SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2569355888> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W2569355888 endingPage "245" @default.
W2569355888 startingPage "235" @default.
W2569355888 abstract "Porous carbon materials are of tremendous importance for electrochemical energy storage. Their low cost, wide potential window and high surface area make them ideal electrodes for many applications. The activity of the electrode towards a certain reaction is given by both the available wetted surface area and the electron transfer constant k0. The present study investigates which electrochemical methods are suitable to determine k0 on porous carbon electrodes. For this purpose, we investigate the ferric/ferrous redox couple on a porous carbon nanotube electrode as model system. We show that results from cyclic voltammetry (CV) can yield an apparent catalytic effect and elucidate its origin. Chronoamperometry and electrochemical impedance spectroscopy are shown to produce consistent values for the exchange current density I0, which can then be normalized to k0. Limitations of both methods in terms of k0 and diffusion constants are discussed. The gathered insights in terms of validity of methods on porous electrodes are harnessed to review the recent literature on the vanadium redox reactions. Reported k0 values spread over four orders of magnitude and there is no consensus on the influence of heat- or acid-treatment on the kinetics. Taking into account the difficulties of CVs on porous electrodes we conclude that reasonable values for the vanadium reactions are k0<1.210−4cms−1 and that oxidation of the samples increases surface area, catalyzes the V2+/V3+ redox reaction but impedes the VO2+/VO2+ redox reaction." @default.
W2569355888 created "2017-01-13" @default.
W2569355888 creator A5027411861 @default.
W2569355888 creator A5067261184 @default.
W2569355888 date "2017-02-01" @default.
W2569355888 modified "2023-10-18" @default.
W2569355888 title "Determining Electron Transfer Kinetics at Porous Electrodes" @default.
W2569355888 cites W1494576238 @default.
W2569355888 cites W1509619240 @default.
W2569355888 cites W1934777069 @default.
W2569355888 cites W1964714733 @default.
W2569355888 cites W1967039262 @default.
W2569355888 cites W1967142014 @default.
W2569355888 cites W1973101250 @default.
W2569355888 cites W1975014911 @default.
W2569355888 cites W1979758465 @default.
W2569355888 cites W1986204058 @default.
W2569355888 cites W1987310987 @default.
W2569355888 cites W1993439357 @default.
W2569355888 cites W1995766384 @default.
W2569355888 cites W1997920364 @default.
W2569355888 cites W2003317602 @default.
W2569355888 cites W2004656266 @default.
W2569355888 cites W2005637740 @default.
W2569355888 cites W2008006752 @default.
W2569355888 cites W2009040766 @default.
W2569355888 cites W2009125974 @default.
W2569355888 cites W2010041418 @default.
W2569355888 cites W2010306601 @default.
W2569355888 cites W2011080806 @default.
W2569355888 cites W2013183794 @default.
W2569355888 cites W2013472311 @default.
W2569355888 cites W2017501318 @default.
W2569355888 cites W2023616314 @default.
W2569355888 cites W2029834077 @default.
W2569355888 cites W2031904472 @default.
W2569355888 cites W2045443848 @default.
W2569355888 cites W2051771917 @default.
W2569355888 cites W2052748944 @default.
W2569355888 cites W2055655412 @default.
W2569355888 cites W2058384402 @default.
W2569355888 cites W2060101643 @default.
W2569355888 cites W2070052402 @default.
W2569355888 cites W2070159662 @default.
W2569355888 cites W2070694846 @default.
W2569355888 cites W2074505750 @default.
W2569355888 cites W2075853414 @default.
W2569355888 cites W2076698684 @default.
W2569355888 cites W2078430923 @default.
W2569355888 cites W2083326792 @default.
W2569355888 cites W2084780872 @default.
W2569355888 cites W2087955525 @default.
W2569355888 cites W2090886941 @default.
W2569355888 cites W2092266381 @default.
W2569355888 cites W2093612285 @default.
W2569355888 cites W2094414728 @default.
W2569355888 cites W2109940960 @default.
W2569355888 cites W2110362151 @default.
W2569355888 cites W2110940509 @default.
W2569355888 cites W2115660773 @default.
W2569355888 cites W2126723786 @default.
W2569355888 cites W2128711016 @default.
W2569355888 cites W2135154284 @default.
W2569355888 cites W2136728287 @default.
W2569355888 cites W2137003574 @default.
W2569355888 cites W2138286674 @default.
W2569355888 cites W2171613439 @default.
W2569355888 cites W2177753842 @default.
W2569355888 cites W2187927377 @default.
W2569355888 cites W2254512223 @default.
W2569355888 cites W2277504845 @default.
W2569355888 cites W2302762924 @default.
W2569355888 cites W2312233234 @default.
W2569355888 cites W2317833046 @default.
W2569355888 cites W2333340011 @default.
W2569355888 cites W2345419569 @default.
W2569355888 cites W2437070529 @default.
W2569355888 cites W2478321670 @default.
W2569355888 cites W2487709666 @default.
W2569355888 cites W2507112185 @default.
W2569355888 cites W2554817736 @default.
W2569355888 cites W2585502767 @default.
W2569355888 cites W4229902815 @default.
W2569355888 cites W4252354109 @default.
W2569355888 cites W620725423 @default.
W2569355888 doi "https://doi.org/10.1016/j.electacta.2017.01.010" @default.
W2569355888 hasPublicationYear "2017" @default.
W2569355888 type Work @default.
W2569355888 sameAs 2569355888 @default.
W2569355888 citedByCount "69" @default.
W2569355888 countsByYear W25693558882017 @default.
W2569355888 countsByYear W25693558882018 @default.
W2569355888 countsByYear W25693558882019 @default.
W2569355888 countsByYear W25693558882020 @default.
W2569355888 countsByYear W25693558882021 @default.
W2569355888 countsByYear W25693558882022 @default.
W2569355888 countsByYear W25693558882023 @default.
W2569355888 crossrefType "journal-article" @default.