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Artículos de revistas sobre el tema "Electrochemistry"

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Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 31 de julio de 2024

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1

Das, Ananya, Pratham Nagaraj y Devadas Bhat Panemangalore. "Women in Electrochemistry- Contributions, Challenges and Potential Solutions". Journal of The Electrochemical Society 169, n.º 1 (1 de enero de 2022): 017503. http://dx.doi.org/10.1149/1945-7111/ac483e.

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The perspectives gained over the years by women working in electrochemistry are described in order to throw light on their history and current status and achievements in this field, the potential that the future holds, and the role that well-established female electrochemists and the electrochemical societies can play in improving upon the under-representation and under-recognition of women in electrochemistry. Here, a hopeful and optimistic future is presented, in which men and women, both equally contribute to this field, which encompasses our entire life, from corrosion and life of materials to transportation industry.
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2

Oliveira, Alexandra M., Rebecca R. Beswick y Yushan Yan. "Perspective—Trends in the Recognition of Women in Electrochemistry". Journal of The Electrochemical Society 169, n.º 2 (1 de febrero de 2022): 023508. http://dx.doi.org/10.1149/1945-7111/ac53d1.

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Like many science and engineering fields, electrochemistry has historically been dominated by male researchers. This perspective celebrates the contributions of female electrochemists and studies trends in the number of women recognized by the International Society of Electrochemistry (ISE), the Electrochemical Society (ECS), the National Academy of Engineering (NAE), and the National Academy of Sciences (NAS) for their work in electrochemical fields. In recent years, women are being recognized more frequently for impactful electrochemical research, signaling the beginning of a journey toward more equal representation in a field in which men and women together can solve the world’s greatest energy challenges.
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3

Pekhnyo, Vasyl, Anatoliy Omel’chuk y Larisa Koval. "To the 150th anniversary of the birth academician Volodymyr Oleksandrovich PLOTNIKOV". Ukrainian Chemistry Journal 89, n.º 2 (24 de marzo de 2023): 71–82. http://dx.doi.org/10.33609/2708-129x.89.02.2023.71-82.

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The article is dedicated to the 150th anniversary of the birth of V.O. Plotnikov is an academician of the Academy of Sciences of Ukraine, a chemist widely known to the scien­tific community, especially in the field of electrochemistry of non-aqueous solutions, the founder of the world-famous Kyiv School of Electrochemistry, which was formed in the 20s of the last century. The article presents the facts of Plotnikov's biography, in particular his studies, the period of his formation as an electrochemist scientist; theoretical and applied research results achieved by him and his followers, which relate to the most progressive for that time provisions on electrolytic disso­ciation, the chemical theory of solutions and the chemistry of complex compounds.
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4

Omelchuk, Anatoliy y Larisa Koval. "THE LIFE AND CREATIVE PATH OF YURІY DELIMARSKYІ (ON THE OCCASION OF THE 120 OF THE BIRTH OF YURIY DELIMARSKYІ)". Ukrainian Chemistry Journal 89, n.º 10 (24 de noviembre de 2023): 145–57. http://dx.doi.org/10.33609/2708-129x.89.10.2023.145-157.

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The article is devoted to the 120th anniversary of the birth of Yu.K. Delimarskyі, Member of the Academy of Sciences of Ukraine, Doctor of Chemistry, professor, honored scientist of Ukraine, winner of the State Prize of Ukraine in science and technology, L.V. Pysarzhevsky Prize of the Academy of Sciences of the Ukrai­nian SSR, D.I. Mendeleev Gold Medal, a scientist widely known to the scientific community, in particular in the field of electrochemistry of ionic melts and solid electrolytes, one of the talented representatives of the "Kyiv School of Electrochemistry" and co-author of the scientific discovery "The phenomenon of metal transfer from the cathode to the anode during the electrolysis of ionic melts". The article presents some facts of Delimarskyi's biography, in particular his education, the period of his formation as scientist electrochemist; scientific achievements achieved by him, his students and followers in the field of electrochemistry of molten salts, chemistry and technology of inorganic substances and non-ferrous metals. Delimarskyi's personal memories of his work at the V.I. Vernadskyi Institute of General and Inorganic Chemistry of the National Academy of Sciences of Ukraine are peresented.
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5

Harris, Kailot C., Sophie E. Lee y Grace B. Panetti. "Perspective—Toward a More Inclusive Electrochemistry Community: Reducing Gender Inequity is a Team Effort". Journal of The Electrochemical Society 169, n.º 3 (1 de marzo de 2022): 037502. http://dx.doi.org/10.1149/1945-7111/ac56a0.

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Though in recent years there has been an increase in awareness regarding the gap between cisgender male and female STEM researchers, there exists less understanding of the greater gap between cisgender and transgender, non-binary, and gender non-conforming individuals. The electrochemistry community is not unique amongst STEM fields in terms of the challenges faced by TBNGNC researchers, but as electrochemists we believe that the field is behind where we hope it could be. Herein, we discuss the challenges faced by TNBGNC individuals, successfully implemented policies to support these individuals, and directions the community can take to continue in this positive direction.
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6

Arrigan, D. "Electrochemistry". Chromatographia 71, n.º 3-4 (15 de diciembre de 2009): 351. http://dx.doi.org/10.1365/s10337-009-1435-y.

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7

Bard, A. J. y R. W. Murray. "Electrochemistry". Proceedings of the National Academy of Sciences 109, n.º 29 (16 de julio de 2012): 11484–86. http://dx.doi.org/10.1073/pnas.1209943109.

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8

Perkins, Ronald I. "Electrochemistry". Journal of Chemical Education 62, n.º 11 (noviembre de 1985): 1018. http://dx.doi.org/10.1021/ed062p1018.1.

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9

Rieger, PhilipH. "Electrochemistry". Electrochimica Acta 34, n.º 10 (octubre de 1989): 1489–90. http://dx.doi.org/10.1016/0013-4686(89)87193-2.

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10

Pleskov, Yu V. "Electrochemistry". Russian Journal of Electrochemistry 36, n.º 3 (marzo de 2000): 342–43. http://dx.doi.org/10.1007/bf02827983.

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11

Parsons, R. "Electrochemistry". Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 274, n.º 1-2 (diciembre de 1989): 336–37. http://dx.doi.org/10.1016/0022-0728(89)87059-7.

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12

Lipkowski, Jacek. "Biomimetics a New Paradigm for Surface Electrochemistry". Review of Polarography 58, n.º 2 (2012): 63–65. http://dx.doi.org/10.5189/revpolarography.58.63.

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13

Gao, Hang, Huangxian Ju, Qiuyun Li y Russell Li. "Publisher’s Note: Universal Journal of Electrochemistry—A New Open Access Journal". Universal Journal of Electrochemistry 1, n.º 2 (21 de julio de 2023): 1. http://dx.doi.org/10.37256/ujec.1220232198.

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Electrochemistry is a branch of physical chemistry focusing on the movement of electrons. It is comprised of synthetic electrochemistry, quantum electrochemistry, semiconductor electrochemistry, organic conductor electrochemistry, spectroelectrochemistry, bioelectrochemistry and many other subcategories. At present, electrochemistry has been applied in various fields of physical, chemical and biological sciences.
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14

Linfield, Steven, Sylwester Gawinkowski y Wojciech Nogala. "Exploring Sub-Detection Limit Electrochemistry with Luminogenic Reporting Reactions". ECS Meeting Abstracts MA2022-02, n.º 54 (9 de octubre de 2022): 2048. http://dx.doi.org/10.1149/ma2022-02542048mtgabs.

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Electrochemistry has a limit of detection imposed by the inherent shot-noise present in electrical currents [1]. As a result, the direct measurement of single-electron charge transfer processes is not feasible using electrochemical methods. However, luminescence can be measured with single photon resolution and the development of a method to efficiently convert an electrochemical signal to an optical one is expected to be a key step in overcoming the detection limit of electrochemistry [2]. An optical conversion technique based on closed bipolar electrochemistry has recently been demonstrated using large glassy carbon electrodes [3,4]. In this technique, which is illustrated in Fig. 1, any electrochemical process of interest occurring in one cell (the detection cell) can be used to induce either fluorescence or chemiluminescence in another cell (the reporting cell). Fluorogenic reporting reactions have the advantage that several photons can be emitted during the lifetime of each fluorophore, leading to signals with a greater intensity. However, the facile photooxidation of some fluorophores introduces the need for chemical reductants, which complicates the electrochemistry [5]. Conversely, the constant electron-to-photon relationship of chemiluminescence makes it an easier process for calculating the number of electrons passed in the detection cell, but also leads to a reduced signal intensity [6]. There is still much work needed to understand which reporting mechanism is more suited to sub-detection limit electrochemistry and how to reach the maximum sensitivity of single-electron charge transfer processes. In this work, we present our recent progress towards the measurement of sub-detection limit electrochemical processes via luminogenic reporting reactions. We compare the conversion mechanisms of reporting reactions which use either fluorescence or chemiluminescence, and we study the factors which can affect the sensitivity of the conversion, such as the presence of chemical reductants. Finally, we test the temporal resolution and sensitivity of optical conversion techniques in the measurement of single entity electrochemical processes. The results shown herein are of importance to electrochemists wishing to use optical conversion to probe below the detection limit of electrochemistry. Literature [1] R. Gao, M. A. Edwards, J. M. Harris and H. S. White, Curr. Opin. Electrochem., 2020, 22, 170–177. [2] Y. Wu, S. Jamali, R. D. Tilley and J. J. Gooding, Faraday Discuss., 2022, 233, 10–32. [3] J. P. Guerrette, S. J. Percival and B. Zhang, J. Am. Chem. Soc., 2013, 135, 855–861. [4] J. S. Stefano, F. Conzuelo, J. Masa, R. A. A. Munoz and W. Schuhmann, J. Electroanal. Chem., 2020, 872, 113921. [5] S. M. Oja, J. P. Guerrette, M. R. David and B. Zhang, Anal. Chem., 2014, 86, 6040–6048. [6] P. A. Defnet and B. Zhang, ChemElectroChem, 2020, 7, 252–259. Figure 1
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15

Alexander, Christopher L. "Electrochemistry in Action". Electrochemical Society Interface 31, n.º 3 (1 de septiembre de 2022): 49. http://dx.doi.org/10.1149/2.005223if.

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The goal of this column is to acknowledge novel contributions that advance particular fields while engaging a new audience through detailed and easy to understand descriptions of advances in electrochemistry. Each installment will include a topic area such as electrochemistry in archaeology, steel manufacturing, water treatment, etc. and will describe a novel or unconventional application of electrochemistry. We believe that, in doing so, not only will “Electrochemistry in Action” inform readers but perhaps it will even inspire creativity and broaden interest in the field.
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16

Burbank, Paul B., James R. Gibson, Harry C. Dorn y Mark R. Anderson. "Electrochemistry of C82: relationship to metallofullerene electrochemistry". Journal of Electroanalytical Chemistry 417, n.º 1-2 (noviembre de 1996): 1–4. http://dx.doi.org/10.1016/s0022-0728(96)01015-7.

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17

von Eschwege, Karel G., Lydia van As y Jannie C. Swarts. "Electrochemistry and spectro-electrochemistry of dithizonatophenylmercury(II)". Electrochimica Acta 56, n.º 27 (noviembre de 2011): 10064–68. http://dx.doi.org/10.1016/j.electacta.2011.08.094.

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18

Abbott, Andrew. "Focus on electrochemistry: bringing electrochemistry to life". Chemical Society Reviews 26, n.º 3 (1997): iiib. http://dx.doi.org/10.1039/cs997260iiib.

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19

Gollas, Bernhard y Viktor Hacker. "Joint event: 8th Regional Symposium on Electrochemistry of South-East Europe (RSE-SEE 8) and 9th Kurt Schwabe Symposium". Journal of Electrochemical Science and Engineering 13, n.º 5 (9 de agosto de 2023): 713–14. http://dx.doi.org/10.5599/jese.1989.

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After a one-year delay caused by the COVID-19 pandemic, the 8th Regional Symposium on Electrochemistry of South-East Europe was held jointly with the 9th Kurt Schwabe Symposium from July 11-15, 2022 at Graz University of Technology in Austria. This special edition of the jESE contains a collection of articles presented at this meeting. The 5-day event (including Monday’s Satellite Student Symposium) organized by the Association of South-East European Electrochemists (ASEEE) featured 5 plenaries, 15 keynotes, 71 contributed talks and 38 posters and was attended by 152 scientists and researchers from 23 countries.
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20

Robbs, Peter H. y Neil V. Rees. "Nanoparticle electrochemistry". Physical Chemistry Chemical Physics 18, n.º 36 (2016): 24812–19. http://dx.doi.org/10.1039/c6cp05101d.

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This perspective article provides a survey of recent advances in nanoscale electrochemistry, with a brief theoretical background and a detailed discussion of experimental results of nanoparticle based electrodes, including the rapidly expanding field of “impact electrochemistry”.
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21

Abe, Hiroya, Tomoki Iwama y Yuanyuan Guo. "Light in Electrochemistry". Electrochem 2, n.º 3 (26 de agosto de 2021): 472–89. http://dx.doi.org/10.3390/electrochem2030031.

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Electrochemistry represents an important analytical technique used to acquire and assess chemical information in detail, which can aid fundamental investigations in various fields, such as biological studies. For example, electrochemistry can be used as simple and cost-effective means for bio-marker tracing in applications, such as health monitoring and food security screening. In combination with light, powerful spatially-resolved applications in both the investigation and manipulation of biochemical reactions begin to unfold. In this article, we focus primarily on light-addressable electrochemistry based on semiconductor materials and light-readable electrochemistry enabled by electrochemiluminescence (ECL). In addition, the emergence of multiplexed and imaging applications will also be introduced.
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22

Santos, Diogo M. F., Rui F. M. Lobo y César A. C. Sequeira. "On the Features of Ultramicroelectrodes". Defect and Diffusion Forum 273-276 (febrero de 2008): 602–7. http://dx.doi.org/10.4028/www.scientific.net/ddf.273-276.602.

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Ultramicroelectrodes offer several unique characteristics which enable new types of electrochemical measurements. These include: 1) small size; 2) minimisation of iR effects; 3) rapid response; and 4) steady-state response at moderate times. These features enable experiments as diverse as in vivo electrochemistry, electrochemistry in pharmacology, nanoelectrochemistry, electrochemistry in solvents such as benzene, microsecond electrochemistry, and flow-rate independent electrochemistry. Thus, it is apparent that the use of ultramicroelectrodes has become a rapidly growing area of interest. In this paper, the attributes of ultramicroelectrodes, its construction, the equations of diffusion, and key applications of electrochemistry at ultramicroelectrodes, are analysed.
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23

GERISCHER, Heinz. "Electrochemistry Today". Denki Kagaku oyobi Kogyo Butsuri Kagaku 58, n.º 6 (5 de junio de 1990): 488. http://dx.doi.org/10.5796/kogyobutsurikagaku.58.488.

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24

Hubbard, Arthur T. "Surface electrochemistry". Langmuir 6, n.º 1 (enero de 1990): 97–105. http://dx.doi.org/10.1021/la00091a014.

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25

Schilter, David. "Extraterrestrial electrochemistry". Nature Reviews Chemistry 2, n.º 12 (21 de noviembre de 2018): 395. http://dx.doi.org/10.1038/s41570-018-0061-3.

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26

Matthews, Jermey N. A. "Nanoscale electrochemistry". Physics Today 64, n.º 10 (octubre de 2011): 20. http://dx.doi.org/10.1063/pt.3.1284.

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27

Saji, Viswanathan S. y Chi-Woo Lee. "Selenium electrochemistry". RSC Advances 3, n.º 26 (2013): 10058. http://dx.doi.org/10.1039/c3ra40678d.

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28

Schuster, R., V. Kirchner, X. H. Xia, A. M. Bittner y G. Ertl. "Nanoscale Electrochemistry". Physical Review Letters 80, n.º 25 (22 de junio de 1998): 5599–602. http://dx.doi.org/10.1103/physrevlett.80.5599.

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29

Denio, Allen A. "Misplaced electrochemistry". Journal of Chemical Education 62, n.º 11 (noviembre de 1985): 1020. http://dx.doi.org/10.1021/ed062p1020.

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30

Yudin, Andrei K. y Tung Siu. "Combinatorial electrochemistry". Current Opinion in Chemical Biology 5, n.º 3 (junio de 2001): 269–72. http://dx.doi.org/10.1016/s1367-5931(00)00202-7.

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31

Mallouk, Thomas E. "Miniaturized electrochemistry". Nature 343, n.º 6258 (febrero de 1990): 515–16. http://dx.doi.org/10.1038/343515b0.

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32

Oja, Stephen M., Marissa Wood y Bo Zhang. "Nanoscale Electrochemistry". Analytical Chemistry 85, n.º 2 (16 de noviembre de 2012): 473–86. http://dx.doi.org/10.1021/ac3031702.

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33

Diamond, Dermot. "Analytical electrochemistry". TrAC Trends in Analytical Chemistry 15, n.º 1 (enero de 1996): X—XI. http://dx.doi.org/10.1016/s0165-9936(96)90116-8.

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34

Bartlett, P. N. "Interfacial electrochemistry". Journal of Electroanalytical Chemistry 421, n.º 1-2 (enero de 1997): 227. http://dx.doi.org/10.1016/s0022-0728(97)80108-8.

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35

Peter, L. M. "Semiconductor electrochemistry". Electrochimica Acta 33, n.º 1 (enero de 1988): 175. http://dx.doi.org/10.1016/0013-4686(88)80055-0.

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36

Scott, K. "Industrial Electrochemistry". Electrochimica Acta 36, n.º 14 (enero de 1991): 2193. http://dx.doi.org/10.1016/0013-4686(91)85229-z.

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37

Pletcher, D. "Analytical electrochemistry". Journal of Electroanalytical Chemistry 385, n.º 2 (abril de 1995): 283. http://dx.doi.org/10.1016/0022-0728(95)90215-5.

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38

Hassel, Achim Walter. "Pervasive electrochemistry". Journal of Solid State Electrochemistry 24, n.º 9 (4 de agosto de 2020): 2083–85. http://dx.doi.org/10.1007/s10008-020-04772-2.

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39

Speiser, Bernd. "Molecular electrochemistry". Analytical and Bioanalytical Chemistry 372, n.º 1 (8 de diciembre de 2001): 29–30. http://dx.doi.org/10.1007/s00216-001-1153-2.

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40

Hill, H. Allen O. "Enzyme Electrochemistry". Australian Journal of Chemistry 59, n.º 4 (2006): 231. http://dx.doi.org/10.1071/ch06120.

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41

Bieniasz, L. K. "While educating electrochemists, do not forget we live in a computer era". Journal of Solid State Electrochemistry, 18 de marzo de 2023. http://dx.doi.org/10.1007/s10008-023-05457-2.

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AbstractThe appearance of computers has led to considerable changes in research practices of natural sciences, including electrochemistry. The current status of the computerization in electrochemistry is briefly discussed, with the conclusion that the progress in this area is not as fast as in other natural science disciplines. Some postulates are formulated, referring to the education of young generations of electrochemists, that might bring improvements.
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42

Compton, Richard G. y Stanislav V. Sokolov. "Electrochemistry needs electrochemists: “goodbye to rotating discs”". Journal of Solid State Electrochemistry, 14 de marzo de 2023. http://dx.doi.org/10.1007/s10008-023-05443-8.

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AbstractThe essential need for expert, fully trained electrochemists in the successful application of the subject is illustrated with several examples including the use of rotating electrodes and impedance spectroscopy where the use of the techniques in “black box” mode non-experts is likely to lead to disappointment or embarrassment.
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43

Doménech-Carbó, Antonio, Mariele Martini, Francesca Di Turo, Géssica Domingos de Silveira y Noemí Montoya. "Electrochemistry for non-electrochemists: a postgraduate formative project". Journal of Solid State Electrochemistry, 5 de marzo de 2023. http://dx.doi.org/10.1007/s10008-023-05429-6.

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AbstractThe essential guidelines are presented of a postgraduate course on electrochemistry for master studies at the University of Valencia (Spain). This course has been designed for students with a minimal knowledge of electrochemistry. It is based on laboratory experiments that, starting from an initial theoretical core, promotes the in-laboratory discussion of concepts, operations, functional relations, etc. The course, although focused on voltammetric techniques, covers the main concepts and experimental aspects of electrochemistry and particular attention is put to erroneous conceptions regarding fundamental physicochemical concepts and operations (misconceptions) as well as on general aspects of the scientific methodology (meta-conceptions) around this discipline.
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44

"Electrochemistry". Choice Reviews Online 36, n.º 05 (1 de enero de 1999): 36–2765. http://dx.doi.org/10.5860/choice.36-2765.

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45

"ELECTROCHEMISTRY". A-to-Z Guide to Thermodynamics, Heat and Mass Transfer, and Fluids Engineering e (2006). http://dx.doi.org/10.1615/atoz.e.elec.

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46

"Electrochemistry". Chemistry International -- Newsmagazine for IUPAC 32, n.º 5 (enero de 2010). http://dx.doi.org/10.1515/ci.2010.32.5.31.

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47

"Electrochemistry". Choice Reviews Online 45, n.º 04 (1 de diciembre de 2007): 45–2035. http://dx.doi.org/10.5860/choice.45-2035.

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48

"Electrochemistry: Electrochemical Cell, Thermodynamic and Kinetic Aspects". Journal of Marine Science Research and Oceanography 5, n.º 2 (4 de abril de 2022). http://dx.doi.org/10.33140/jmsro.05.02.01.

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The field of electrochemistry can be defined as the set of physical and chemical phenomena involved by the passage of an electric current in an ionic conductor. These phenomena involve the use of electrodes characterized by at least one interface common to two conductors of different nature. They manifest themselves in various ways in electrochemical reactors made up of two electronic conductors or electrodes separated by an ionic conductive medium. After having defined the main phenomena involved in the flow of current, the article presents the thermodynamic and kinetic aspects of electrochemistry (electrochemical cell). The main industrial applications of electrochemistry are briefly presented.
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49

"Encyclopedia of electrochemistry: v.7b: Inorganic electrochemistry". Choice Reviews Online 44, n.º 06 (1 de febrero de 2007): 44–3299. http://dx.doi.org/10.5860/choice.44-3299.

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50

"Electrochemistry summer school: instrumental methods in electrochemistry". Journal of Electroanalytical Chemistry 565, n.º 1 (abril de 2004): 147. http://dx.doi.org/10.1016/j.jelechem.2003.12.025.

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