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verification. (October 2008) |
A Luggin capillary (also Luggin probe, Luggin tip, or Luggin-Haber capillary) is a small tube that is used in electrochemistry. The capillary defines a clear sensing point for the reference electrode near the working electrode. [1] [2] This is in contrast to the poorly defined, large reference electrode.[ clarification needed]
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^ Gollas, Bernhard and Kraub, Bernd and Speiser, Bernd and Stahl, Hartmut (1994), "Design of a single-unit Haber-Luggin capillary/dual reference-electrode system", Curr. Sep., 13 (2)
{{ citation}}: CS1 maint: multiple names: authors list ( link) - ^ Shchukin, E. D.; Vidensky, I. V.; Petrova, I. V. (1995), "Luggin's capillary in studying the effect of electrochemical reaction on mechanical properties of solid surfaces", Journal of Materials Science, 30 (12): 3111, Bibcode: 1995JMatS..30.3111S, doi: 10.1007/BF01209224, S2CID 135588869
- Tokuda, Koichi (1985). "Finite-Element Method Approach to the Problem of the IR-Potential Drop and Overpotential Measurements by Means of a Luggin-Haber Capillary". Journal of the Electrochemical Society. 132 (10): 2390–2398. Bibcode: 1985JElS..132.2390T. doi: 10.1149/1.2113584.
 | This electrochemistry-related article is a stub. You can help Wikipedia by expanding it. |
| This article needs additional citations for
verification. (October 2008) |
A Luggin capillary (also Luggin probe, Luggin tip, or Luggin-Haber capillary) is a small tube that is used in electrochemistry. The capillary defines a clear sensing point for the reference electrode near the working electrode. [1] [2] This is in contrast to the poorly defined, large reference electrode.[ clarification needed]
-
^ Gollas, Bernhard and Kraub, Bernd and Speiser, Bernd and Stahl, Hartmut (1994), "Design of a single-unit Haber-Luggin capillary/dual reference-electrode system", Curr. Sep., 13 (2)
{{ citation}}: CS1 maint: multiple names: authors list ( link) - ^ Shchukin, E. D.; Vidensky, I. V.; Petrova, I. V. (1995), "Luggin's capillary in studying the effect of electrochemical reaction on mechanical properties of solid surfaces", Journal of Materials Science, 30 (12): 3111, Bibcode: 1995JMatS..30.3111S, doi: 10.1007/BF01209224, S2CID 135588869
- Tokuda, Koichi (1985). "Finite-Element Method Approach to the Problem of the IR-Potential Drop and Overpotential Measurements by Means of a Luggin-Haber Capillary". Journal of the Electrochemical Society. 132 (10): 2390–2398. Bibcode: 1985JElS..132.2390T. doi: 10.1149/1.2113584.
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| This electrochemistry-related article is a stub. You can help Wikipedia by expanding it. |