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Table of contents

    25 December 2001, Volume 10 Issue 13 Previous issue    Next issue
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    SINGLE-ELECTRON TRANSISTORS FOR FUTURE APPLICATIONS
    Wang Tai-hong (李宏伟), Li Hong-wei (周均铭), Zhou Jun-ming
    Chinese Physics, 2001, 10 (13):  1-3. 
    Abstract ( 1042 )   PDF (177KB) ( 538 )  
    Single electron transistors with wire channels are fabricated by a nanoelectrode-pair technique. Their characteristics strongly depend on the channel widths and the voltages on the in-plane gates. A few dips in the Coulomb blockade oscillations were observed at the less positive gate voltages for a device with a 70nm-wide wire due to Coulomb blockade between the coupled dots. By applying negative voltages to the in-plane gates, the oscillations became periodic, which indicated the formation of a single dot in the conducting channel. These gates facilitate fabricating single-electron transistors with single dot structures, which have potential applications on its integration.
    RESONANT ANDREEV REFLECTION IN HYBRID SUPERCONDUCTING-NORMAL NANOSTRUTURES
    Lin Tsung-han (林宗涵)
    Chinese Physics, 2001, 10 (13):  4-9. 
    Abstract ( 1000 )   PDF (255KB) ( 430 )  
    After a brief description of hybrid superconducting-normal nanostructures and a brief introduction of the Andreev reflection, we present a theoretical investigation of the electron tunneling through a normal-metal/quantum-dot/superconductor (N-QD-S) system where multiple discrete levels of the QD is considered. By using the nonequilibrium-Green-function (NGF) method, the current I is obtained and studied in detail. We find that the Andreev tunneling shows clear resonant behavior, as obtained in previous works. Moreover, the current I versus the gate voltage Vg exhibits different kinds of peaks, depending on the bias voltage, the level-spacing of the QD, and the energy gap of the superconducting electrode. Besides, in I-V characteristics extra peaks superimposed on the conventional current plateaus emerge, which stem from the resonant Andreev reflections.
    GENERAL
    MANIPULATION OF ATOMS, MOLECULES AND CLUSTERS FOR CONSTRUCTION OF NANOSYSTEMS
    F. Moresco, S.W. Hla, J. Repp, K.-F. Braun, S. F?lsch, G. Meyer, K. H. Rieder
    Chinese Physics, 2001, 10 (13):  10-18. 
    Abstract ( 987 )   PDF (1087KB) ( 453 )  
    Controlled manipulations with the scanning tunneling microscope (STM) down to the scale of small molecules and single atoms allow to built molecular and atomic nanosystems, leading to the fascinating possibility of creating manmade structures on atomic scale. Here we present a short review on atomic scale manipulation investigations. Upon soft lateral manipulation of adsorbed species, in which only tip/particle forces are used, three different manipulation modes (pushing, pulling, sliding) can be discerned. We show that even the manipulation of highly coordinated native substrate atoms is possible and we demonstrate how this can be applied as local analytic and synthetic chemistry tools, with important consequences on surface structure research. Vertical manipulation of Xe and CO is demonstrated, leading to improved imaging with functionalized tips. With CO deliberately transferred to the tip, we have also succeeded to perform vibrational spectroscopy on single molecules. Furthermore, we describe how we have reproduced a full chemical reaction with single molecules, whereby all basic steps, namely preparation of the reactants, diffusion and association, are induced with the STM tip. Finally, we have extended the manipulation techniques to large specially designed molecules by performing lateral manipulation in constant height and realizing the principle of a conformational molecular switch.
    FOURIER ANALYSIS OF TEMPORAL AND SPATIAL OSCILLATIONS OF TUNNELING CURRENT IN SCANNING TUNNELING MICROSCOPY
    Xie Fang-qing (谢仿卿), S. Molitor, Th. Koch, P. von Blanckenhagen
    Chinese Physics, 2001, 10 (13):  19-26. 
    Abstract ( 1300 )   PDF (1106KB) ( 1032 )  
    Partially oxidized Si(111) surfaces and surfaces of highly oriented pyrolytic graphite (HOPG) were studied by two different ultrahigh vacuum scanning tunneling microscope (UHV-STM) systems and by an STM system working under ambient conditions, respectively. The STM current images of partially oxidized Si(111) surfaces and HOPG surfaces were analyzed by one/two-dimensional fast Fourier transformation (1D-FFT/2D-FFT). The phenomenon of temporal oscillations of tunneling current on the partially oxidized Si(111) surfaces was detected with both UHV-STM systems. Temporal as well as spatial oscillations of tunneling current appeared in highly resolved STM current images of the Si(111) surfaces simultaneously, but both kinds of oscillations could be discriminated according to their different influence on the 2D-FFT spectra of the current images, while varying the scanning range and rate. On clean HOPG surfaces only spatial oscillations of tunneling current induced by the surface structure were observed.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    NANOSTRUCTURED MULTI-COMPONENT MATERIALS BY MECHANICAL ALLOYING
    C. Politis, A.D. Spiliotis, V. Kapaklis, S. Baskoutas
    Chinese Physics, 2001, 10 (13):  27-30. 
    Abstract ( 992 )   PDF (324KB) ( 510 )  
    We have shown that nanostructured multi-component materials like TaC, Nb78Ge22, Mo70Si20B10, Mo60Os20B20, Ru52Zr6B42, (NbC)20Co80 and (WC)80-(Ti90Cu10)20 with an effective length size reduced to atomic level (a few nanometers) can be produced by mechanical alloying of the elemental and/or alloy powders in a high-energy ball mill. All process steps and samples preparation for characterization were done under glove box conditions.
    NANOSTRUCTURED AND AMORPHOUS MATERIALS BY MECHANICAL ALLOYING
    C. Politis
    Chinese Physics, 2001, 10 (13):  31-35. 
    Abstract ( 933 )   PDF (224KB) ( 792 )  
    Mechanical Alloying is particularly attractive because it can be used to process structurally uniform and isotropic bulk quantities of powdered materials that have a fine length scale. Furthermore, it appears to be applicable to many combinations of elements. Here experimental results regarding the synthesis and characterization of several binary and ternary nanocrystalline and amorphous alloys of Ti, Zr, Hf, V, Nb and Fe with other transition elements and with B, C and Si are reported. The nanocrystalline and amorphous powders, with effective particle size between 7 and 30nm, were prepared by mechanical alloying in a high-energy ball-mill using commercial elemental powders and/or alloy powder.
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    PHOTOLUMINESCENCE OF NANOCRYSTALLINE SiC FILMS PREPARED BY RF MAGNETRON SPUTTERING
    Liu Ji-wen (刘技文), Xie Fang-qing (谢仿卿), Zhong Ding-yong (钟定永), Wang En-ge (王恩哥), Liu Wen-xi (刘文西), Li Shun-feng (李顺峰), Yang Hui (杨辉)
    Chinese Physics, 2001, 10 (13):  36-39. 
    Abstract ( 1216 )   PDF (240KB) ( 539 )  
    Amorphous SiC films are deposited on Si (111) substrates by rf magnetron sputtering and then annealed at 1200℃ for different times by a dc self-heating method in a vacuum annealing system. The crystallization of the amorphous SiC is determined by Raman scattering at room temperature and X-ray diffraction. The experimental result indicates that the SiC nanocrystals have formed in the films. The topography of the as-annealed films is characterized by atomic force microscopy. Measurements of photoluminescence of the as-annealed films show blue or violet light emission from the nanocrystalline SiC films and photoluminescence peak shifts to short wavelength side as the annealing time decreases.
    CROSS DISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
    NANOSTRUCTURED Zr-BASED ALLOYS-PHASE FORMATION AND MECHANICAL PROPERTIES
    A. Gebert, J. Eckert, U. Kühn, A. Reger-Leonhard
    Chinese Physics, 2001, 10 (13):  40-44. 
    Abstract ( 855 )   PDF (308KB) ( 379 )  
    Newly developed nanostructured Zr/Ti-Al-TM multiphase alloys can provide a large bandwidth of interesting properties, such as mechanical properties. Bulk materials with nanocrystalline/ amorphous and (nano)quasicrystalline/ amorphous microstructure with different volume fractions of nanophases and with different grain sizes can be obtained by slowly cooling the melt as well as by solid state reactions. Multiphase structures are realized either by partial de-vitrification of bulk glass-forming alloys or by defined addition of inert compounds upon alloying. Special preparation techniques e.g. copper mould casting and subsequent controlled annealing and mechanical alloying combined with hot consolidation of powders are described. The phase formation and transformation processes and the thermal stability of such materials in dependence on alloy composition and processing parameters are discussed in detail. Currently, the exploration of properties with respect to potential applications of these nanostructured alloys is still at the beginning. First investigations on the contributions of different phases/ volume fractions to the overall mechanical behaviour will be shown. At room temperature, the deformation behaviour of amorphous/crystalline bulk samples is governed by contributions of all existing phases yielding a high strength of the material.
    SCANNING AUGER ELECTRON SPECTROSCOPIC INVESTIGATIONS OF MAGNETOSTRICTIVE NANOSCALE MULTILAYERS
    Eberhard Nold, Christel Adelhelm, Alfred Ludwig, Shen Dian-hong (沈电洪)
    Chinese Physics, 2001, 10 (13):  45-49. 
    Abstract ( 843 )   PDF (387KB) ( 304 )  
    The characterisation of thin magnetostrictive multilayers in the nanometerscale range [(4,5nmTb40Fe60/9nmFe)×100] demands a surface sensitive analytical technique. A suitable technique is scanning Auger Electron Spectroscopy (AES) to determine the elemental composition, the thickness, the presence of interdiffusion between thin layers, or the presence of contamination at interfaces.Auger sputter depth profiles are obtained by using Xe-Ion bombardment to etch the sample.Sample rotation during sputtering produces shallow craters, minimises roughening and enhances depth resolution. In addition, Auger maps of the craters are used to reveal the separated magnetostrictive Tb40Fe60 layers and soft magnetic Fe layers.
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    INVESTIGATION ON THE STRUCTURE AND ELECTRIC PROPERTIES OF BUCKY ONIONS
    Xue Zeng-quan (薛增泉), Liu Hong-wen (刘虹雯), Hou Shi-min (侯士敏), Tao Cheng-gang (陶成钢), Zhang Geng-min (张耿民), Zhao Xing-yu (赵兴钰), Liu Sai-jin (刘赛锦), Du Min (杜民), Liu Wei-min (刘惟敏), Wu Jin-lei (吴锦雷), Peng Lian-mao (彭练矛), Wu Quan-de (吴全德), Shi Zu-jin (施祖进), Gu Zhen-nan (顾镇南)
    Chinese Physics, 2001, 10 (13):  50-53. 
    Abstract ( 1151 )   PDF (354KB) ( 585 )  
    Bucky onions were fabricated by the DC discharge method and their behaviors and electric properties on Highly Oriented Pyrolytic Graphite (HOPG) were studied by using an atomic force microscope (AFM), a scanning tunneling microscope (STM) and a transmission electron microscope (TEM). Small-sized Bucky onions demonstrated the properties of semiconductors and as the size increased their metallicity became stronger. AFM and STM images revealed the tendency of Bucky onions to form dimers.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    SECOND-ORDER NONLINEAR OPTICAL PROPERTIES OF TITANIUM DIOXIDE NANOPARTICLES AND NANOPARTICLES-DYE COMPOSITES
    Wang Xin (汪昕), Zhang Yü (张宇), Deng Hui-hua (邓慧华), Shen Yao-chun (沈耀春), Lu Zu-hong (陆祖宏), Cui Yi-ping (崔一平)
    Chinese Physics, 2001, 10 (13):  54-58. 
    Abstract ( 1309 )   PDF (227KB) ( 1240 )  
    Hyper-Rayleigh Scattering (HRS) technique was used to study the second-order nonlinear optical (NLO) responses of aqueous titanium dioxide (TiO2) nanoparticles of 10nm in size, and two nanoparticles-dye composites prepared by adding rhodamine B (Rh610) or the organic tosylate salt of dimethylaminostilbazolium (DAST). Results showed that the "per particle" first hyperpolarizability $\beta$ for TiO2 nanoparticles is very large, in the range of 1026 esu. With adding Rh610 and DAST, the HRS signals of the composites were further enhanced. And in TiO2/Rh610 composite the enhancement was obviously greater than that of TiO2/DAST composite. It has proved that non-centrosymmetry of the nanocrystal/solution interface contributes mainly to its large "per particle" $\beta$, overwhelming the nanocrystal core. So the interactions between nanoparticles surfaces and adsorbed dyes were very important for their second-order NLO responses. HRS technique provides a useful new NLO method to characterize the surface structures and microenvironment of nanoscale materials.
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    SURFACE CAPPING OF TiO2 COLLOIDAL NANOPARTICLES STUDIED BY FOURIER TRANSFORM RAMAN SPECTRA
    Wang Xin (邓慧华), Lu Zu-hong (汪昕), Deng Hui-hua (郁清), Yu Tsing (毛海舫), Mao Hai-fang (铃木敏重), Suzuki Toshishige (陆祖宏)
    Chinese Physics, 2001, 10 (13):  59-64. 
    Abstract ( 1123 )  
    Surface capping of TiO2 colloid nanoparticles with tetrasulfonated gallium phthalocyanine chloride (GaTsPc) was studied by Fourier Transform (FT) Raman spectra. A striking FT-Raman signal enhancement of GaTsPc is observed, indicating that a surface complex is formed during surface capping of GaTsPc dye molecules on TiO2 colloid via sulfonate groups. This effect is attributed to a strong Raman resonance with the charge transfer transition in the surface complex. Surface complexation also have considerable influences on the FT-Raman signals for TiO2 nanoparticles.
    CLASSICAL AREAS OF PHENOMENOLOGY
    LARGE AND EXTREMELY FAST THIRD-ORDER NON-LINEARITY OF Ag NANOPARTICLES EMBEDDED INTO A CsxO SEMICONDUCTOR MATRIX
    Zhang Qi-feng (张琦锋), Shao Qing-yi (邵庆益), Hou Shi-min (侯士敏), Zhang Geng-min (张耿民), Liu Wei-min (刘惟敏), Xue Zeng-quan (薛增泉), Wu Jin-lei (吴锦雷), Wang Shu-feng (王树峰), Liang Rui-sheng (梁瑞生), Huang Wen-tao (黄文涛), Wang Dan-ling (王丹翎), Gong Qi-huang (龚旗煌)
    Chinese Physics, 2001, 10 (13):  65-69. 
    Abstract ( 1187 )   PDF (262KB) ( 441 )  
    The third-order optical nonlinearity of Ag-O-Cs thin films, where Ag nanoparticles are embedded into a CsxO semiconductor matrix, was measured by the femtosecond optical Kerr technique. The third-order nonlinear optical susceptibility, $\chi$(3), of the thin films was estimated to be 1.1×10-9 esu at the incident wavelength of 820 nm. The response time, i.e. the full width at half-maximum of the Kerr signal, is as fast as 114 fs only. The intrinsic third-order optical nonlinearity can be attributed to the intraband transition of electrons from the occupied state near the Fermi level to the unoccupied state. It is suggested that such a nonlinearity is further enhanced by the local field effect that is present in the metallic nanoparticles composite thin films.
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    SELF-ASSEMBLY AND POLARIZABILITY OF CAPPED CdS NANOCRYSTALS ON SILICON SURFACES
    Ba Long (巴龙), Zhang Yu (张宇), Lu Zu-hong (陆祖宏)
    Chinese Physics, 2001, 10 (13):  70-75. 
    Abstract ( 1107 )   PDF (288KB) ( 453 )  
    The zinc-blende CdS nanocrystals with particle size less than 10nm were prepared in solution with a molecular surfactant. The particle surface was modified with capping molecules, bis(2-ethylhexyl) sulfosuccinate disodium salt (AOT) or hexametaphosphate (HMP). The colloid solution was deposited on silicon wafer and the assembly of these nanocrystals was studied by atomic force microscopy. It was found that the CdS/AOT formed a monolayer by simply dropping the colloid solution on silicon surface, while CdS/HMP exhibited 3D structure with prefered orientation in the similar deposition process. A dynamic electric force microscopy was performed and the polarizability was measured from the resonance of cantilever under applied alternating voltage between tip and substrate. The dielectric constant of CdS nanocrystal was estimated by comparing the different electric capacitance of Au and CdS nanocrystals.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    HIGH-YIELD PRODUCTION OF MULTI-WALLED CARBON NANOTUBES BY CATALYTIC DECOMPOSITION OF BENZENE VAPOR
    Wang Xi-zhang (王喜章), Hu Zheng (胡征), Wu Qiang (吴强), Chen Yi (陈懿)
    Chinese Physics, 2001, 10 (13):  76-79. 
    Abstract ( 1048 )   PDF (476KB) ( 582 )  
    Multi-walled carbon nanotubes (CNTs) have been synthesized on $\gamma$-Al2O3 supported unitary, binary or trinity metal (Fe, Co, Ni) catalysts with benzene as carbon source in the range of 600 to 810 ℃. The growth of CNTs was carried out in a fixed bed flow reactor and the quality of carbon deposits was characterized by transmission electron microscopy. The preparation was optimized and the high-yield production of CNTs has been achieved for three mixture catalysts with the yield of high-quality CNTs higher than 200% within 60 min, reaching a maximum of 278% for 1.51 mmol/g Fe-1.51 mmol/g Co/$\gamma$-Al2O3 catalyst. This provides a good alternative for future large scale and low cost production of CNTs for applications.
    SURFACE PLASMON OF Ag CLUSTERS ON ALUMINA FILMS
    Guo Qin-lin (郭沁林), D. W. Goodman
    Chinese Physics, 2001, 10 (13):  80-83. 
    Abstract ( 1149 )   PDF (199KB) ( 656 )  
    The deposition of silver on an ordered alumina film prepared on Re(0001) surface has been studied by Auger electron spectroscopy (AES), low energy electron diffraction (LEED) and high resolution electron energy loss spectroscopy (HREELS). The results show that Ag grows initially as clusters at 90K and 300K. A red shift of the Ag surface plasmon as a function of decreasing coverage is observed, which is related to the cluster size effect. A surface plasmon characteristic of metallic Ag appears at coverages higher than 2.8 monolayer equivalent.
    CROSS DISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
    ADSORPTION BEHAVIOR OF AMINO ACIDS ON COPPER SURFACES
    Zhao Xue-ying (赵学应), Wang Hao (王浩), Yan Hao (晏浩), Gai Zheng (盖铮), Zhao Ru-guang (赵汝光), Yang Wei-sheng (杨威生)
    Chinese Physics, 2001, 10 (13):  84-95. 
    Abstract ( 1023 )   PDF (1882KB) ( 644 )  
    The major results of a series of our recent investigations on the adsorption of eight amino acids on Cu(001) and (111) surfaces are reviewed in the present paper. In all studied cases the molecules adsorb onto the surface in their anionic form. With the increase of the coverage three different 2D phases of the adsorbates, that is, the 2D lattice gas, intermediate, and solid phases, appear sequentially, although for few systems one or two of them do not appear. In both the 2D lattice gas and intermediate phases the molecules "stand" with their two oxygen "feet" on the surface and the intermolecular interactions are repulsive, although in the former they can diffuse frequently whereas in the latter they are discommensurate in one direction with the substrate. In the solid phase the molecules "lie" down on the surface to form commensurate superstructures. Adsorption of amino acids may often induce step faceting as well as bunching to form facets. Adsorption of L-lysine on Cu(001) may cause steps bunching to form facets with all the same chirality. Our preliminary results show that it is possible to manipulate individual molecules with the STM tip even at room temperature. These results may have applications in nano-materials, nano-technology, and very likely also in chiral separations or enantioselective heterogeneous catalysis.
    OBSERVATION OF ACTIN POLYMERISATION WITH ATOMIC FORCE MICROSCOPY
    M. Gr?ger
    Chinese Physics, 2001, 10 (13):  96-99. 
    Abstract ( 924 )   PDF (754KB) ( 313 )  
    We used atomic force microscopy (AFM) to image biological filaments deposited on mica substrates. After cutting of an actin fibre with the tip of the AFM, the filament started to grow in length. The growth occured in air under ambient conditions and proceeded over several days with a constant rate.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    IDENTIFICATION OF MEMBRANE PROTEINS IMAGED BY ATOMIC FORCE MICROSCOPY USING A TEMPLATE MATCHING ALGORITHM
    Oliver Enders, Enrico Martinoia, Carsten Zeilinger, Hans-Albert Kolb
    Chinese Physics, 2001, 10 (13):  100-107. 
    Abstract ( 1117 )   PDF (266KB) ( 447 )  
    The atomic force microscope allows to image biological samples in their native environment. But the identification and the topography of individual randomly distributed membrane proteins is still a challenge. We used membranes of isolated vacuoles of barley mesophyll cells. Images at low resolution indicate that vacuoles spontaneously attach, rupture and finally adsorb completely as planar membrane to mica. Height profiles indicate that the membrane at the peripheral boundary exposes the extravacuolar surface to the scanning tip. At molecular resolution a template matching correlation algorithm was used to identify the most abundant membrane protein, the vacuolar H+-ATPase by the characteristic extravacuolar head of the transport molecule. The data indicate the possibility to analyse single randomly distributed membrane proteins in their native environment with the knowledge of a suitable template.
    GENERAL
    NANOBUBBLES AT THE LIQUID/SOLID INTERFACE STUDIED BY ATOMIC FORCE MICROSCOPY
    Lou Shi-tao (楼柿涛), Gao Jian-xia (高剑侠), Xiao Xu-dong (萧旭东), Li Xiao-jun (李晓军), Li Guang-lai (李光来), Zhang Yi (张益), Li Min-qian (李民乾), Sun Jie-lin (孙洁林), Hu Jun (胡均)
    Chinese Physics, 2001, 10 (13):  108-110. 
    Abstract ( 1398 )   PDF (355KB) ( 674 )  
    Bubbles on the nanometer scale were produced by a special method on solid surfaces. Atomic Force Microscopy (AFM) was used to detect these bubbles. It shows that nanobubbles can be seen clearly in the interfaces of liquid/graphite and liquid/mica. In AFM images, the nanobubbles appeared like bright spheres. Some of the bubbles kept stable for hours during the experiments. The bubbles were disturbed under high load during AFM imaging. The conformation of the bubbles is influenced by the atomic steps on the graphite substrate. In addition, a shadow was found around the bubbles, which was due to the interactions between a bubble adhered to the tip and a bubble on the substrate.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    ON THE STUDY OF SILICON NANO-WIRES SELF-ASSEMBLED AS PARTICLES
    Zhang Ze (张泽), S.T.Lee (李述汤)
    Chinese Physics, 2001, 10 (13):  111-116. 
    Abstract ( 1174 )   PDF (1622KB) ( 587 )  
    Two different types of Silicon nano-wires (SiNWs) have been observed by scanning and transmission electron microscopy. One are of free standing SiNWs deposited uniformly on the surface of silicon substrates, and the other are self-assembled into special shaped particles. These SiNWs were synthesized by thermal evaporation of SiO amorphous powders without any metal catalysts in the temperature range of 900-1250℃. Growth history reveals that the self-assembled SiNWs are formed by original nucleation from the surface of amorphous SiOx particle matrices through phase separation and silicon precipitation followed by further growth through oxide-assisted vapor-solid reactions. The above results provide a solid experimental support for the oxide-assisted growth model of SiNWs.
    PREPARATION OF NANOWIRES AND MICROARRAYS
    Zhang Li-de (张立德), Meng Guo-wen (孟国文), F. Phillipp
    Chinese Physics, 2001, 10 (13):  117-123. 
    Abstract ( 1298 )   PDF (868KB) ( 516 )  
    We report on the synthesis of one-dimensional (1D) solid nanostructures and ordered microarrays consisting of nanowires and carbon nanotubes. For 1D nanostructures, several synthesis methods, such as, carbothermal reduction of silica xerogels containing carbon nanoparticles, chemical vapor deposition on mesoporous active carbon with transition metal catalyst nanoparticles inside the pores, and simple physical evaporation with the help of transition metal nanoparticles as catalysts, have been used. For microarrays, anodic alumina membranes (AAMs) with highly ordered honeycomb structure were used as templates, chemical vapor reaction inside the nanochannels, Sol-gel technique, and selective electrodeposition in the channels, have been used to prepare microarrays embedded in AAMs.
    CROSS DISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
    ORDER AND CHAOS IN NATURE-PHENOMENA AT SURFACES
    R.Imbihl
    Chinese Physics, 2001, 10 (13):  124-131. 
    Abstract ( 623 )   PDF (355KB) ( 383 )  
    In chemical reaction systems far from thermodynamical equlibrium rate oscillations and chemical wave patterns develop. This paper presents a condensed overview of recent developments in the study of self-organization processes during heterogeneously catalyzed reactions, whereby the main emphasis is focused on low pressure single crystal studies of oscillatory and pattern forming reactions on Pt and Rh surfaces. Chemical wave patterns on a macroscopic scale as well as reaction induced-microscopic roughening and coverage fluctuations in nano-scale systems are discussed.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    SPONTANEOUS TRANSFORMATIONS OF NANOCLUSTERS
    M. Rieth, W. Schommers, S. Baskoutas, C. Politis,
    Chinese Physics, 2001, 10 (13):  132-136. 
    Abstract ( 930 )   PDF (253KB) ( 314 )  
    It is well-known that nano-systems can have properties which are distinctly different from macroscopic systems. In this study we point out the following specific behaviour: if the particle number is decreased so that the size of the system is in the nanometer-realm, new effects emerge which reflect certain features of biological systems although the system is inorganic in nature. This behaviour is shown by realistic molecular dynamics calculations in connection with aluminum-nanoclusters at various temperatures. The clusters can transform without external influence from a metastable into a stable state, and there can be more than one stable state, that is, we observe a bifurcation in the sense of chaos-theory. The stable states can differ in both the atomic structure and the outer shape.
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    ON THE THERMAL STABILITY AND MELTING TEMPERATURE OF NANO-SYSTEMS
    M. Rieth, W. Schommers, S. Baskoutas, C. Politis, A. Jannussis,
    Chinese Physics, 2001, 10 (13):  137-139. 
    Abstract ( 962 )   PDF (266KB) ( 363 )  
    Various material properties which are well defined and clearly fixed for macroscopic systems, get a modified significance in nano-physics and nano-technology. It is shown, as an example, that the temperature behaviour of material systems is considerably changed when we go from macroscopic to nanometersize. It is pointed out that the standard model of solid state physics (ordered structure, harmonic approximation) is in general not sufficient for the description of nano-systems.
    CROSS DISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
    CLUSTER NUCLEATION LIMITED BY GROWTH PATTERN COVERAGE IN THIN FILM PREPARATION FROM VAPOR
    Shao Qing-yi (邵庆益), Zhang Qi-feng (张琦锋), Fang Rong-chuan (方容川), Zhu Kai-gui (朱开贵), Xu Bei-xue (许北雪), Liu Wei-min (刘惟敏), Zhao Xing-yu (赵兴钰), Wu Jin-lei (吴锦雷), Xue Zeng-quan (薛增泉)
    Chinese Physics, 2001, 10 (13):  140-143. 
    Abstract ( 678 )   PDF (226KB) ( 339 )  
    In the early stage of thin film preparation from vapor, growth patterns consisting of stable clusters will gradually cover almost the entire substrate surface. During this process, the density of single atoms is zero on growth patterns and the nucleation of clusters will proceed in the substrate parts uncovered by these patterns. The influence of growth pattern coverage on the nucleation of thin films has not been considered wholly in the classical theory of thin films. We will systematically study the influence of growth pattern coverage and give some correction formulas for the widely used classical theory of thin films. It was found that the classical nucleation rate is proportional to the square of the uncovered area. The corrected formulas are of particular importance in the dominant coverage case.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    NOVEL FORMATION AND DECAY MECHANISMS OF NANOSTRUCTURES ON THE SURFACE
    Wand En-ge (王恩哥), Liu Bang-gui (刘邦贵), Wu Jing (吴静), Li Mao-zhi (李茂枝), Yao Yu-gui (姚裕贵), Zhu Wen-guang (朱文光), Zhong Jian-xin (钟建新), John Wendelken, Niu Qian (朱谦), Zhang Zhen-yu (张振宇)
    Chinese Physics, 2001, 10 (13):  144-150. 
    Abstract ( 1239 )   PDF (264KB) ( 457 )  
    For decades the research on thin-film growth has attracted considerable attention as these kinds of materials have the potential for a new generation of device application. It is known that the nuclei at the initial stage of the islands are more stable than others and certain atoms are inert while others are active. In this paper, by using kinetic Monte Carlo simulations, we will show that, when a surfactant layer is used to mediate the growth, a counter-intuitive fractal-to-compact island shape transition can be induced by increasing deposition flux or decreasing growth temperature. Specifically, we introduce a reaction-limited aggregation (RLA) theory, where the physical process controlling the island shape transition is the shielding effect of adatoms stuck to the stable islands on the incoming adatoms. Moreover, the origin of a transition from triangular to hexagonal and then to inverted triangular as well as the decay characteristics of three-dimensional islands on the surface and relations of our unique predictions with recent experiments will be discussed. Furthermore, we will present a novel idea to make use of the condensation energy of adatoms to control the island evolution along a special direction.
    CROSS DISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY
    LOCAL ELECTROCHEMICAL DEPOSITION OF METAL ISLANDS MECHANICALLY INDUCED WITH THE TIP OF AN ATOMIC FORCE MICROSCOPE
    Ch. Obermair, M. Müller, Ch. Klinke, Th. Schimmel
    Chinese Physics, 2001, 10 (13):  151-156. 
    Abstract ( 694 )   PDF (203KB) ( 438 )  
    The investigation of electrochemical processes on the nanometer scale is of great scientific as well as technological interest. Here we study the electrodeposition of copper on a polycrystalline gold surface, and demonstrate that copper deposition can be locally induced by mechanical activation with the tip of an atomic force microscope (AFM). Whereas at higher values of the deposition voltage (>100mV), a solid copper film can grow on the gold surface without tip activation, at lower voltages (approx. 30-60mV), copper deposition only occurs at the position where the surface is activated by the AFM tip due to scanning in mechanical contact with the sample. With this mechano-electrochemical "writing" process, which can be performed at ambient conditions, the controlled local deposition of metallic islands is possible, at applied force loads of the order of 10nN. Both the size-dependence of the locally induced structures on the deposition time and the reversibility of the local deposition process are studied. Depending on the deposition parameters, individual copper islands between 50nm and 200nm in size were deposited at predefined locations on the gold surface. The investigations open perspectives for the controlled mechano-electrochemical writing of more complex nanostructures with the AFM tip.
    GROWTH MODE AND SURFACE RECONSTRUCTION OF GaN(000$\bar{1}$) THIN FILMS ON 6H-SiC(000$\bar{1}$)
    Xue Qi-zhen (薛其贞), Xue Qi-kun (薛其坤), S. Kuwano, K. Nakayama, T. Sakurai
    Chinese Physics, 2001, 10 (13):  157-162. 
    Abstract ( 1316 )   PDF (662KB) ( 582 )  
    Two-dimensional growth of GaN thin films on an atomically flat C-face 6H-SiC(000$\bar{1}$) surface prepared by ultra-high vacuum Si-etching is observed when using an AlN buffer layer in N plasma-assisted molecular beam epitaxy. Scanning tunneling microscopy and reflection high energy electron diffraction observations reveal a series of Ga-stabilized reconstructions which are consistent with those reported for an N-polar GaN(000$\bar{1}$) film. The result, including the effect observed previously for GaN thin film on Si-terminated 6H-SiC(0001), agrees with the polarity assignment of heteroepitaxial wurtzite GaN films on polar 6H-SiC substrates, i.e., GaN film grown on SiC(000$\bar{1}$) is $\langle000\bar{1}\rangle$ oriented (N-face) while that on SiC(0001) is $\langle000{1}\rangle$ oriented (Ga-face).
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    ATOMIC FORCE MICROSCOPY STUDIES AND MODELING OF SURFACE STRUCTURES PATTERNED DURING OSTWALD RIPENING AT Fe/Mo MULTILAYER SYSTEMS
    Shen Dian-hong(沈电洪), Luo Guang-ming (罗光明), Kang Ning(康宁), Lai Wu-yan(赖武彦), A. Berlinger , P. von Blanckenhagen
    Chinese Physics, 2001, 10 (13):  163-166. 
    Abstract ( 949 )   PDF (455KB) ( 165 )  
    Fe/Mo multilayers which were grown by sputtering, annealed in high vacuum and analyzed by means of Atomic Force Microscopy and Scanning Electron Microscopy. Concentric circle-1ike patterns were observed after annealing. Two-dimensional Ostwald ripening mechanisms in immiscible systems of Fe/Mo may explain the formation of these structures. We simulated pattern formation in a late stage of the phase separation by applying the Thomas-Freundlich thermodynamic relation. Based on a two-dimensional mode1 in the framework of the Lifshitz-Slyozov theory, our modeling has been extended to include the diffusion limitation in a multi-cluster system.
    GENERAL
    PIEZOELECTRIC Pb(Zr, Ti)O3 MICRO-DEVICES FOR SCANNING FORCE MICROSCOPY AND ULTRA-DENSITY DATA STORAGE
    Chu Jia-ru (褚家如), Huang Wen-hao (黄文浩), R. Maeda (前田龙太郎), T. Itoh (伊藤寿浩), T. Suga (须贺唯知)
    Chinese Physics, 2001, 10 (13):  167-173. 
    Abstract ( 1034 )   PDF (308KB) ( 387 )  
    In this paper we report two types of micro devices based on Pb(Zr, Ti)O3 (PZT) thin films for improving the throughput of scanning force microscopy (SFM) or data storage using SFM. One is a piezoelectric cantilever array integrated with force sensor as well as z-actuator on each cantilever for parallel operation. The 125-μm-long PZT micro cantilever with a natural resonant frequency of 189 kHz has a high actuation sensitivity of 75 nm/V. Independent parallel images using two cantilevers of the array were obtained. The other is a novel micro-SFM device that is expected to replace the cantilever, the deflection detection unit, and the macro-fabricated scanner which is the bottle neck limiting the single probe acquisition rate. The bridge-structured device has shown a microscopy sensitivity of 0.32 nA/nm in vertical direction and actuation abilities of 70-80nm/±V in the lateral direction.
    ATOMIC AND MOLECULAR PHYSICS
    DIAMOND MICRO- AND NANOSTRUCTURING BY ACCELERATED CLUSTER EROSION
    C. Becker, J. Gspann, R. KrÄmer, Y. Yamaguchi
    Chinese Physics, 2001, 10 (13):  174-178. 
    Abstract ( 953 )   PDF (343KB) ( 443 )  
    Reactive accelerated cluster erosion (RACE) has been used for direct micro- and nanostructuring of bulk diamond. Carbondioxide nanoparticles of about 1000 molecules are accelerated to 100keV energy in order to erode a staircase structure or a toothed wheel into diamond by using appropriate movable or fixed masks. Non-reactive erosion by argon clusters is slower but more effectively polishing. Large-scale molecular dynamics simulations show the nanoparticle impacts to lead to transient craters which relax to a very smooth surface via collective elastic recovery. The enhanced or reduced erosion of the respective cluster material is illuminated.
    CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES
    ULTRAHIGH DATA DENSITY STORAGE WITH SCANNING TUNNELING MICROSCOPY
    Gao Hong-jun (高鸿钧), Shi Dong-xia (时东霞), Zhang Hao-xu (张昊旭), Lin Xiao (林晓)
    Chinese Physics, 2001, 10 (13):  179-185. 
    Abstract ( 1434 )   PDF (500KB) ( 374 )  
    Ultrahigh density data storage devices made by scanning probe techniques based on various recording media and their corresponding recording mechanisms, have attracted much attention recently, since they ensure a high data density in a non-volatile, erasable form in some kinds of ways. It is of particular interest to employ organic polymers with novel functional properties within a single molecule (or a single molecular complex) for fabricating electronic devices on a single molecular scale. Here, it is reported that a new process for ultrahigh density and erasable data storage, namely, molecular bistability on an organic charge transfer complex of 3-nitrobenzal malononitrile and 1,4-phenylenediamine (NBMN-pDA) switched by a scanning tunneling microscope (STM). Data density exceeds 1013 bits/cm2 with a writing time per bit of ~1μs. Current-voltage (I/V) measurements before and after the voltage pulse from the STM tip, together with optical absorption spectroscopy and macroscopic four-probe I/V measurements demonstrate that the writing mechanism is conductance transition in the organic complex. This mechanism offers an attractive combination of ultrahigh data density coupled with high speed. The ultimate bit density achievable appears to be limited only by the size of the organic complex, which is less than 1nm in our case, corresponding to 1014 bits/cm2. We believe that provided the lifetime can be improved, molecular bistability may represent a practical route for ultrahigh density data storage devices.
    CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES
    SPIN-DEPENDENT TUNNELING EFFECTS ON MAGNETIC NANOSTRUCTURES
    M. Getzlaff, M. Bode, A. Kubetzka, O. Pietzsch, R. Wiesendanger
    Chinese Physics, 2001, 10 (13):  186-194. 
    Abstract ( 785 )  
    The contrast mechanism of spin-polarized scanning tunneling spectroscopy (SP-STS) is demontrated on in-plane magnetized Gd islands grown on W (110) using Fe-coated tips. The use of Gd-coated tips enables the imaging of the antiferromagnetic domain structure of Fe nanowires being perpendicularly magnetized grown on a stepped W(110) substrate. The influence of an external magnetic field on the nanowire domain structure is demonstrated. It is shown that the antiferromagnetic domain structure of the Fe nanowires strongly depends on the miscut of the W(110) substrate. While at high miscut the magnetization direction alternates between adjacent DL stripes it was found to alternate within single Fe DL stripes at low miscut. Nanoscale Fe islands with a height of two atomic layers were found to be single domain particles.
    GENERAL
    SETUP AND APPLICATION OF SCANNING NEAR-FIELD OPTICAL MICROSCOPY
    Xu Shi-fa (许世发), Zhu Xing (朱星), Zhou He-tian (周赫田), Shen Yu-min (沈玉民), Fei Teng (费滕), Zhang Yu (张宇), Yin Yan (尹彦), Zhang Bei (张蓓), Dai Lun (戴伦), Liu Xiao-ling (刘晓玲), Hu Jian-cheng (胡建成), Lu Ping (卢萍), Zhai Zhong-he (翟中和)
    Chinese Physics, 2001, 10 (13):  195-205. 
    Abstract ( 1012 )   PDF (674KB) ( 612 )  
    The research on the setup and application of scanning near-field optical microscopy (SNOM) performed in our laboratory is reviewed in this report. We have constructed a versatile low temperature scanning near-field optical microscope with the capability of near-field imaging and spectroscopy, operating at liquid nitrogen temperature. A special designed coaxial double lens was used to introduce the illumination beam through a 200μm fiber; the detected optical signal was transmitted via a fiber tip to an avalanche photon detector. The performance test shows the stability of the new design. The shear force image and optical image of a standard sample are shown. A system of SNOM working at room temperature and atmosphere was used to characterize semiconductors and bio-molecular samples. It revealed the unique features of semiconductor microdisks in the near-field that is significantly different from that of far-field. The effects of different geographic microstructures on the near-field light distribution of InGaP, GaN, and InGaN multi-quantum-well microdisk were observed.
ISSN 1674-1056   CN 11-5639/O4
, Vol. 10, No. 13

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