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Books on the topic 'HIGH-RESOLUTION TRANSMISSION ELECTON MICROSCOPE'

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Author: Grafiati
Published: 11 September 2023

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1

Peter, Buseck, Cowley J. M. 1923-, and Eyring LeRoy, eds. High-resolution transmission electron microscopy and associated techniques. New York: Oxford University Press, 1988.

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2

Experimental high-resolution electron microscopy. 2nd ed. New York: Oxford University Press, 1988.

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3

Inc, ebrary, ed. High-resolution electron microscopy. New York: Oxford University Press, 2009.

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4

Horiuchi, S. Fundamentals of high-resolution transmission electron microscopy. Amsterdam: North-Holland, 1994.

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5

Manfred, Rühle, and Ernst F. 1938-, eds. High-resolution imaging and spectrometry of materials. Berlin: Springer, 2003.

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6

Manfred, Rühle, and Ernst F. 1938-, eds. High-resolution imaging and spectrometry of materials. Berlin: Springer, 2003.

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7

Structure analysis of advanced nanomaterials: Nanoworld by high-resolution electron microscopy. Berlin: De Gruyter, 2014.

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8

Titchmarsh, J. M., C. M. Shepherd, and I. A. Vatter. The Measurement of Chemical Composition with High Spatial Resolution Using a Dedicated Scanning Transmission Electron Microscope. AEA Technology Plc, 1987.

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9

(Editor), Peter Buseck, John Cowley (Editor), and LeRoy Eyring (Editor), eds. High-Resolution Transmission Electron Microscopy: And Associated Techniques. Oxford University Press, USA, 1989.

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10

Spence, John C. H. High-Resolution Electron Microscopy. Oxford University Press, 2008.

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11

Spence, John C. H. High-Resolution Electron Microscopy. Oxford University Press, 2013.

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12

Spence, John C. H. High-Resolution Electron Microscopy. Oxford University Press, 2013.

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13

Spence, John C. H. High-Resolution Electron Microscopy. Oxford University Press, 2017.

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14

Vang, R. T., S. Wendt, and F. Besenbacher. Nanocatalysis. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.12.

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This article discusses nanocatalysis and especially the interrelation between the structure, composition and properties of catalysts. It begins with a review of techniques that have been developed and employed for surface characterization, which can be divided intothree main areas: spectroscopy, diffraction, and microscopy. After describing the nanocharacterization tools, the article considers the theoretical underpinnings of catalysts and catalytic processes. It also examines how detailed atomic-scale insight into elementary surface processes relevant to catalysis can be obtained mainly by means of high-resolution scanning tunnelling microscope studies on single-crystal surfaces. More specifically, it explores the surface structure, adsorption, dissociation and diffusion, and surface chemical reactions of catalysts. The article also looks at the design of new catalysts from first principles and concludes with an assessment of nanocatalysts and transmission electron microscope studies of nanoclusters on high surface area supports.
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15

High-Resolution Transmission Electron Microscopy: And Associated Techniques. Oxford University Press, USA, 1992.

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16

Buseck, Peter, LeRoy Eyring, and John Cowley. High-Resolution Transmission Electron Microscopy: And Associated Techniques. Oxford University Press, 1988.

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17

(Editor), Frank Ernst, and Manfred Rühle (Editor), eds. High-Resolution Imaging and Spectrometry of Materials (Springer Series in Materials Science). Springer, 2003.

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18

Collins, Philip G. Defects and disorder in carbon nanotubes. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.2.

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This article examines the physical consequences of defects and disorder in carbon nanotubes (CNTs). It begins with a pedagogical categorization of the types of defects and disorder found in CNTs, including lattice vacancies and bond rotations, and goes on to discuss considers two primary sources of disorder: the environment surrounding a CNT and the substrate supporting it. It then considers various experimental methods for locating defects in CNTs, including atomic-resolution scanning tunnelling microscopy, transmission electron microscopy, electrochemical and chemoselective labelling, optical spectroscopy, and electrical conductance. The article concludes with a review of the long-range consequences of defects and disorder on the physical properties of CNTs such as chemical reactivity, electrical transport, and mechanical effects.
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19

Bi, J. F., and K. L. Teo. Nanoscale Ge1−xMnxTe ferromagnetic semiconductors. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.17.

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This article discusses the structure characterizations, magnetic and transport behaviors of the nanoscale ferromagnetic semiconductors Ge1-xMnxTe grown by molecular beam epitaxy with various manganese compositions x ranging from 0.14 to 0.98. After providing an overview of the growth procedure and characterization, the article analyzes the structures of the Ge1-xMnxTe system using X-ray diffraction and high-resolution transmission electron microscopy. It then considers the optical, magnetic and transport properties of the semiconductors and shows that the crystal quality is degraded and the proportion of amorphous phase increases with increasing Mn composition. Nanoclusters and nanoscale grains can be observed when x > 0.24, which greatly affect their magnetic and electronic properties. The magnetic anisotropy is weakened due to different orientations of the clusters embedded in the GeTe host. An anomalous Hall effect is also observed in the samples, which can be attributed to extrinsic skew scattering.
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