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Books on the topic 'Raman spectroscopic characterization'

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Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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1

Kumar, Challa S. S. R., ed. Raman Spectroscopy for Nanomaterials Characterization. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-20620-7.

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2

service), SpringerLink (Online, ed. Raman Spectroscopy for Nanomaterials Characterization. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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3

Bugay, David E. Pharmaceutical excipients: Characterization by IR, Raman, and NMR spectroscopy. New York: M. Dekker, 1999.

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4

Perkowitz, S. Optical characterization of semiconductors: Infrared, Raman, and photoluminescence spectroscopy. London: Academic Press, 1993.

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5

Tram, Pham Huynh. Fabrication and characterization of dilute nitride indium antimonide for long wavelength infrared applications. Hauppauge, N.Y: Nova Science Publishers, 2011.

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6

Graupner, R., and F. Hauke. Functionalization of single-walled carbon nanotubes: Chemistry and characterization. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.16.

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This article examines the chemical functionalization and structural alteration of single-walled carbon nanotubes (SWCNTs). It describes the covalent functionalization of the SWCNT framework that is the covalent attachment of functional entities onto the CNT scaffold. In particular, it considers the chemical modification and reactivity of SWCNTs in the context of the reactivity of graphite and fullerenes. It also discusses the defect and sidewall functionalization of SWCNTs, along with various techniques used in the characterization ofSWCNTs upon functionalization, namely: thermogravimetric analysis, spectroscopic techniques such as UV-Vis-NIR spectroscopy and Raman spectroscopy, and microscopic techniques like transmission electron microscopy, atomic force microscopy and scanning tunnelling microscopy.
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7

Eagan, Paige Elizabeth. Design, characterization, and optimization of an inexpensive raman spectroscopic system for sample identification. 2003.

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8

Fourier transform infrared and Raman spectroscopic characterization of homogeneous solution concentration gradients near a container wall at different temperatures. Huntsville, AL: Dept. of Chemistry, the University of Alabama in Huntsville, 1991.

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9

Raman Spectroscopy For Nanomaterials Characterization. Springer, 2012.

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10

Challa S.S.R. Kumar. Raman Spectroscopy for Nanomaterials Characterization. Springer, 2016.

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11

Perkowitz, Sidney. Optical Characterization of Semiconductors: Infrared, Raman, and Photoluminescence Spectroscopy. Elsevier Science & Technology Books, 2012.

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12

Akers, Kelly Lynn. Vibrational characterization of C60 solid films using Raman spectroscopy. 1994.

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13

Qu, Tao, Yang Zhang, Vikas Tomar, Devendra K. Dubey, and Devendra Verma. Multiscale Characterization of Biological Systems: Spectroscopy and Modeling. Springer, 2016.

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14

Qu, Tao, Yang Zhang, Vikas Tomar, Devendra K. Dubey, and Devendra Verma. Multiscale Characterization of Biological Systems: Spectroscopy and Modeling. Springer London, Limited, 2016.

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15

Qu, Tao, Yang Zhang, Vikas Tomar, Devendra K. Dubey, and Devendra Verma. Multiscale Characterization of Biological Systems: Spectroscopy and Modeling. Springer, 2015.

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16

Yoshikawa, Masanobu. Advanced Optical Spectroscopy Techniques for Semiconductor Materials Characterization: Raman, Infrared, and Cathodoluminescence Spectroscopy. Springer International Publishing AG, 2022.

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17

Suëtaka, W. Surface Infrared and Raman Spectroscopy: Methods and Applications (Methods of Surface Characterization). Plenum Press, 1995.

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18

Hayazawa, Norihiko, and Prabhat Verma. Nanoanalysis of materials using near-field Raman spectroscopy. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.10.

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This article describes the use of tip-enhanced near-field Raman spectroscopy for the characterization of materials at the nanoscale. Tip-enhanced near-field Raman spectroscopy utilizes a metal-coated sharp tip and is based on surface-enhanced Raman scattering (SERS). Instead of the large surface enhancement from the metallic surface in SERS, the sharp metal coated tip in the tip-enhanced Raman scattering (TERS) provides nanoscaled surface enhancement only from the sample molecules in the close vicinity of the tip-apex, making it a perfect technique for nanoanalysis of materials. This article focuses on near-field analysis of some semiconducting nanomaterials and some carbon nanostructures. It first considers SERS analysis of strained silicon and TERS analysis of epsilon-Si and GaN thin layers before explaining how to improve TERS sensitivity and control the polarization in detection for crystalline materials. It also discusses ways of improving the spatial resolution in TERS.
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19

Characterization of Residual Stress in Microelectromechanical Systems (MEMS) Devices Using Raman Spectroscopy. Storming Media, 2002.

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20

Pathak, Chandra Shakher, and Samir Kumar. Recent Developments in Atomic Force Microscopy and Raman Spectroscopy for Materials Characterization. IntechOpen, 2022.

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21

Chen, Weimin. White beam synchrotron x-ray topography and micro-raman spectroscopy characterization of crystal materials. 2003.

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22

Recent Developments in Atomic Force Microscopy and Raman Spectroscopy for Materials Characterization [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.94185.

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23

Kamarás, Katalin, and Àron Pekker. Identification and separation of metallic and semiconducting carbon nanotubes. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.4.

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This article describes the identification and separation of metallic and semiconducting carbon nanotubes according to their electric properties. It first provides an overview of the electronic structure of nanotubes, focusing on how their metallic and semiconducting properties arise. It then considers the most widely used characterization techniques used in determining metallic or semiconducting behavior, including Raman spectroscopy and photoluminescence measurements. It also discusses specific chirality-selective growth techniques, physical postgrowth selection methods, enrichment by chirality-sensitive chemical reactions, and modification of transport properties without change in chirality. The article concludes with a review of some applications of metallic and semiconducting carbon nanotubes as transparent conductive coatings.
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24

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 biomedical research; holographic laser processing for three-dimensional photonic lattices; and nanoanalysis of materials using near-field Raman spectroscopy. The volume also explores new phenomena in the nanospace of single-wall carbon nanotubes; ZnO wide-bandgap semiconductor nanostructures; selective self-assembly of semi-metal straight and branched nanorods on inert substrates; nanostructured crystals and nanocrystalline zeolites; unusual properties of nanoscale ferroelectrics; structural, electronic, magnetic, and transport properties of carbon-fullerene-based polymers; fabrication and characterization of magnetic nanowires; and properties and potential of protein-DNA conjugates for analytic applications.
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