ライフサイエンスコーパス: cathodic

1 lved O(2) was found to have no effect on the cathodic accumulation of La(3+).

2 With the addition of Ge, cathodic activation of Mg subject to cyclic polarisation

3 ) have been demonstrated to be influenced by cathodic activation, which implies that the rate of the

4 improving corrosion resistance by retarding cathodic activation.

5 ough this study, we also determined that the cathodic activity of quinone derivatives during the disc

6 2+)(aq) released from Co4POM by two methods (cathodic adsorptive stripping voltammetry and inductivel

7 -free, self-powered biosensor, in which both cathodic and anodic bioelectrocatalytic reactions are po

8 f 4-ABA are achieved by applying alternating cathodic and anodic electrochemical potential pulses, le

9 Cathodic and anodic iDC steps instantaneously reduced an

10 At both microelectrodes, the cathodic and anodic limiting currents are linearly propo

11 The splitting of cathodic and anodic peak potentials as a function of sca

12 ace at -0.370 V and -0.305 V vs. Ag/AgCl for cathodic and anodic peaks, respectively.

13 measure voltammetric properties of both the cathodic and anodic poles in a closed bipolar cell from

14 ction (ORR) and Ag electrodissolution at the cathodic and anodic poles, respectively, of bipolar elec

15 ng only, whereas HMTD produced ECL upon both cathodic and anodic potential scanning.

16 s due to reaction with products generated by cathodic and anodic processes at the emitter were observ

17 chemical reactions involve carefully matched cathodic and anodic reactions, the precise matching of h

18 ible electron transfer processes in both the cathodic and anodic regimes.

19 a midpoint potential of -0.225 V and -0.075, cathodic and anodic respectively.

20 ble, dual "ON/OFF" switchability in both the cathodic and anodic states.

21 n such that one species exhibits exclusively cathodic (anodic) current, allowing the other species to

22 to the ion hydrophobicity, manifested by the cathodic (anodic) shift of the onset potential with anio

23 luate the diagnostic accuracy of Circulating Cathodic Antigen (CCA) and of double Kato-Katz (KK) faec

24 ect eggs and using point-of-care circulating Cathodic Antigen (POC-CCA) test to detect antigen in uri

25 ue], serology, and point-of-care circulating cathodic antigen [POC-CCA] urine cassette test) in 107 n

26 95% CI 0.55-0.88), but the urine circulating cathodic antigen test remained positive in 85% participa

27 had trace positive point-of-care circulating cathodic antigen tests, which was higher than prevalence

28 had trace negative point-of-care circulating cathodic antigen tests.

29 el but industrially viable modified filtered cathodic arc (FCA) method, undergo a phase transformatio

30 A room temperature cathodic arc deposition technique is used to produce hig

31 ture of titanium oxide films grown by pulsed cathodic arc had been investigated by XRD, SEM and Raman

32 wed that 1 exhibits the typical irreversible cathodic behavior of pristine Sc(3)N@I(h)-C(80), resembl

33 An increase in cathodic bias (-0.55 V(RHE)) resulted in the formation o

34 d dramatically when the electrode is held at cathodic bias.

35 We show that by designing our anodic and cathodic bioelectrocatalysts with osmium based redox pol

36 ilirubin oxidase (MvBOx), used as anodic and cathodic bioelements, respectively, were immobilised on

37 m verrucaria bilirubin oxidase as anodic and cathodic bioelements, respectively.

38 es suggested the possible involvement of the cathodic biofilm.

39 ed by a comparative analysis of experimental cathodic blips and calculated hexachloroplatinate molecu

40 e applied potential on the carbon fiber UME, cathodic blips were observed in the amperometric i-t res

41 aline pH fronts from anodic BQ oxidation and cathodic BQ reduction caused pH transients.

42 ents carried out using MWNT(+) N8 (-) as the cathodic catalyst shows that it is very active for ORR w

43 H) and laccase functioning as the anodic and cathodic catalyst, respectively.

44 some perspective on both anode materials and cathodic catalysts are also outlined for better developm

45 The anodic materials and cathodic catalysts that have, respectively, led to high-

46 aterials functioning as efficient anodic and cathodic catalysts, respectively.

47 n to HCO2(-) on the metals currently used as cathodic catalysts.

48 "acclimated" biocathode showed an augmented cathodic catalytic wave with a midpoint potential at ca.

49 erformed with a microdialysis membrane-based cathodic cell that also permits protein fractions to be

50 oint-of-use treatment device consisting of a cathodic cell that produced hydrogen peroxide (H2O2) fol

51 ivalent to that achieved with a conventional cathodic cell, and no loss of protein is observed during

52 arboxylate-rich broths are electrolyzed in a cathodic chamber from which anions flux across an anion

53 nd oxygen-induced asymmetry in the anodic-to-cathodic charge ratio.

54 be generated in stainless-steel surfaces by cathodic charging, as a consequence of lattice strain ge

55 The cathodic CK isoform existed only in the channel catfish

56 Heterogeneous catalysts for cathodic CO2-to-CO associated with an O2-evolving anodic

57 By recirculating the urine over the cathodic compartment of an electrochemical cell, the pH

58 dly acidic conditions, and were stable under cathodic conditions for at least 2 h in acidic as well a

59 Under cathodic conditions, the catalyst is relatively Pb-rich

60 Under cathodic conditions, the primary oxidant formed was H(2)

61 However, the EET pathway of cathodic conversion of fumarate to succinate is still un

62 This paper studies the cathodic corrosion of a spherical single crystal of plat

63 For cathodic corrosion on the (100) facet and on higher-inde

64 Cathodic corrosion represents an enigmatic electrochemic

65 s of lower peak potential (E(pc)) and higher cathodic current (I(pc)).

66 lytical signal of simultaneous changes of CA cathodic current and PM resonant frequency.

67 The cathodic current change measured in the presence of H(2)

68 e electrochemically active surface area, the cathodic current densities are similar for both carbon e

69 re deposited with this anode under different cathodic current densities.

70 upport (2 mg cm(-2) mass loading) produced a cathodic current density of 20 mA cm(-2) at an overpoten

71 Application of a 0.26 mA/cm(2) cathodic current density reduced chloramines to ammonia

72 Brief pulses of cathodic current evoked transient inward currents in gan

73 A nucleophilic order profile related to the cathodic current intensity decrease was observed.

74 The Fe3+ provides the high cathodic current necessary to produce a significant Lore

75 It is shown here that a discrete cathodic current pulse across an H (+)-selective polymer

76 d blood samples in a matter of seconds via a cathodic current pulse.

77 A sustained constant anodic or cathodic current resulted in an adaptation to the stimul

78 er species to be determined from its anodic (cathodic) current.

79 d Os compounds are not affected by 1a though cathodic currents increase drastically in the presence o

80 rs as evidenced by the concurrent anodic and cathodic currents, respectively.

81 dation (Coulombic efficiency (CE) 85.3%) and cathodic denitrification (CE 87.3%) (-400 mV Ag/AgCl).

82 systems involve anodic carbon oxidation and cathodic denitrification catalyzed by two electroactive

83 Further, the alkalinity produced from cathodic denitrification partially (19%) neutralized the

84 show a more positive onset potential, higher cathodic density, lower H(2)O(2) yield, and higher elect

85 Accumulation was performed by cathodic deposition and evaluated by anodic stripping an

86 Importantly, this oxygen-reduction-triggered cathodic deposition does not lead to the plating of redu

87 Herein, we report a facile cathodic deposition process that enables the large-area

88 inal 200 mV turn-on voltage shift toward the cathodic direction was measured, which is comparable to

89 The cathodic dissolution of platinum, resulting from the oxy

90 aphy, unstable electroosmotic flow (EOF) and cathodic drift are significant problems when this medium

91 ibits asymmetric ECL transients in which the cathodic ECL pulse is smaller than the anodic pulse due

92 g(2)Se QDs have shown a strong and efficient cathodic ECL signal with K(2)S(2)O(8) as coreactant on t

93 -driven bulk fluid flow velocity at only the cathodic edge of the BPE.

94 dence of a diminished role of cytochromes in cathodic EET.

95 10 mg/L Cr(VI) addition in the cathode, and cathodic efficiency increased steadily over an 8 day ope

96 We report the study of Mg cathodic electrochemical deposition on Ti and Au electro

97 onic liquid assisted simultaneous anodic and cathodic electrochemical exfoliation of iso-molded graph

98 DTBs exhibit reversible cathodic electrochemistry and boron-centered Lewis acidi

99 Despite its cathodic electrochromism, the PEDOT:PSS has a transmissi

100 The method is illustrated by cathodic electrodeposition of Zn(4)O(BDC)(3) (MOF-5; BDC

101 mpound thin films has been carried out using cathodic electrodeposition technique at different cathod

102 For cathodic electrodeposition, thin films can be formed usi

103 nto the target electrode is achieved here by cathodic electrodeposition.

104 ) and the surface is biased (-) to drive the cathodic electrografting reaction under ambient conditio

105 The electrochemical cathodic electrografting reaction, previously demonstrat

106 In MFCs, oxygen serves as a cathodic electron acceptor and oxygen reduction kinetics

107 Cathodic electron flow is also correlated with a highly

108 In this study, we investigated cathodic electron uptake by Fe(0) -corroding Desulfovibr

109 Induction of cathodic electron uptake by lactate-starved D. ferrophil

110 We also showed that cathodic electron uptake is dependent on SO(4) (2-) redu

111 ed voltages using an organic solution of the cathodic electropaint rather than the more frequently ut

112 spect to MS inlet, reduction of water at the cathodic end of the electrode and, in the case of ss and

113 Reduction of p-benzoquinone at the cathodic end of the shared electrode to hydroquinone, an

114 +/- 0.1) mA cm(-2), and a record n-propanol cathodic energy conversion efficiency (EE(cathodic half-

115 nsity of (108 +/- 5) mA cm(-2) and a methane cathodic energy efficiency of 20% using a dilute CO(2) g

116 of 1.3 amperes per square centimeter at 45% cathodic energy efficiency.

117 Effect of cathodic enzymatic decolorization of reactive blue 221 (

118 ilirubin oxidase were selected as anodic and cathodic enzymes, respectively.

119 otential characteristics of these anodic and cathodic fentanyl peaks, generated using two CSWV cycles

120 ) effect, resulting in better control of the cathodic focusing (CF) peak.

121 rove here that both anodic focusing (AF) and cathodic focusing (CF) regimes can be reached in the sam

122 The cogeneration of cathodic H(2) in the MEC further increased the energy re

123 e conversion of fermentation byproducts into cathodic H2 in the MEC.

124 iciencies of PhiCO approximately 80% for the cathodic half reaction.

125 ally evaluated separately for the anodic and cathodic half-cell reactions in a three-electrode system

126 The FE and EE(cathodic half-cell) represent a 1.3x improvement relativ

127 ol cathodic energy conversion efficiency (EE(cathodic half-cell)) of 21%.

128 which in many cases poorly couples with the cathodic half-reaction.

129 In doing so, both the anodic and cathodic half-reactions yield desirable products with a

130 nd hydrogenase for performing the anodic and cathodic half-reactions, respectively.

131 chment of negatively charged analytes at the cathodic hydrogel plug-microchannel solution interface.

132 As the most well-known electrocatalyst for cathodic hydrogen evolution in water splitting electroly

133 e report that Ge is potent in supressing the cathodic hydrogen evolution reaction (reduction of water

134 ularly for alkaline electrolyzers, where the cathodic hydrogen evolution reaction is slower in base t

135 Cyclic voltammetry yielded a characteristic cathodic hydrogen production signal when the potential w

136 Peak-shaped cathodic i-V curves for nitro-based SAMs were observed a

137 tfish (Ictalurus punctatus) with one unusual cathodic isoform that was previously found only in patho

138 on of the sensor were at least comparable to cathodic ligand exchange/adsorptive cathodic stripping v

139 by electrocatalytic oxygen reduction on the cathodic membrane side and subsequently terminated by H(

140 Compositional alteration of the cathodic microbiota suggested that a Methanothermobacter

141 ferrins are eluted by combining gravity with cathodic mobilization.

142 of a nonheme, iron-involving EET process in cathodic mode.

143 increased ionic concentrations in the entire cathodic nanochannel, whereas in the low-conductance sta

144 mmetric observations, evidencing both a more cathodic O2 release and a more cathodic onset of Ni oxid

145 g both a more cathodic O2 release and a more cathodic onset of Ni oxidation at higher pH.

146 trochemical reduction of CO2 with the lowest cathodic onset potential (E(cat) = -1.2 V vs SCE).

147 Cathodic overpotential was identified as the main energy

148 hibitive cost of platinum for catalyzing the cathodic oxygen reduction reaction (ORR) has hampered th

149 s metal materials are highly desired for the cathodic oxygen reduction reaction (ORR) in microbial fu

150 ctive and durable Pt-based catalysts for the cathodic oxygen reduction reaction (ORR), which demands

151 rily limited by the sluggish kinetics of the cathodic oxygen reduction reaction (ORR), which requires

152 tical since the theoretical potential of the cathodic oxygen reduction reaction is at 1.23 V.

153 Replacement of noble metals in catalysts for cathodic oxygen reduction reaction with transition metal

154 nanoporous Ni/Pt alloy nanoparticles for the cathodic oxygen reduction reaction.

155 h carbon monoxide/methanol tolerance for the cathodic oxygen reduction reaction.

156 rbed to the deposited gold nanoparticles for cathodic oxygen reduction starting at 0.71V vs. NHE.

157 xic zone flare off electrons through intense cathodic oxygen respiration without energy conservation;

158 tivation, which implies that the rate of the cathodic partial reaction is enhanced as a result of ano

159 the differences in amperometric responses at cathodic peak (+0.2V) of potassium ferricyanide, whereas

160 vs SHE) that is followed by an irreversible cathodic peak (E(pc) = -2.17 V vs SHE).

161 , because some of their components produce a cathodic peak at almost the same potential as that of su

162 The decrement in the MB cathodic peak current (i(pc)) signal as a result of the

163 rum albumins towards anions, the increase in cathodic peak current in anionic redox probe after immun

164 A linear response of silver cathodic peak current with concentration of the target o

165 100 mV s(-1)) and the asymmetric anodic and cathodic peak currents indicate that the electron transf

166 It was shown that the cathodic peak in voltammograms at about -250 mV vs. Ag/A

167 electrons are passed through the associated cathodic peak on the reverse scan.

168 shape memory NiTi alloys leads to anodic and cathodic peak potential shifts by up to ~30 mV in an ele

169 s in solution results in decreased anodic-to-cathodic peak separations and anodic peak full widths at

170 produce a dihydrocoumarin) causes the second cathodic peak.

171 or reduction of 1-5 exhibit two irreversible cathodic peaks: (a) the first peak arises from one-elect

172 Cathodic photocurrent at high MV(+2) concentrations are

173 on (HER), and p-Si/W2C photocathodes produce cathodic photocurrent at potentials more positive than 0

174 This design approach led to anodic and cathodic photocurrent densities of + 38.41 mA cm(-2) (+

175 on spectroscopy studies demonstrate that the cathodic photocurrent results from reduction of the phot

176 In contrast, the p-(In,Ga)N NWs showed a cathodic photocurrent under illumination which was corre

177 The solution-processed MeNH3PbI3 shows cathodic photocurrents and hence p-type behavior.

178 The generation of high cathodic photocurrents by sensitizing a degenerate n-typ

179 sensitized mesoporous ITO electrodes deliver cathodic photocurrents of up to 5.96+/-0.19 mA cm(-2), w

180 onto a Ag prism of specific size that has a cathodic photovoltage resulting from plasmon "hot hole"

181 ise that these CoS2-like clusters form under cathodic polarization and expose a high density of catal

182 graphitization of amorphous carbons through cathodic polarization in molten CaCl2 at temperatures of

183 g catalyst (Bi-CMEC) that can be formed upon cathodic polarization of an inert glassy carbon electrod

184 he FSCV background signal shift results from cathodic polarization of the Ag/AgCl-wire reference elec

185 the use of Fe salts is avoided and that GAC cathodic polarization results in efficient cleaning and

186 dant formation measurements under anodic and cathodic polarizations.

187 tion of hydrogen evolution reaction (HER) in cathodic pole and electrochemiluminescence (ECL) of lumi

188 generation of the fluorescent product on the cathodic pole enables one to directly monitor an electro

189 target DNA binds to the capture probe at the cathodic pole of the BPE, it triggers the oxidation and

190 ent to carry out reactions on the anodic and cathodic poles of a bipolar electrode (BPE).

191 t bimetallic precursor compositions onto the cathodic poles of an array of bipolar electrodes (BPEs)

192 s process triggers thionine reduction at the cathodic poles.

193 Applying the cathodic potential creates a high concentration of oxyge

194 were also extremely stable during anodic and cathodic potential cycling in harsh aqueous environments

195 troactivity in neutral aqueous medium in the cathodic potential domain from the quinone group embedde

196 On applying a cathodic potential scan, a sensitive stripping peak is p

197 c potential scanning; TATP produced ECL upon cathodic potential scanning only, whereas HMTD produced

198 r acid treatment produced ECL emissions upon cathodic potential scanning.

199 L responses obtained from the anodic and the cathodic potential scanning; TATP produced ECL upon cath

200 chet dendron diminishes the magnitude of the cathodic potential shifts resulting from Newkome dendron

201 silver is "exhaustively" deposited during a cathodic potential step, followed by anodic stripping vo

202 ndergo a quasi-reversible reduction at a low cathodic potential that varies linearly as a function of

203 CNT-REM with the application of a -1.1 V/SHE cathodic potential, with permeate concentrations between

204 rticles on the electrode surface at a modest cathodic potential.

205 ted at room temperature in only 15 min under cathodic potential.

206 type conductivity were obtained at different cathodic potentials for as-deposited materials.

207 m the nanocomposite precursor solution under cathodic potentials is based on simultaneous depositions

208 The range of the cathodic potentials used in this work has been chosen ac

209 At very cathodic potentials, formic acid and methanol are formed

210 At cathodic potentials, the negatively charged QDs show ban

211 dic electrodeposition technique at different cathodic potentials.

212 on layer with metal-like electron density at cathodic potentials.

213 Cathodic pretreatment of BDD at a negative potential in

214 ected by electrochemical pretreatments, with cathodic pretreatments (CPTs) leading to redox behaviors

215 m for a reduction of 1 exhibits a reversible cathodic process (E(pc) = -1.58 V and E(pa) = -1.47 V vs

216 hlorine, and the coupling between anodic and cathodic processes.

217 tance, zinc galvanizing provides sacrificial cathodic protection and acts as a barrier, but does not

218 traditional roles of barrier and sacrificial cathodic protection using a metal coating.

219 addition to barrier function and sacrificial cathodic protection.

220 of the immobilized hydrogenase films reveal cathodic proton reduction and anodic hydrogen oxidation,

221 which the anodic pulse is narrower than the cathodic pulse.

222 lose proximity to the neuron, short-duration cathodic pulses produced lower thresholds with the elect

223 s symmetric ECL transients during anodic and cathodic pulses, while for anion (A(-*))-dication (A(2+*

224 Various electrical stimulations (100-micros cathodic pulses; 100-3000 microA; 10- to 1000-Hz frequen

225 equiv), increasing the practical utility of cathodic radical cyclisation.

226 as the anodic catalyst was combined with the cathodic reaction cascade to form the H(2)/alpha-keto ac

227 A highly efficient cathodic reaction cascade was first designed and constru

228 d another drop of potassium ferricyanide for cathodic reaction flowed through patterned fluidic pathw

229 ate truly effective electrocatalysts for the cathodic reaction governing proton exchange membrane fue

230 ial to temporarily favor either an anodic or cathodic reaction may represent a unique method for remo

231 Additionally, the cathodic reaction mechanisms and pathways of ECR are des

232 species in the switching between anodic and cathodic reaction modes.

233 of arsenic (As) alloying as a poison for the cathodic reaction, leading to significantly improved cor

234 smission electron microscopy observations of cathodic reactions in a liquid-cell Li-O2 microbattery i

235 ms are described to catalyze both anodic and cathodic reactions in bioelectrochemical systems (i.e. b

236 xtend the capability of FEEM to the study of cathodic reactions using a new fluorogenic indicator, di

237 expose all air-cathodes to the air for their cathodic reactions.

238 d type inhibitor by reducing both anodic and cathodic reactions.

239 n transfer conduit for catalyzing anodic and cathodic reactions.

240 mM p-benzoquinone completely suppressed both cathodic reduction and anodic oxidation of water for CE

241 the surface of a silver gauze anode, and (c) cathodic reduction and quantitation of the silver halide

242 Cathodic reduction at the cobaltocenium redox mediator s

243 sion mechanism, whereby anodic oxidation and cathodic reduction occur at different rates at different

244 s(-1) by simulation of the first step of the cathodic reduction of 4-nitrophenylacetic acid, which wa

245 S) grafted films were formed within 5 min by cathodic reduction of Au substrates, immersed in a solut

246 mistry and electrochemical studies involving cathodic reduction of bis(enone) substrates.

247 d 3.6 times higher mass activity towards the cathodic reduction of oxygen.

248 to intramolecular [2 + 2] cycloaddition upon cathodic reduction or chemically induced ET from arene a

249 which contributed to the enhancement of the cathodic reduction process at the semiconductor electrod

250 sclose a single anodic oxidation and several cathodic reduction processes, we rule out significant, l

251 of tin(II) ions, taking place during the tin cathodic reduction, to reduce itself and to form mixed P

252 lean, producing only H(2) gas as a result of cathodic reduction.

253 Both 1 and 2 show several redox waves in the cathodic regions of the cyclic voltammograms.

254 It perturbs the anodic/cathodic response of the cell covered biosensor by relea

255 le oxidation of peroxide was detected on the cathodic scan.

256 For the cathodic scans, coulometric charges under the Ir(IV/III)

257 mA M(-1) cm(-2) and 0.5 muM at 0.05 V, and a cathodic sensitivity and limit of detection of 270 mA M(

258 A similar albeit smaller cathodic shift in the OER overpotential is observed when

259 (2)O(3) photoanode causes a more than 350 mV cathodic shift in the onset potential for photoelectroch

260 n rates correlate directly with a systematic cathodic shift in the oxidation onset potential of the a

261 ce modifications is accompanied by a similar cathodic shift of the appearance of long-lived hematite

262 lectrodes under applied bias showed that the cathodic shift of the photocurrent onset observed after

263 reconcentration can be chosen, either in the cathodic side or in the anodic one.

264 50 mA/cm(2) and -0.67 V vs RHE, leading to a cathodic-side (half-cell) energy efficiency of 24.7%.

265 ersus a reversible hydrogen electrode) and a cathodic-side (half-cell) ethylene power conversion effi

266 The anodic and cathodic signals each contain two electrons on the succe

267 rodes followed by analysis of the anodic and cathodic signals of the reconstituted proteins.

268 close connection between bulk solvation and cathodic stability as well as the dynamics of the salt.

269 ntal concerns, are costly, and may cause low cathodic stability owing to their low lowest unoccupied

270 nd differential-pulse (DPV) voltammetry with cathodic stripping for CNTPE containing mineral oil or s

271 using Competitive ligand exchange-adsorptive cathodic stripping voltammetry (CLE-ACSV) to model calcu

272 d for anodic stripping voltammetry (ASV), so cathodic stripping voltammetry (CSV) has been shown to b

273 Cathodic stripping voltammetry (CSV) is preceded by adso

274 ity and quality of these exports, adsorptive cathodic stripping voltammetry (CSV) was used to charact

275 tripping voltammetry (SWASV) and square-wave cathodic stripping voltammetry (SWCSV) for simultaneous

276 An electrochemical method based on cathodic stripping voltammetry at a gold electrode has b

277 ns by Competitive Ligand Exchange Adsorptive Cathodic Stripping Voltammetry enabled the prediction of

278 Cathodic stripping voltammetry of manganese using our ne

279 Here, a new cathodic stripping voltammetry procedure is presented fo

280 yzed using the differential pulse anodic and cathodic stripping voltammetry technique.

281 ciation of iron in seawater is determined by cathodic stripping voltammetry using 2,3-dihydroxynaphth

282 A new method based on adsorptive cathodic stripping voltammetry with catalytic enhancemen

283 determination of manganese using square wave cathodic stripping voltammetry.

284 rable to cathodic ligand exchange/adsorptive cathodic stripping voltammetry.

285 converts CO2 into CO and O2 by associating a cathodic-supported molecular catalyst based on an abunda

286 ources, such as zero-valent iron (Fe(0) ) or cathodic surfaces.

287 th the appearance of a second oxidation wave cathodic to that in the free receptors and characteristi

288 vity of the junction in the forward bias (Hg cathodic) to that in the reverse bias (Hg anodic), at a

289 e effect for the standard rate constant, the cathodic transfer coefficient at zero overpotential, and

290 Filtered cathodic vacuum arc (FCVA) processed carbon films are be

291 of ln k' reveals a shift in the PZC to more cathodic values as the strength of specific adsorption b

292 Consequently, the cathodic voltage for Na and Mg is expected to be lower t

293 The cathodic voltammetric behavior of all the macrocyclic co

294 The cathodic voltammetric behavior of pillar[5]quinone was i

295 The addition of sbeta-CD to the cathodic wash solution allowed for almost complete resol

296 Possible implications for the mechanisms of cathodic water splitting and photocorrosion on the two s

297 sence of Cu(2+), an additional low potential cathodic wave occurs, which was never described earlier.

298 e anodic region, and slight splitting of the cathodic wave.

299 AM of 10 showed two well-resolved reversible cathodic waves corresponding to the first two one-electr

300 performance is accounted for by the enlarged cathodic working voltage window through ethylenediamine-