Effects of atomic corrugations on electronic structures in Pb_(1-x)Bi_(x) thin films

We carried out experimental investigations of the geometric effect on the electronic behavior in Pb_(1-x)Bi_(x) thin films by scanning tunneling microscopy and spectroscopy.Single crystal monolayer Pb_(0.74)Bi_(0.26) and two-monolayer Pb_(0.75)Bi_(0.25)Pb_(1-x)Bi_(x) thin films were fabricated by molecular beam epitaxy,where large surface corrugations were observed.Combined with tunneling spectroscopic measurements,it is found that atomic corrugations can widely change the electronic behaviors.These findings show that the Pb_(1-x)Bi_(x) system can be a promising platform to further explore geometry-decorated electronic behavior in two-dimensional metallic thin films.

Improved Polarization Retention of BiFeO3 Thin Films Using GdScO3(110)Substrates

Epitaxial ferroelectric one direction over the thin fihns on single-crystal substrates generally show a preferred domain orientation in other in demonstration of a poor polarization retention. This behavior will affect their application in nonvolatile ferroelectric random access memories where bipolar polarization states are used to store the logic 0 and 1 data. Here the retention characteristics of BiFe03 thin films with Srftu03 bottom electrodes on both GdSc03 （110） and SrTiO3 （100） substrates are studied and compared, and the results of piezoresponse force microscopy provide a long time retention property of the films on two substrates. It is found that bismuth ferrite thin films grown on GdScO3 substrates show no preferred domain variants in comparison with the preferred downward polarization orientation toward bottom electrodes on SrTi03 substrates. Tile retention test from a positive-up domain to a negative-down domain using a signal generator and an oscilloscope coincidentally shows bistable polarization states on the GdSeOa substrate over a measuring time of 500s, unlike the preferred domain orientation on SrTi03, where more than 65~o of upward domains disappear after 1 s. In addition, different sizes of domains have been written and read by using the scanning tip of piezoresponse force microscopy, where the polarization can stabilize over one month. This study paves one route to improve the polarization retention property through the optimization of the lattice-mismatched stresses between films and substrates.

Bi/AlSb(110)体系的结构和电子性质的第一性原理研究

使用第一性原理密度泛函理论研究了在AlSh（ 110）衬底表面外延生长B i薄膜的表面结构和电子性质,计算了生长1 - 6 层B i薄膜的层间距、吸附能与能带结构. 研究发现,不同层数的B i薄膜显示出奇偶振荡：奇数层稳定,偶数层不稳定;1 ,3 奇数层为半导体,2 ,4 偶数层为金属,5 ,6 层均为金属态,不存在振荡.

(110)取向BiFeO3薄膜界面诱导结构特性研究

在正交(010)取向的GdScO3衬底上设计并生长了(110)取向BiFeO3薄膜和PbTiO3/BiFeO3双层膜,并利用像差校正扫描透射电子显微镜对其界面结构进行了细致的研究。发现在BiFeO3/GdScO3界面以上两个单胞范围内BiFeO3的极化消失,可能形成了正交结构,第3~4个单胞范围的BiFeO3极化由于界面效应而受到一定的抑制;同时发现在PbTiO3/BiFeO3界面附近的PbTiO3面外晶格参数有所减小,这可能与其极化方向转向面内方向有关。

In-situ decoration of metallic Bi on BiOBr with exposed(110)facets and surface oxygen vacancy for enhanced solar light photocatalytic degradation of gaseous n-hexane

Photocatalytic degradation of gaseous pollutants on Bi-based semiconductors under solar lightirradiation has attracted significant attention.However,their application in gaseous straight-chainalkane purification is still rare.Here,a series of Bi/BiOBr composites were solvothermally synthe-sized and applied in solar-light-driven photocatalytic degradation of gaseous n-hexane.The charac-terization results revealed that both increasing number of functional groups of alcohol solvent(from methanol and ethylene glycol to glycerol)and solvothermal temperature(from 160 and 180to 200℃)facilitated the in-situ formation of metallic Bi nanospheres on BiOBr nanoplates withexposed(110)facets.Meanwhile,chemical bonding between Bi and BiOBr was observed on theseexposed facets that resulted in the formation of surface oxygen vacancy.Furthermore,the synergis-tic effect of optimum surface oxygen vacancy on exposed(110)facets led to a high visible light re-sponse,narrow band gap,great photocurrent,low recombination rate of the charge carriers,andstrong·O2-and h*formation,all of which resulted in the highest removal efficiency of 97.4%within120 min of 15 ppmv of n-hexane on Bi/BiOBr.Our findings efficiently broaden the application ofBi-based photocatalysis technology in the purification of gaseous straight-chain pollutants emittedby the petrochemical industry.

用低能电子衍射研究ⅢA-ⅤA化合物{110}表面吸附Sb和Bi的表面结构

用低能电子衍射研究了Sb和Bi吸附在InP{110}和GaAs{110}表面上的表面结构。结果显示出:对Sb/InP{110},表面原子层间距:d_(1)=0.27±0.03,d_(2)=2.15±0.02和d_(3)=2.27±0.02(膨胀9.4%±0.02);旋转角ω_(1)为-10.77°±1.29°和ω_(2)为15.26°±0.82°;吸附键长lc_(1)-A=2.84±0.05,lc_(2)-B=2.75±0.02,其键角a=101.21°±2.1°,β=107.86°±0.84°;吸附层键长lc_(1)-c_(2)=2.88±0.01,其键角θ0=92.25°±0.42°对Bi/InP{110},表面原子层间距:d_(1)=0.26±0.04,d_(2)=2.18±0.03和d_(3)=2.32±0.03(膨胀11.8%±0.03);旋转角ω_(1)为-10.57°±1.67°和ω_(2)为19.7°±2.19°;吸附键长lc_(1-A)=2.84±0.03,lc_(2-B)=2.81±0.04,其键角a=102.53°±1.3°,β=108.99°±0.84°;吸附层键长lc_(1)-c_(2)=2.89±0.02,其键角,θ_(b)=91.83°±0.84°.对Sb/GaAs{110},表面原子层间距:山=0.23±0.04Å,d₂=2.21±0.02Å和d=2.35±0.02Å(膨胀16.6%±0.02A);旋转角为-9.41°±0.35°和为29.64°±2.04°;吸附键长l c-x=2.81士0.01A+-s=2.91士0.02Å,其键角a=109.04A士0.12°,β=107.8"±0.84°;吸附层键长lc_(1)-c_(2)=2.790±0.003A,其键角6=91.53°±0.21°。

Effects of Thickness and Temperature on Thermoelectric Properties of Bi2Te3-Based Thin Films

Bi_2Te_3 thin films and GeTe/B_2Te_3 superlattices of different thicknesses are prepared on the silicon dioxide substrates by magnetron sputtering technique and thermally annealed at 573 K for 30 min. Thermoelectric（TE）measurements indicate that optimal thickness and thickness ratio improve the TE performance of Bi_2Te_3 thin films and GeTe/B_2Te_3 superlattices, respectively. High TE performances with figure-of-merit（ZT） values as high as 1.32 and 1.56 are achieved at 443 K for 30 nm and 50 nm Bi_2Te_3 thin films, respectively. These ZT values are higher than those of p-type Bi_2Te_3 alloys as reported. Relatively high ZT of the GeTe/B_2Te_3 superlattices at 300-380 K were 0.62-0.76. The achieved high ZT value may be attributed to the unique nano-and microstructures of the films,which increase phonon scattering and reduce thermal conductivity. The results indicate that Bi_2Te_3-based thin films can serve as high-performance materials for applications in TE devices.

High temperature thermoelectric properties of highly c-axis oriented Bi_2Sr_2Co_2O_y thin films fabricated by pulsed laser deposition

High-temperature thermoelectric transport property measurements have been performed on the highly c-axis oriented Bi2Sr2Co20v thin films prepared by pulsed laser deposition on LaA1Oa （001）. Both the electric resistivity p and the seebeck coefficient S of the film exhibit an increasing trend with the temperature from 300 K-1000 K and reach up to 4.8 m. cm and 202 V/K at 980 K, resulting in a power factor of 0.85 mW/mK which are comparable to those of the single crystalline samples. A small polaron hopping conduction can be responsible for the conduction mechanism of the film at high temperature. The results demonstrate that the Bi2Sr2Co2Oy thin film has potential application has high temperature thin film thermoelectric devices,

Effect of Annealing on Ferroelectric Properties of Bi_ (3.25)La_(0.75)Ti_3O_ (12) Thin Films Prepared by the Sol-gel Method

Bi3.25La0.75Ti3O12（BLT）thin films were prepared on Pt/Ti/SiO2/Si substrate by the sol-gel method.The effect of annealing on their structures and ferroelectric properties was investigated.The XRD patterns indicate that the BLT films annealed at different temperatures are randomly orientated and the single perovskite phase is obtained at 550℃.The remmant polarization increnses and the coercive field decreases with the annealing temperature increasing.The leakage current density of the BLT films annealed at 700℃ is about 5.8×10^-8A/cm^2 at the electrie field of 250kv/cm.

Characterization of La-doped xBiInO_3(1-x)PbTiO_3 Piezoelectric Films Deposited by the Radio-Frequency Magnetron Sputtering Method

La-doped and undoped xBiIn03-（1 - x）PbTi03 （BI-PT） thin films are deposited on （101）SrRuO3/（lOO）Pt/（lO0） MgO substrates by the rf-magnetron sputtering method. The structures of the films are characterized by XRD and SEM, and the results indicate that the thin films are grown with mainly （100） oriented and columnar structures. The ferroelectricity and piezoelectricity of the BI-PT films are also measured, and the measured results illustrate that both performances are effectively improved by the La-doping with suitable concentrations. These results will open up wide potential applications of the films in electronic devices.

AlSb(110)基外延生长Bi薄膜的第一性原理研究

用基于密度泛函理论的第一性原理方法研究了在A lS b （110）衬底表面外延生长1～6层Bi薄膜的能带结构，计算了它们的带隙。研究发现，不同厚度的Bi薄膜显示出传导性质的奇偶振荡，1层和3层显示出非金属性质，2层和4层及更高的层数转变为金属性质。

Bi(110)薄膜在NbSe_2衬底上的扫描隧道显微镜研究

二维拓扑绝缘体因其特殊的能带结构带来的新奇物理性质,成为近年来凝聚态物理的研究热点.尤其是在引入超导电性之后,二维拓扑绝缘体中可能存在马约拉纳费米子(Majorana fermion),因此在量子计算方面具有重大应用前景.在Bi(111)薄膜被证实为二维拓扑绝缘体之后, Bi(110)薄膜引起了广泛关注,然而其拓扑性质还存在争议.本文利用分子束外延技术在室温低生长速率环境下成功制备出了高质量的单晶Bi(110)薄膜.通过扫描隧道显微镜测量发现,薄膜以约8个原子层厚度为分界,从双层生长转变为单层生长模式.结合隧道谱测量发现,在NbSe_2衬底上生长的Bi(110)薄膜因为近邻效应而具有明显的超导性质,但并未显示出拓扑边缘态的存在.此外,对薄膜中特殊的量子阱态现象也进行了讨论.

Effect of crystallization temperature on microstructure and ferroelectric property of Bi_(3.25)Eu_(0.75)Ti_3O_(12) thin films prepared by MOD method

Europium-substituted bismuth titanate (Bi3.25Eu0.75Ti3O12) thin films were deposited on the Pt/Ti/SiO2/Si(111) substrates by metal-organic decomposition (MOD) method using a repeated coating/drying cycle. Effect of crystallization temperature on microstructure of Bi3.25Eu0.75Ti3O12(BET) thin films was investigated by X-ray diffractometry(XRD), scanning electron microscopy (SEM) and Raman spectroscopy, and ferroelectric property was studied by Precision Workstation Ferroelectric Tester. The crystallinity of BET thin films is improved and the average grain size increases with the crystallization temperature from 600 to 750 ℃. Under 9 V applied voltage, the remnant polarization (2Pr) of BET thin films annealed at 700 ℃ is 50.7 μm/cm2, which is higher than that of the films annealed at 600, 650 and 750℃.

Quantum spin Hall insulators in chemically functionalized As(110)and Sb(110)films

We propose a new type of quantum spin Hall （QSH） insulator in chemically functionalized As （110） and Sb （110） film. According to first-principles calculations, we find that metallic As （110） and Sb （110） films become QSH insulators after being chemically functionalized by hydrogen （H） or halogen （C1 and Br） atoms. The energy gaps of the functionalized films range from 0.121 eV to 0.304 eV, which are sufficiently large for practical applications at room temperature. The energy gaps originate from the spin-orbit coupling （SOC）. The energy gap increases linearly with the increase of the SOC strength λ/λ0. The Z2 invariant and the penetration depth of the edge states are also calculated and studied for the functionalized films.

掺杂Bi的β-Cu_(2)Se薄膜的微观结构与热电性能

目的 探究在β-Cu_(2)Se薄膜中掺杂元素Bi对其组织结构及其热电性能的影响,探求Bi元素对载流子传输过程和热电性能的影响规律,为将来该类热电薄膜的研究和应用提供宝贵的经验。方法 使用粉末烧结制得Cu-Bi-Se合金靶材,使用磁控溅射的方法在含有SiO_(2)层的单晶Si衬底上制备了不同Bi含量的β-Cu_(2-x)Bi_(x)Se热电薄膜。利用X射线衍射仪、扫描电子显微镜、能谱仪分别研究了沉积薄膜的XRD谱、表面与截面形貌以及元素含量与分布。利用LSR-3电阻率/塞贝克系统测量了沉积薄膜的Seebeck系数与电导率。利用霍尔试验测量了沉积薄膜的室温载流子浓度和迁移率。结果 沉积薄膜主要由单一的β-Cu_(2)Se相构成,在Bi掺杂量最大为1.07%(原子数分数)的薄膜还含有非常少量的α-Cu_(2)Se相;在β-Cu_(2)Se相薄膜中Bi的掺杂没有生成单质相而是替换点阵中的Cu而形成替位式固溶体。在沉积的β-Cu_(2-x)Bi_(x)Se薄膜中,([Bi]+[Cu])/[Se]>2.0且具有p型导电特征。随着温度的增加,电导率降低而Seebeck系数增加,彰显沉积薄膜的简并或半简并半导体的导电特性。当温度低于225℃时,沉积薄膜功率因子随Bi掺杂量的增加而增大;当温度高于225℃时,掺杂量为0.29%(原子数分数)的薄膜具有最大的功率因子,进一步增加Bi掺杂量,沉积薄膜的功率因子却逐渐减小。结论 使用磁控溅射的方法可制备β-Cu_(2)Se薄膜,掺杂适量的Bi可显著提高薄膜的功率因子。

High-Quality Bi_2Te_3 Single Crystalline Films on Flexible Substrates and Bendable Photodetectors

Recently, great efforts have been made in the fabrication of arbitrary warped devices to satisfy the requirement of wearable and lightweight electronic products. Direct growth of high crystalline quality films on flexible substrates is the most desirable method to fabricate flexible devices owing to the advantage of simple and compatible preparation technology with current semiconductor devices, while it is a very challenging work, and usually amorphous, polycrystalline or discontinuous single crystalline films are achieved. Here we demonstrate the direct growth of high-quality Bi2 Te3 single crystalline films on flexible polyimide substrates by the modified hot wall epitaxy technique. Experimental results reveal that adjacent crystallites are coherently coalesced to form a continuous film, although amounts of disoriented crystallites are generated due to fast growth rate. By inserting a quartz filter into the growth tube, the number density of disoriented crystallites is effectively reduced owing to the improved spiral interaction. Furthermore, flexible Bi2 Te3 photoconductors are fabricated and exhibit strong near-infrared photoconductive response under different degrees of bending, which also confirms the obtained fexible films suitable for electronic applications.

Effect of La Doping on Microstructure and Ferroelectric Prop-erties of Bi_4Ti_3O_(12) Thin Films Prepared by Sol-gel Method

The Bi4Ti3Oi2 and Bi3.25La0.75Ti3O12 thin films were prepared on the Pt/Ti/SiO2/Si substrate using the sol-gel method. The effect of La doping on the microstructure and ferroelectric properties of Bi4Ti3O12 films were investigated. Both the Bi4Ti3O12 and Bi3.25La0.75Ti3O12 thin films exhibited typical bismuth layered perovskite structure. The 2Pr （remanent polarization） value of Bi3.25La0.75Ti3O12 thin films is 18.6 μC/cm^2, which is much larger than that of Bi4Ti3O12 thin films. And the Bi3.2eLa0.75Ti3O12 films show fatigue-free behavior, while the Bi4Ti3O12 thin films exhibit the fatigue problem. The mechanism of improvement of La doping was discussed.

Magneto-Transport Properties of Insulating Bulk States in Bi(111) Films

Magneto-transport properties of insulating bulk states in Bi（111） films are systematically investigated under the parallel field （BⅡ）. We find that the magnetotransport of the Bll field is a more powerful tool to distinguish the bulk states and the surface states. A large magnetoresistance （MR） up to 20% in the BⅡ field is induced by the insulating bulk states for the suppression of the backward scattering. With the increasing thickness, a positive MR（BⅡ） from magnetic induced boundary scattering appears in the semimetal films. As the thickness is reduced to 1Ohm, the positive MR（BⅡ） is induced by weak anti-localization from the surface states.

Synthesis and thermoelectric properties of Bi-doped SnSe thin films

Bi doped n-type SnSe thin films were prepared by chemical vapor deposition(CVD)and their structure and thermoelectric properties were studied.The x-ray diffraction patterns,x-ray photoelectron spectroscopy,and microscopic images show that the prepared SnSe thin films were composed of pure SnSe crystals.The Seebeck coefficients of the Bi-doped SnSe were greatly improved compared to that of undoped SnSe thin films.Specifically,Sn_(0.99)Bi_(0.01)Se thin film exhibited a Seebeck coefficient of905.8μV·K^(-1) at 600 K,much higher than 285.5μV·K^(-1) of undoped SnSe thin film.Further first-principles calculations reveal that the enhancement of the thermoelectric properties can be explained mainly by the Fermi level lifting and the carrier pockets increasing near the Fermi level due to Bi doping in the SnSe samples.Our results suggest the potentials of the Bi-doped SnSe thin films in thermoelectric applications.

Preparation of Highly Textured Bi and MnBi Films by the Pulsed Laser Deposition Method

Textured Bi and MnBi/Bi thin films are prepared by the pulsed laser deposition method. The highly c-axis textured MnBi films are obtained by annealing the bilayer consisting of textured Bi and Mn films. The eoercivities of the MnBi/Bi film are 1.5 T and 2.35 T at room temperature and at 373K, respectively, showing a positive temperature coefficient. Microstructural investigations show that the textured MnBi film results from the orientated growth induced by the textured Bi under-layer.