石英玻璃衬底上纤锌矿Mg0.25Zn0.75O薄膜的结构及光学性能

MgxZn1-xO材料是一种新型光电功能材料.采用溶胶凝胶法在石英玻璃上制备了Mg0.25Zn0.75O薄膜,理论结合实验研究了Mg0.25Zn0.75O薄膜的结构和光学性能.研究表明,石英玻璃衬底上Mg0.25Zn0.75O薄膜呈六方纤锌矿结构,薄膜均匀,平均粒径约为20 nm.吸收光谱表明吸收带边始于360 nm,相应的禁带宽度为3.83 eV.发光光谱包含三个发射峰,分别位于384.9 nm(3.23 eV),444.8 nm(2.79 eV)和533.6 nm(2.32 eV),激发光谱峰位于378 nm.由于Mg离子的间隙缺陷导致Mg0.25Zn0.75O薄膜晶格增大,禁带宽度变宽,紫外、蓝光和绿光发射分别红移59,14和12.6 nm.     

退火温度对低温生长MgxZn1-xO薄膜光学性质的影响

用射频磁控溅射法在80℃衬底温度下制备出MgxZn1-xO(x=0.16)薄膜,用X射线衍射(XRD)、光致发光(PL)和透射谱研究了退火温度对MgxZn1-xO薄膜结构和光学性质的影响.测量结果显示,MgxZn1-xO薄膜为单相六角纤锌矿结构,并且具有沿c轴的择优取向;随着退火温度的升高,(002)XRD峰强度、平均晶粒尺寸和紫外PL峰强度增大,(002)XRD峰半高宽(FWHM)减小.结果证明,用射频磁控溅射法通过适当控制退火温度可得到高质量MgxZn1-xO薄膜.     

白宝石衬底上生长的MgxZn1-xO晶体薄膜的结构和光学性能

在白宝石 (sapphire)衬底上低温外延生长出了MgxZn1 -xO晶体薄膜 .x射线衍射 (XRD)及能量色散x射线 (EDX)分析表明 ,MgxZn1 -xO薄膜的晶体结构依赖于薄膜中Mg的组分x,随着Mg组分的增大 ,MgxZn1 -xO薄膜的结构从与ZnO晶体一致的六方结构转变为与MgO晶体一致的立方结构 .对MgxZn1 -xO薄膜的紫外透射光谱及紫外光致荧光谱 (UVPL)的分析表明 ,随着Mg组分的增大 ,光学吸收边产生明显的蓝移 ,表明MgxZn1 -xO晶体薄膜的带隙增大 ,且带隙连续可调 .吸收光谱和XRD测量显示 ,带隙高达 5 6 5eV的MgxZn1 -xO晶体薄膜与MgO之间的晶格失配仅为0 16 % .     

MgxZn1-xO/Au/MgxZn1-xO夹层透明导电薄膜的制备及光电性质研究

采用操作简单的溶胶-凝胶法和射频磁控溅射法在石英衬底上分别制备了MgxZn1-xO薄膜和MgxZn1-xO/Au/MgxZn1-xO夹层结构的透明导电薄膜并对样品进行退火处理。利用紫外-可见分光光度计、X射线衍射仪、光致发光、霍尔效应测试对在不同退火温度下薄膜的晶体结构、光学和电学性质进行表征分析,并研究退火温度对其影响。测试结果表明:所制备的薄膜样品均具有良好的c轴(c-axis)取向并呈现出六角纤锌矿结构。Mg组分的增加使得ZnO基薄膜的光学带隙逐渐增大,PL发光谱和吸收光谱的谱线出现了明显的蓝移现象,但薄膜的电学特性有所降低。而在MgxZn1-xO/Au/MgxZn1-xO夹层结构的薄膜样品中,Au夹层的存在使薄膜的光学性质变差,在紫外区域透光率约为60%。但薄膜的电学性质得到明显改善,相比MgxZn1-xO薄膜,其电阻率和迁移率显著提高。此外通过高温退火处理可以有效提高所制备薄膜的晶体质量,进一步提高样品电学特性,其中经过500℃退火后的薄膜迁移率达到了40.9cm2·Vs-1,电阻率为0.005 7Ω·cm。但随着退火温度的进一步升高,薄膜晶体尺寸从25.1nm增大到32.4nm,从而降低了该薄膜的迁移率。因此该夹层结构的MgxZn1-xO/Au/MgxZn1-xO薄膜对于促进ZnO基透明导电薄膜在深紫外光学器件中的应用有重要作用。     

射频磁控溅射法生长MgxZn1-xO薄膜的结构和光学特性

用射频磁控溅射法在80℃的衬底温度下制备出MgxZn1-xO(0≤x≤0.30)薄膜.x射线衍射(XRD)结果表明,MgxZn1-xO薄膜为单相六角纤锌矿结构,没有形成任何显著的MgO分离相,MgxZn1-xO薄膜的择优取向平行于与衬底垂直的c轴;c轴晶格常数随着Mg含量的增加逐渐减小.在MgxZn1-xO薄膜的光透射谱中出现锐利的吸收边,由透射谱估算出MgxZn1-xO薄膜的带隙宽度由3.32eV(x=0)线性地增加到3.96eV(x=0.30).     

梯度组分缓冲层诱导的单一立方相Mg_(0.3)Zn_(0.7)O薄膜外延生长

为了实现MgZnO合金带隙全跨度调制,利用低压MOCVD设备,在c面蓝宝石衬底上采用MgO籽晶层和组分渐变缓冲层控制立方相MgxZn1-xO薄膜的生长,获得了Zn组分达到0.7的单一立方相MgxZn1-xO薄膜,把MgZnO合金带隙调制范围从MgO一侧扩展到了4.45 eV,覆盖了整个日盲紫外波段。对比实验分析表明,这种高Zn组分立方相MgZnO薄膜的生长得益于缓冲层晶格模板的结构诱导作用和适宜的生长温度(350~400℃)。Mg0.3Zn0.7O基MSM结构紫外探测器响应峰位于270 nm,截止波长295 nm。     

高温高压下Mg_xZn_(1-x)O固溶体的制备

研究了高温高压下制备MgxZn1-xO(0.30x0.60)固溶体的过程.在1000—2000℃和4—5.6GPa的条件下,制备出稳定的单一立方相MgxZn1-xO(x=0.4,0.5,0.6)固溶体,解决了常压下MgxZn1-xO的分相问题.通过X射线衍射仪和扫描电子显微镜等测试手段,对MgxZn1-xO样品进行了表征,阐明了立方相MgxZn1-xO的形成机制,给出了高压下MgxZn1-xO固溶体的温度与组分相图.     

利用P-MBE制备高质量MgxZn1-xO的结构和光学特性

利用等离子体辅助分子束外延(P-MBE)的方法,在c平面的蓝宝石衬底上制备了高质量的MgxZn1-xO合金薄膜。通过改变Mg源的温度,得到了不同Mg组份的MgxZn1-xO合金薄膜;通过引入ZnO的低温缓冲层,有效地提高了MgxZn1-xO合金薄膜的结晶质量。随着Mg组份的增加,MgxZn1-xO的X射线衍射的(002)衍射峰逐渐向大角度方向移动。对样品进行光致发光(PL)谱的测量,在室温下观察到了较强的紫外发光。随Mg浓度的增加,紫外发光峰向高能侧移动,并且发光峰逐渐展宽。通过对x=0.15的样品进行变温光谱的测量研究了紫外发光峰起因,得到了MgxZn1-xO的发光是来自于自由激子的发光。自由激子束缚能为54meV。     

MgxZn1-xO单晶薄膜的结构和光学性质

用等离子辅助分子束外延(P-MBE)的方法,在蓝宝石c平面上外延生长了MgxZn1-xO合金薄膜。在0≤x≤0．2范围内薄膜保持着ZnO的纤锌矿结构不变。X射线双晶衍射谱的结果表明生长的样品是单晶薄膜。据布喇格衍射公式计算得到,随着Mg含量的增加,薄膜的品格常数C由0．5205nm减小到0．5185nm。室温光致发光谱出现很强的紫外近带发射(NBE)峰,没有观察到深能级(DL)发射,且随着Mg的掺入量的增加,紫外发射峰有明显的蓝移。透射光谱的结果表明,合金薄膜的吸收边随着Mg离子的掺入逐渐向高能侧移动,这与室温下光致发光的结果是相吻合的,并计算出随着x值增加,带隙宽度从3．338eV逐渐展宽到3．682eV。通过研究Mg0.12Zn0.88O样品的变温光谱,将紫外发射归结为束缚在施主能级上的束缚激子发射。并详细地研究了在整个温度变化过程中,束缚激子的两个不同的猝灭过程以及谱线的半峰全宽与温度变化的关系。     

SrS:Eu,Sm荧光粉的制备及性能表征

制备了用于宽频谱红外上转换的SrS:Eu,Sm荧光粉.XRD分析表明,在1 100℃,灼烧1 h获得的SrS:Eu,Sm样品较理想,为SrS的面心立方结构;激发光谱表明,样品可被紫外和可见光有效激发;样品的荧光发射光谱由4个发射峰组成,峰值分别位于567,589,602和648 nm.红外上转换发光光谱是峰值位于595nm附近的宽带谱,样品的红外响应范围主要位于800～1 400 nm.     

用于日盲波段的MgZnO薄膜材料和紫外探测器

考虑ZnO优秀的物理和化学性能以及由于生长温度低而具有更低的缺陷密度从而易于实现高的光电器件效率等特点，本文采用射频磁控溅射和金属有机化学汽相沉积（MOCVD）方法在石英及蓝宝石衬底上生长了立方结构MgZnO薄膜，制备了MgZnO的MSM型紫外探测器。该器件实现了在日盲（太阳盲）波段的光响应，典型的光响应峰值分别在225和250nm，截止边为230和273nm。     

Electron diffraction on GaAs nanowhiskers grown on Si(100) and Si(111) substrates by molecular-beam epitaxy

The crystal structure of GaAs nanowhiskers grown by molecular-beam epitaxy on Si(111) and Si(100) substrates is investigated using reflection high-energy electron diffraction (RHEED). It is revealed that, in both cases, the electron diffraction images contain a combination (superposition) of systems of reflections characteristic of the hexagonal (wurtzite and/or 4H polytype) and cubic (sphalerite) phases of the GaAs compound. The growth on the Si(111) substrates leads to the formation of nanowhiskers with hexagonal (wurtzite and/or 4H polytype) and cubic (sphalerite) structures with one and two orientations, respectively. In the case of the Si(100) substrates, the grown array contains GaAs nanowhiskers that have a cubic structure with five different orientations and a hexagonal structure with eight orientations in the (110) planes of the substrate. The formation of the two-phase crystal structure in nanowhiskers is explained by the wurtzite—sphalerite phase transitions and/or twinning of crystallites.     

应变纤锌矿ZnO/Mg_xZn_(1-x)O柱形量子点中离子受主束缚激子的光学性质

在有效质量近似下,考虑内建电场效应,采用变分法详细研究了受限于纤锌矿Mg_xZn_(1-x)O/ZnO/Mg_xZn_(1-x)O圆柱形应变量子点中离子受主束缚激子(A~-,X)的带间光跃迁吸收系数随量子点尺寸、Mg含量和离子受主杂质中心位置的变化情况,并和离子施主束缚激子(D~+,X)及自由激子进行了比较.结果表明:随着量子点尺寸的减小,(A~-,X)的光跃迁吸收强度增强,吸收曲线向高能方向移动,出现蓝移现象.随着Mg含量增加,(A~-,X)的光跃迁吸收曲线蓝移,且吸收强度减弱.随着离子受主杂质从量子点的左界面沿材料生长方向移至量子点的右界面,光跃迁吸收曲线向低能方向移动,出现红移现象.此外,与离子施主束缚激子(D~+,X)相比,随着沿材料生长方向掺入杂质位置的变化,光跃迁吸收曲线移动的方向相反.但不管是掺入离子受主杂质还是离子施主杂质,当离子杂质从量子点的左异质界面沿材料生长方向移至右异质界面时,光跃迁吸收峰的移动量大致相同.     

Impurity-stabilized zinc-blende phase of wurtzite compounds

We propose here a new approach to stabilizing the cubic zinc blende phase of semiconductors that are usually more stable in the hexagonal wurtzite phase. We show that this can be done by taking advantage of the valence and conduction band offsets between the cubic and the hexagonal phases. Due to this band offset, it will cost less energy to insert electrons by shallow donors, or insert holes by 3d acceptors in the zinc blende structure, thus stabilizing the cubic phase.     

MgxZn1-xO薄膜的生长及其光学性能

利用金属有机化学气相沉积(MOCVD)法在蓝宝石(1120)衬底上生长高质量的Mg_xZn_1-xO合金薄膜,实验研究了各种不同Mg组分对样品光学性能的影响。通过光致发光荧光衰减特性对激子发光寿命的研究表明,激子的寿命随Mg组分的增加而增加,当Mg组分达到50%时,激子的寿命为872 ps。     

Thermodynamically stable phases of carbon at multiterapascal pressures

Phases of carbon are studied up to pressures of 1 petapascal (PPa) using first-principles density-functional-theory methods and a structure searching algorithm. Our extensive search over the potential energy surface supports the sequence of transitions diamond → BC8 → simple cubic under increasing pressure found in previous theoretical studies. At higher pressures we predict a soft-phonon driven transition to a simple hexagonal structure at 6.4 terapascals (TPa), and further transitions to the face centered cubic electride structure at 21 TPa, a double hexagonal close packed structure at 270 TPa, and the body centered cubic structure at 650 TPa.     

Optical absorption and electron spin resonance of Co2+ in cubic,hexagonal and 4H polytype zinc sulfide

Electron spin resonance and optical absorption measurements are reported for Co²⁺ in structurally pure single crystals of cubic, hexagonal, and 4H polytype ZnS. Co²⁺ spectra corresponding to the four different cation sites expected for these structures were observed, i.e. a cubic center from zinc blende, an axial center from wurtzite, and two different axial centers from the 4H polytype host. The energy of the optical ⁴A₂-⁴T₂ transition and the spin Hamiltonian parameters show characteristic differences for these four centers, which are discussed.     

The structure and optical properties of AlN nanocrystals prepared by Schlenk techniques at atmospheric pressure and low temperature

AlN nanocrystals were prepared in organic solvent at atmospheric pressure and low temperature by the Schlenk technique. Both hexagonal and cubic AlN nanocrystals were obtained. The hexagonal nano-AlN powder possessed a wurtzite structure with a=3.124 Å, c=5.024 Å, the average grain size was about 2 nm. The lattice constant of the cubic nano-AlN was a=9.171 Å, the average grain size was about 4 nm. The structural and optical properties of the obtained AlN were analyzed. The emission related to deep-level defects was investigated by using temperature-dependent photoluminescence.     

制备工艺对Zn1-xMgxO薄膜结构及光学性能的影响

采用脉冲激光沉积（PLD）方法在单晶Si（100）衬底上沿c轴方向生长单晶Zn_1-xMg_xO薄膜,通过X射线衍射（XRD）、原子力显微镜（AFM）、扫描电镜（SEM）和荧光光谱（PL）研究了膜厚、Mg含量、退火温度及氧气氛等制备工艺对Zn_1-xMg_xO薄膜的结构、形貌和光学性质的影响.实验结果表明,Mg含量x≤0.15时, Zn_{关键词： 1-x}Mg_xO薄膜')" href="#">Zn_1-xMg_xO薄膜 制备工艺 结构 光学性质     

Electronic structure and optical properties of Mg_xZn_(1-x)S bulk crystal using first-principles calculations

We perform the first-principles calculations within the framework of density functional theory to determine the elec- tronic structure and optical properties of MgxZnl-xS bulk crystal. The results indicate that the electronic structure and optical properties of MgxZnl_xS bulk crystal are sensitive to the Mg impurity composition. In particular, the MgxZnl-xS bulk crystal displays a direct band structure and the band gap increases from 2.05 eV to 2.91 eV with Mg dopant compo- sition value x increasing from 0 to 0.024. The S 3p electrons dominate the top of valence band, while the Zn 4s electrons and Zn 3p electrons occupy the bottom of conduction band in MgxZnl_xS bulk crystal. Moreover, the dielectric constant decreases and the optical absorption peak obviously has a blue shift. The calculated results provide important theoretical guidance for the applications of MgxZn1-xS bulk crystal in optical detectors.