispersive X-ray spectroscopy (EDAX), transmission electron microscopy (TEM), UV-vis diffuse reflectance spectroscopy (DRS) and Fourier transform infrared spectroscopy (FTIR). XRD pattern of the nanoparticles showed cubic zincblende phase with the particle size of the order of 3-4 nm, which was in good agreement with the results obtained from TEM studies. The EDAX analysis confirmed that Cd, Cr and S elements were present in the samples and the variations between the target and actual compositions were microscopic. UV-vis DRS spectra of the samples exhibited decrease in the band gap which further attests the incorporation of Cr into CdS nanoparticles. FTIR studies revealed that the undoped as well as Cr doped CdS nanoparticles were capped by polyvinylpyrrolidone.     

A TEM study of the stability of intermetallic precipitates in Zircaloy nuclear reactor components

Transmission electron microscopy (TEM) has been used to characterise the radiation-induced changes in Zr(Cr,Fe)₂ intermetallic precipitates present in Zircaloy-2 and -4 nuclear reactor components. The results show that the precipitates become completely amorphous at low fluences (<1 × 10²⁴ n·m⁻²) during low temperature neutron irradiation (about 330 K) with no associated chemical composition change. At higher temperatures (about 573 K), a duplex amorphous-crystalline structure is produced. The precipitates retain a crystalline core surrounded by a peripheral amorphous layer that advances inwards with increasing fluence. The amorphous outer layer is coincident with a depletion of Fe that is dispersed into the surrounding hcp -phase matrix. Subsequent post-irradiation heat-treatment below the amorphous phase recrystallisation temperature results in the back-diffusion of Fe into the precipitates.     

Heavy ion induced damage in MgAl2O4, an inert matrix candidate for the transmutation of minor actinides

Magnesium aluminum spinel (MgAl₂O₄) is a material selected as a possible matrix for transmutation of minor actinides by neutron capture or fission in nuclear reactors. To study the radiation stability of this inert matrix, especially against fission product impact, irradiations with heavy energetic ions or clusters have been performed. The high electronic energy losses of the heavy ions in this material led to the formation of visible tracks as evidenced by transmission electron microscopy for 30 MeV C₆₀-Buckminster fullerenes and for ions of energy close to or higher than fission energy (²⁰⁹Bi with 120 MeV and 2.38 GeV energy). The irradiations at high energies showed a pronounced degradation of the spinel. Additionally, MgAl₂O₄ exhibited a large swelling for irradiation at high fluences with fission products of fission energy (here I-ions of 72 MeV) and at temperatures ≤ 500 °C. These observations are discussed from the technological point of view in the frame of using MgAl₂O₄ as an inert matrix for the transmutation of minor actinides.     

Effect of swift heavy ion irradiation on thermal,optical and structural properties of poly vinylidene chloride

Poly vinylidene chloride (PVDC) irradiated with lithium (50 MeV), carbon (85 MeV), nickel (120 MeV) and silver ions (120 MeV) having fluence range of 1 × 10¹¹ ions/cm² to 3 × 10¹² ions/cm² have been studied using different techniques i.e. XRD (X-ray diffraction), FTIR (Fourier transform infrared), UV–Visible and TGA (thermo-gravimetric analysis). In XRD analysis, the intensity of diffraction peaks of PVDC irradiated with lithium ions was enhanced at lower fluence as compared to pristine. The shift in optical absorption edge in irradiated PVDC was correlated with the decrease in optical band gap energy. The distinguishable characteristic peaks were observed due to UV–Vis analysis, in lithium irradiated samples of PVDC at higher fluences. The % age decrease in optical band gap energy for the respective ions were 30.9%, 34.16%, 81.1%, 87.02% respectively. Formation of double carbon bonds and breaking of C–O and C–Cl bonds with the release of Cl in irradiated PVDC was observed in FTIR spectra. In Thermogravimetric analysis (TGA), the % age weight loss observed for irradiated samples with increase in ion fluence was lesser than the % age weight loss observed in pristine sample.