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Books on the topic 'Electrochemical experiments'

To see the other types of publications on this topic, follow the link: Electrochemical experiments.

Author: Grafiati

Published: 4 June 2021

Last updated: 20 February 2023

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1

Scholz, F. Electroanalytical methods: Guide to experiments and applications. 2nd ed. Heidelberg: Springer, 2010.

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2

Evgenij, Barsoukov, and Macdonald J. Ross 1923-, eds. Impedance spectroscopy: Theory, experiment, and applications. 2nd ed. Hoboken, N.J: Wiley-Interscience, 2005.

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3

F, Scholz, and Bond A. M. 1946-, eds. Electroanalytical methods: Guide to experiments and applications. Berlin: Springer, 2002.

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4

Scholz, Fritz. Electroanalytical Methods: Guide to Experiments and Applications. Springer, 2014.

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5

Scholz, Fritz. Electroanalytical Methods: Guide to Experiments and Applications. Springer, 2010.

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6

Scholz, Fritz. Electroanalytical Methods: Guide to Experiments and Applications. Springer, 2014.

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7

Scholz, Fritz. Electroanalytical Methods: Guide to Experiments and Applications. Springer London, Limited, 2013.

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8

Electroanalytical Methods: Guide to Experiments and Applications. Springer, 2002.

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9

Bieniasz, Leslaw K. Modelling Electroanalytical Experiments by the Integral Equation Method. Springer, 2015.

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10

Bieniasz, Lesław K. Modelling Electroanalytical Experiments by the Integral Equation Method. Springer, 2016.

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11

Bieniasz, Lesław K. Modelling Electroanalytical Experiments by the Integral Equation Method. Springer, 2014.

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12

Schnorr, Kirsten. XUV Pump-Probe Experiments on Diatomic Molecules: Tracing the Dynamics of Electron Rearrangement and Interatomic Coulombic Decay. Springer, 2014.

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13

Schnorr, Kirsten. XUV Pump-Probe Experiments on Diatomic Molecules: Tracing the Dynamics of Electron Rearrangement and Interatomic Coulombic Decay. Springer International Publishing AG, 2016.

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14

Schnorr, Kirsten. XUV Pump-Probe Experiments on Diatomic Molecules: Tracing the Dynamics of Electron Rearrangement and Interatomic Coulombic Decay. Springer International Publishing AG, 2014.

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15

Barsoukov, Evgenij, and J. Ross Macdonald. Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley & Sons, Incorporated, John, 2008.

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16

Barsoukov, Evgenij, and J. Ross Macdonald. Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley & Sons, Incorporated, John, 2018.

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17

Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley-Interscience, 2005.

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18

Barsoukov, Evgenij, and J. Ross Macdonald. Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley & Sons, Incorporated, John, 2018.

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19

Barsoukov, Evgenij, and J. Ross Macdonald. Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley & Sons, Limited, John, 2018.

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20

Barsoukov, Evgenij, and J. Ross Macdonald. Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley & Sons, Limited, John, 2018.

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21

Fan, Raymond. Robotic handling in an electrochemical experiment. 1986.

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22

Arnold, Monica M., Lauren M. Burgeno, and Paul E. M. Phillips. Fast-Scan Cyclic Voltammetry in Behaving Animals. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199939800.003.0005.

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Gaining insight into the mechanisms by which neural transmission governs behavior remains a central goal of behavioral neuroscience. Multiple applications exist for monitoring neurotransmission during behavior, including fast-scan cyclic voltammetry (FSCV). This technique is an electrochemical detection method that can be used to monitor subsecond changes in concentrations of electroactive molecules such as neurotransmitters. In this technique, a triangular waveform voltage is applied to a carbon fiber electrode implanted into a selected brain region. During each waveform application, specific molecules in the vicinity of the electrode will undergo electrolysis and produce a current, which can be detected by the electrode. In order to monitor subsecond changes in neurotransmitter release, waveform application is repeated every 100 ms, yielding a 10 Hz sampling rate. This chapter describes the fundamental principles behind FSCV and the basic instrumentation required, using as an example system the detection of in vivo phasic dopamine changes in freely-moving animals over the course of long-term experiments. We explain step-by-step, how to construct and surgically implant a carbon fiber electrode that can readily detect phasic neurotransmitter fluctuations and that remains sensitive over multiple recordings across months. Also included are the basic steps for recording FSCV during behavioral experiments and how to process voltammetric data in which signaling is time-locked to behavioral events of interest. Together, information in this chapter provides a foundation of FSCV theory and practice that can be applied to the assembly of an FSCV system and execution of in vivo experiments.

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23

Heitz, Ewald, and Gerhard Kreysa. Principles of Electrochemical Engineering: Extended Version of a Dechema Experimental Course. Wiley & Sons, Incorporated, John, 1986.

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24

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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25

United States. National Aeronautics and Space Administration., ed. Electrolysis Performance Improvement Concept Study (EPICS) flight experiment-reflight: Final report : prepared under contract NAS9-18568 ... Cleveland, OH: Life Systems, Inc., 1997.

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26

United States. National Aeronautics and Space Administration., ed. Electrolysis Performance Improvement Concept Study (EPICS) flight experiment-reflight: Final report : prepared under contract NAS9-18568 ... Cleveland, OH: Life Systems, Inc., 1997.

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27

Beletskaya, I. P., K. P. Butin, and Reutov O. A. CH--Acids: A Guide to All Existing Problems of CH-Acidity with New Experimental Methods and Data, Including Indirect Electrochemical, Kinetic and Thermodynamic Studies. Elsevier Science & Technology Books, 2016.

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28

Narlikar, A. V., ed. The Oxford Handbook of Small Superconductors. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.001.0001.

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This handbook examines cutting-edge developments in research and applications of small or mesoscopic superconductors, offering a glimpse of what might emerge as a giga world of nano superconductors. Contributors, who are eminent frontrunners in the field, share their insights on the current status and great promise of small superconductors in the theoretical, experimental, and technological spheres. They discuss the novel and intriguing features and theoretical underpinnings of the phenomenon of mesoscopic superconductivity, the latest fabrication methods and characterization tools, and the opportunities and challenges associated with technological advances. The book is organized into three parts. Part I deals with developments in basic research of small superconductors, including local-scale spectroscopic studies of vortex organization in such materials, Andreev reflection and related studies in low-dimensional superconducting systems, and research on surface and interface superconductivity. Part II covers the materials aspects of small superconductors, including mesoscopic effects in superconductor–ferromagnet hybrids, micromagnetic measurements on electrochemically grown mesoscopic superconductors, and magnetic flux avalanches in superconducting films with mesoscopic artificial patterns. Part III reviews the current progress in the device technology of small superconductors, focusing on superconducting spintronics and devices, barriers in Josephson junctions, hybrid superconducting devices based on quantum wires, superconducting nanodevices, superconducting quantum bits of information, and the use of nanoSQUIDs in the investigation of small magnetic systems.

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