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Books on the topic 'Electronic scanning microscope (SEM)'

Author: Grafiati

Published: 3 June 2025

Last updated: 31 July 2025

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1

Soh, Hyongsok T. Scanning probe lithography. Kluwer Academic Publishers, 2001.

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2

Soh, Hyongsok T. Scanning probe lithography. Kluwer Academic Publishers, 2001.

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3

Amerom, H. W. J. van. and Lagaaij Robert 1924-, eds. Sem atlas of type and figured material from Robert Lagaaij's "The pliocene bryozoa of the Low Countries", (1952). s.n.], 1989.

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4

Centre, Bhabha Atomic Research, ed. Sem measurement of stretched zone width (szw) for determination of initiation fracture toughness in ductile materials. Bhabha Atomic Research Centre, 2005.

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5

Christensen, Knud Ib. SEM-studies of epidermal patterns of petals in the angiosperms. Council for Nordic Publications in Botany, 1998.

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6

Breger, Dee. Through the electronic looking glass: 3-D images from a scanning electron microscope. Cygnus Graphic, 1995.

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7

DeGroot, Rodney C. Sem X-ray microanalysis of tracheid cell walls in southern yellow pine sapwood treated with water-dispersible pentachlorophenol. USDA, Forest Service, Forest Products Laboratory, 1986.

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8

DeGroot, Rodney C. Sem X-ray microanalysis of tracheid cell walls in southern yellow pine sapwood treated with water-dispersible pentachlorophenol. USDA, Forest Service, Forest Products Laboratory, 1986.

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9

DeGroot, Rodney C. Sem X-ray microanalysis of tracheid cell walls in southern yellow pine sapwood treated with water-dispersible pentachlorophenol. USDA, Forest Service, Forest Products Laboratory, 1986.

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10

DeGroot, Rodney C. Sem X-ray microanalysis of tracheid cell walls in southern yellow pine sapwood treated with water-dispersible pentachlorophenol. USDA, Forest Service, Forest Products Laboratory, 1986.

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11

DeGroot, Rodney C. Sem X-ray microanalysis of tracheid cell walls in southern yellow pine sapwood treated with water-dispersible pentachlorophenol. USDA, Forest Service, Forest Products Laboratory, 1986.

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12

DeGroot, Rodney C. Sem X-ray microanalysis of tracheid cell walls in southern yellow pine sapwood treated with water-dispersible pentachlorophenol. USDA, Forest Service, Forest Products Laboratory, 1986.

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13

Egon, Marx, and National Institute of Standards and Technology (U.S.), eds. User's manual for the program MONSEL-1: Monte Carlo simulation of SEM signals for linewidth metrology. U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 1994.

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14

Egon, Marx, and National Institute of Standards and Technology (U.S.), eds. User's manual for the program MONSEL-1: Monte Carlo simulation of SEM signals for linewidth metrology. U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 1994.

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15

National Renewable Energy Laboratory (U.S.) and IEEE Photovoltaic Specialists Conference (37th : 2011 : Seattle, Wash.), eds. Nanoscale measurements of the surface photovoltage in Cu(In,Ga)Se2, Cu2ZnSn4, and Cu2ZnSnSe4 thin films: The role of the surface electronics on the efficiency of solar cells : preprint. National Renewable Energy Laboratory, 2011.

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16

Gabriel, Barbra L. Sem: A User's Manual for Materials Science. American Society for Metals, 1985.

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17

SEM: A user's manual for materials science. American Society for Metals, 1985.

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18

Chen, C. Julian. Introduction to Scanning Tunneling Microscopy. 3rd ed. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780198856559.001.0001.

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The scanning tunnelling microscope (STM) was invented by Binnig and Rohrer and received a Nobel Prize of Physics in 1986. Together with the atomic force microscope (AFM), it enables non-destructive observing and mapping atoms and molecules on solid surfaces down to a picometer resolution. A recent development is the non-destructive observation of wavefunctions in individual atoms and molecules, including nodal structures inside the wavefunctions. STM and AFM have become indespensible instruments for scientists of various disciplines, including physicists, chemists, engineers, and biologists to

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19

Microprobe/SEM. U.S. Department of Commerce, National Institute of Standards and Technology, 1989.

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20

Scanning Electron Microscope (SEM) and Its Applications for Polymer Science. Independently Published, 2019.

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21

Seidl, Michele A. SEM analysis of quartz and feldspar beach grains. 1985.

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22

Holt, D. B., and D. C. Joy. SEM Microcharacterization of Semiconductors. Elsevier Science & Technology Books, 2013.

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23

Yang, Jinlong, and Qunxiang Li. Theoretical simulations of scanning tunnelling microscope images and spectra of nanostructures. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.15.

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This article presents theoretical simulations of scanning tunnelling microscope (STM) images and spectra of nanostructures. It begins with an overview of the theories of STM and scanning tunnelling spectroscopy (STS), focusing on four main approaches: the perturbation or Bardeen approach, the Tersoff–Hamann approach and its extension, the scattering theory or Landauer–Bütticker approach, and the non-equilibrium Green's function or Keldysh approach. It then considers conventional STM and STS experimental investigations of various systems including clean surfaces, ad-atoms, single molecules, sel

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24

Poe, Christopher A. The detection of gunshot residue in visualized fingerprints through SEM/EDX analysis. 2000.

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25

Scanning electron microscopy study of adhesion in sea urchin blastulae. California State University, 1988.

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26

Soh, Hyongsok T., Kathryn Wilder Guarini, and Calvin F. Quate. Scanning Probe Lithography (Microsystems, Volume 7) (Microsystems). Springer, 2001.

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27

Levin, Frank S. Quantum Tunneling. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198808275.003.0014.

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Quantum tunneling, wherein a quanject has a non-zero probability of tunneling into and then exiting a barrier of finite width and height, is the subject of Chapter 13. The description for the one-dimensional case is extended to the barrier being inverted, which forms an attractive potential well. The first application of this analysis is to the emission of alpha particles from the decay of radioactive nuclei, where the alpha-nucleus attraction is modeled by a potential well and the barrier is the repulsive Coulomb potential. Excellent results are obtained. Ditto for the similar analysis of pro

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28

Narlikar, A. V., and Y. Y. Fu, eds. Oxford Handbook of Nanoscience and Technology. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.001.0001.

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This Handbook presents important developments in the field of nanoscience and technology, focusing on the advances made with a host of nanomaterials including DNA and protein-based nanostructures. Topics include: optical properties of carbon nanotubes and nanographene; defects and disorder in carbon nanotubes; roles of shape and space in electronic properties of carbon nanomaterials; size-dependent phase transitions and phase reversal at the nanoscale; scanning transmission electron microscopy of nanostructures; the use of microspectroscopy to discriminate nanomolecular cellular alterations in

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29

Hawkes, Peter W. Advances in Imaging and Electron Physics: The Scanning Transmission Electron Microscope. Elsevier Science & Technology Books, 2009.

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30

Araújo, Ana Cláudia Vaz de. Síntese de nanopartículas de óxido de ferro e nanocompósitos com polianilina. Brazil Publishing, 2021. http://dx.doi.org/10.31012/978-65-5861-120-2.

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In this work magnetic Fe3O4 nanoparticles were synthesized through the precipitation method from an aqueous ferrous sulfate solution under ultrasound. A 23 factorial design in duplicate was carried out to determine the best synthesis conditions and to obtain the smallest crystallite sizes. Selected conditions were ultrasound frequency of 593 kHz for 40 min in 1.0 mol L-1 NaOH medium. Average crystallite sizes were of the order of 25 nm. The phase obtained was identified by X-ray diffractometry (XRD) as magnetite. Scanning electron microscopy (SEM) showed polydisperse particles with dimensions

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