ライフサイエンスコーパス: potentiometric

1 tion of ammonium is dynamically monitored by potentiometric ammonium-selective electrodes.

2 Spectroscopic and potentiometric analyses reveal that while the thermodyna

3 phosphine ligands were combined with classic potentiometric analyses to study a Suzuki reaction, for

4 lectron transducers for multiplexed, in situ potentiometric analysis of pH, Na(+), and K(+) in sweat.

5 is an important step toward calibration-free potentiometric analysis.

6 on of galvanostatic current pulse methods in potentiometric analysis.

7 s is measured at zero current in traditional potentiometric analysis.

8 existence of these two elements combines (i) potentiometric and (ii) amperometric detection effects a

9 ar kinetic information was obtained from the potentiometric and amperometric responses, potentiometry

10 The preparation of two electrochemical (potentiometric and amperometric) phosphate biosensors is

11 nce of this electrode was investigated using potentiometric and EIS techniques.

12 The methods employed are potentiometric and fluorometric titrations, fluorescence

13 es , TDeltaS degrees ), obtained by means of potentiometric and isothermal titration calorimetry (ITC

14 Potentiometric and linear absorption spectroscopic data

15 nophore-based polymeric membrane against the potentiometric and optical counterparts.

16 enabled voltammetrically in contrast to the potentiometric and optical counterparts.

17 The high ion selectivity of potentiometric and optical sensors based on ionophore-ba

18 Potentiometric and spectroscopic evidence indicates that

19 ess fusion of complementary while compatible potentiometric and triboelectric sensing principles is r

20 Both potentiometric and voltammetric measurements report on t

21 stream infections including electrochemical, potentiometric, and impedimetric sensors.

22 Electronic spectral, potentiometric, and ultrafast pump-probe transient dynam

23 ant improvement in the limit of detection of potentiometric anion-selective electrodes aiming at dete

24 In this communication we present a potentiometric aptasensor based on chemically modified g

25 e interfacial water film was assessed by the potentiometric aqueous-layer test.

26 The new potentiometric assay was applied successfully to the mon

27 mployed here to produce for the first time a potentiometric-based direct reading method for an enviro

28 ) amperometric and PPy-NO(3)/BSA/GLA-PNP-XOD potentiometric bi-biosensors, therefore, they will not h

29 taraldehyde (GLA).The optimum conditions for potentiometric bi-layer biosensor include a polymerizati

30 Potentiometric bi-layer biosensor PPy-NO(3)/BSA-GLA-PNP-

31 The paper-based potentiometric bilirubin sensor exhibited a response ran

32 The components of the potentiometric bilirubin sensor were embedded in a paper

33 We report here on a new potentiometric biosensing principle for the detection of

34 The highly sensitive and selective potentiometric biosensor for creatinine determination ha

35 of Nafion, thus providing a way to develop a potentiometric biosensor for glucose.

36 d potential that allows the development of a potentiometric biosensor for the direct detection of glu

37 PPy-NO(3)/BSA-GLA-PNP-XOD potentiometric biosensor was used to analyse phosphate i

38 ol, the approach allows systematic design of potentiometric biosensors (in the present study a dopami

39 and can become a powerful tool for nanoscale potentiometric biosensors.

40 ) detected using spectroscopic methods under potentiometric but non-catalytic conditions.

41 livolt (y-axis) versus log canalyte (x-axis) potentiometric calibration curve is not linear.

42 The analytical performances observed for the potentiometric cell (Nernstian slope, limit of detection

43 in their design is simplified by embedding a potentiometric cell into paper, complete with an ISE, a

44 Characterization of several potentiometric cells without a liquid junction has been

45 The electronic tongue comprising 22 potentiometric chemical sensors could distinguish artifi

46 devised and used as a recognition unit of a potentiometric chemosensor.

47 Here, we report on a wearable potentiometric chloride sweat sensor.

48 This signal can be voltammetric, potentiometric, conductometric or impedimetric.

49 t exhibit high selectivity are essential for potentiometric cyanide sensors.

50 to the platform consisting of amperometric, potentiometric, cyclic voltammetry and electrochemilumin

51 F, were obtained by least squares fitting of potentiometric data using the optimisation function of t

52 multi-commutated flow-analysis concept with potentiometric detection is proposed to perform determin

53 A particularly difficult sample matrix for potentiometric detection is seawater, where the high sal

54 Here, we report on a highly sensitive potentiometric detection of DNA hybridization.

55 proach was here successfully applied for the potentiometric detection of nitrite in aquarium and dech

56 h fluorous anion-exchanger membranes for the potentiometric detection of perfluorooctanoate (PFO(-))

57 cal all-solid-state platform for intradermal potentiometric detection of potassium in interstitial fl

58 ically integrates microfluidics as well as a potentiometric detection system and does not require any

59 electrodes cancel each other in differential potentiometric detection.

60 ane potentials can be too small for reliable potentiometric detection.

61 tate sensors were utilized for the selective potentiometric determination of iodide ions in artificia

62 We report on a methodology for the direct potentiometric determination of nitrate in seawater by i

63 The results show great promise for the potentiometric determination of proteins at very low con

64 The developed electrodes were applied to the potentiometric determination of tartrazine ion in differ

65 he biosensor was employed for measurement of potentiometric determination of urea in sera of apparent

66 fibre-based reference electrode to obtain a potentiometric device.

67 n ASM cells was assessed using a fluorescent potentiometric dye and electrophysiological recordings.

68 Calcium (Ca(++)) and potentiometric dye imaging provide novel insights into f

69 Electrical conduction was measured (potentiometric dye mapping) at 7 d after RF injury.

70 TTS, as reported optically by a fluorescent potentiometric dye.

71 arch applications previously intractable for potentiometric dyes.

72 recorded during myocardial fibrillation with potentiometric dyes.

73 The potentiometric E-tongue system was employed for water to

74 electrodes are placed: glucose biosensor, pH potentiometric electrode and a temperature sensor.

75 The feasibility of the potentiometric electronic tongue as a tool for monitorin

76 A novel approach based on a potentiometric electronic tongue is proposed to classify

77 An ultrasensitive immunosensor based on potentiometric ELISA for the detection of a cardiac biom

78 A potentiometric enzyme electrode for detection of hypoxan

79 bserved, further confirming the analogy to a potentiometric experiment.

80 ement simulations, and both amperometric and potentiometric experimental verification is demonstrated

81 Potentiometric experiments revealed that each electrode

82 0 muL desalinated sample plug is passed to a potentiometric flow cell of 13 muL volume.

83 nificantly blocked the effects of glycine on potentiometric fluorescence in ASM cells.

84 Cardiac optical mapping uses potentiometric fluorescent dyes to image membrane potent

85 brane potential, recorded as fluctuations in potentiometric fluorophore intensity (flicker-assisted l

86 pixel covariance analysis of fluctuations in potentiometric fluorophore intensity during 'flickers' o

87 t century, is the basis of the response of a potentiometric glass pH sensor; however, no amperometric

88 Factors affecting the potentiometric hybridization response have been optimize

89 onstrate the development of a screen-printed potentiometric immunosensor for in vitro evaluation of T

90 platform and its application in a label-free potentiometric immunosensor for Salmonella typhimurium d

91 ew summarizes electrochemical (amperometric, potentiometric, impedimetric and conductometric) biosens

92 d the state-of-the-art technologies based on potentiometric, impedimetric, amperometric, voltammetric

93 emical biosensors are based on amperometric, potentiometric, impedimetric, and conductometric princip

94 e sensor is probe size independent, as it is potentiometric in nature and, hence, can be fabricated i

95 s through various sensing approaches such as potentiometric ion selective electrodes and amperometric

96 n-body measurements provided by new wearable potentiometric ion sensors (WPISs) is presented.

97 performance and to reduce the biofouling of potentiometric ion sensors.

98 onic tongue (ET) system based on an array of potentiometric ion-selective electrodes (ISEs) for the d

99 As the sensor is inexpensive, portable, and potentiometric, it opens up avenues for developing effec

100 Mitochondrial NAD(P)H and potentiometric JC-1 fluorescence, employed as markers fo

101 By comparing the potentiometric lower detection limit with chromoionophor

102 on of the pH(abs) concept using differential potentiometric measurement for comparison of the chemica

103 The method is based on a direct potentiometric measurement of triiodide ion that is rele

104 ) collisions were successfully observed by a potentiometric measurement.

105 = 12.39) has been proven via H2/Pt-electrode potentiometric measurements and was confirmed via XAS, (

106 allow one to increase the sensitivity of the potentiometric measurements by using a combined electroc

107 Here, we report spin potentiometric measurements in flakes exfoliated from bu

108 )(4-) biosensors were compared with those of potentiometric measurements obtained from PPy-NO(3)/BSA/

109 Here we compare spin potentiometric measurements of bias current-generated sp

110 sample preparation to be employed as part of potentiometric measurements of plant total antioxidant a

111 Kinetic and potentiometric measurements support the operation of a g

112 The results of potentiometric measurements were confirmed by argentomet

113 he sample, in analogy to performing multiple potentiometric measurements with individual membranes.

114 of the reference potential than conventional potentiometric measurements with the same ion-doped poly

115 n 50 mV (which can cause up to 900% error in potentiometric measurements).

116 Compared to standard potentiometric measurements, electrical impedimetric FET

117 utstanding potential stability in continuous potentiometric measurements.

118 trodes and minerals in both amperometric and potentiometric measurements.

119 ed by an aqueous-layer test performed during potentiometric measurements.

120 shown by chronopotentiometry and continuous potentiometric measurements.

121 all ion-selective paper electrode (ISPE) for potentiometric measurements.

122 rmance of this novel device was tested using potentiometric measurements.

123 idenced both with a significant drift in the potentiometric measures as well as a pronounced sensitiv

124 on-exchange membrane were characterized, and potentiometric measuring ranges were found to be Nernsti

125 on transducing layers for the fabrication of potentiometric membrane electrodes for the detection of

126 A new version of the hybrid potentiometric method (HPM) for evaluating the antioxida

127 A potentiometric method for measuring redox potentials of

128 We report a potentiometric method for measuring the hemoglobin A1c (

129 iometric sensor in the absence of a reported potentiometric method for rapid and direct TYR assay.

130 The values of F obtained by the new direct potentiometric method were compared with those obtained

131 Recently, pulsed potentiometric methods have gained importance.

132 In pulsed potentiometric methods, the voltage measured at the end

133 oltammetric, impedimetric, capacititive, and potentiometric methods.

134 oped sensor presents a novel all-solid-state potentiometric, miniaturized and mass producible pH ISE

135 An array with all-solid-state, potentiometric, miniaturized sensors for pH and potassiu

136 This study demonstrates how the potentiometric mode of the scanning electrochemical micr

137 ridium oxide pH microelectrode was used in a potentiometric mode to record the pH decrease associated

138 nt of sample pH, providing a new platform of potentiometric nanosensors with optical readout compatib

139 Enhanced potentiometric nitrite selectivity is observed in the pr

140 A potentiometric non-enzymatic sensor using off-chip exten

141 ng ion perturbation is monitored by either a potentiometric or a coulometric readout.

142 ctrochemical (i.e., amperometric, impedance, potentiometric or conductimetric) affinity biosensors du

143 le quantity associated with running separate potentiometric or conductometric titrations.

144 The results strongly support the potentiometric origin for the fluorescence response.

145 o exhibit a very good long-term stability of potentiometric performance over the period of 10 weeks.

146 a reference method (automatic titrator with potentiometric pH detection).

147 table electrode behavior and ensure accurate potentiometric pH determinations.

148 red for online applications, whereas classic potentiometric pH measurements require frequent calibrat

149 have developed a carbon-based, fast-response potentiometric pH microsensor for use as a scanning elec

150 ar edge X-ray absorption fine structure, and potentiometric pH sensing in the vicinity of the PANI la

151 ation range of 20-200 muM were achieved with potentiometric PPy-NO(3)/BSA/GLA-PNP-XOD biosensor.

152 nd verify a biophysical model of fluorescent potentiometric probe compartmentation and dynamics using

153 We optimized and validated this potentiometric probe to assay functional modulators of h

154 potential change of an individual connected potentiometric probe.

155 Potentiometric probes suffer from many drawbacks such as

156 Potentiometric properties as well as the steady-state an

157 In this study we report the exceptional potentiometric properties of pH microprobes made with na

158 tammetry experiments, the elucidation of the potentiometric properties of the locked superstructure r

159 The potentiometric properties of urea and thiourea-based flu

160 This agreement confirms that the potentiometric protamine response is based on protamine

161 nt of a platinum redox sensor for the direct potentiometric quantification of starch in solution.

162 With the potentiometric readout, titrations in the range of 0.25-

163 trode and reference electrode needed for the potentiometric readout.

164 luate the applicability of the droplet-based potentiometric redox measurement system.

165 Potentiometric redox measurements were made in subnanoli

166 The potentiometric response is maintained after several inse

167 ere demonstrated for the first time that the potentiometric response of ion-selective nanospheres can

168 ological range of a(Cl) (1 mM to 100 mM) the potentiometric response of the MC3-ISM is insensitive to

169 corporated electrode showed a near-Nernstian potentiometric response to MB(+) in the nano- to micro-m

170 action results in an apparently irreversible potentiometric response to protamine because back-extrac

171 Their potentiometric response was found to be reproducible and

172 s in an excellent long-term stability of the potentiometric response, with drifts as low as 11.7 muV/

173 The proposed ISEs exhibited near-Nernstian potentiometric responses to carbonate ions with a detect

174 trodes based on oxidized 3DOM carbon exhibit potentiometric responses with the typical hysteresis ind

175 The syntheses, potentiometric responses, optical spectra, electronic st

176 a charged ionophore, resulting in Nernstian potentiometric responses.

177 Potentiometric results are consistent with bimodal affin

178 The potentiometric results indicated that the prepared elect

179 mical behavior is predicted by comparing the potentiometric results to previously reported systems.

180 Nuclear magnetic resonance (NMR) titrations, potentiometric sandwich membrane experiments and density

181 d agree well with the values obtained by the potentiometric sandwich membrane technique.

182 conductance of tTJs with a technique termed potentiometric scanning ion conductance microscopy (P-SI

183 we demonstrate a new instrumental technique, potentiometric scanning ion conductance microscopy (P-SI

184 Recently, we described potentiometric-scanning ion conductance microscopy (P-SI

185 imentally from careful interpretation of the potentiometric selectivities as a function of the ionoph

186 s were determined from the dependence of the potentiometric selectivities on the charge sign of the i

187 All electrodes had excellent potentiometric selectivities, showed Nernstian responses

188 The potentiometric selectivity coefficients were determined

189 ite-to-ionophore ratios that provide optimum potentiometric selectivity depend on the stoichiometries

190 thizone-thiol conformation leading to a high potentiometric selectivity toward copper ions, much high

191 e ionophores suggests their use not only for potentiometric sensing but also for other types of senso

192 electrodes were integrated into paper-based potentiometric sensing devices, successfully replacing t

193 rticles decorated with complexing ligand for potentiometric sensing is shown.

194 Potentiometric sensing represents the preferred techniqu

195 wireless transceiver makes the new epidermal potentiometric sensing system attractive for continuous

196 We calibrated the potentiometric sensitivity of the dye by applying known

197 id interfaces derived from light-addressable potentiometric sensor (LAPS) and light-activated electro

198 this work, a differential light-addressable potentiometric sensor (LAPS) system was developed to mon

199 ication measurement with a light-addressable potentiometric sensor (LAPS).

200 The simultaneous optical readout of a potentiometric sensor array of ion-selective electrodes

201 A new potentiometric sensor based on molecularly imprinted nan

202 Here we present a potentiometric sensor for cocaine detection based on mol

203 Here we report the first potentiometric sensor for soil moisture analysis by brin

204 er describes the design and fabrication of a potentiometric sensor for the determination of free bili

205 The work optimizes a solid-state potentiometric sensor in the absence of a reported poten

206 The potentiometric sensor is composed of an all-solid-state

207 damental detection principle governing every potentiometric sensor is introduced, and different state

208 The developed potentiometric sensor is shown to enable the real-time m

209 This potentiometric sensor measures the interface potential o

210 The optimization of the potentiometric sensor presented here yields an outstandi

211 ane has been hypothesized as the origin of a potentiometric sensor response to this important heparin

212 To accomplish the task, a tubular shaped potentiometric sensor selective to perchlorate ion was c

213 A highly sensitive and selective potentiometric sensor suitable for the determination of

214 ), the membrane behaves in some analogy to a potentiometric sensor with a second discrimination varia

215 A novel paper-based potentiometric sensor with an enhanced response for the

216 A novel potentiometric sensor with high selectivity in addition

217 an epidermal temporary-transfer tattoo-based potentiometric sensor, coupled with a miniaturized weara

218 amperometric approach curve and serving as a potentiometric sensor.

219 d be detected in human blood serum with this potentiometric sensor.

220 erves as the readout signal, in analogy to a potentiometric sensor.

221 Potentiometric sensors are today sufficiently well under

222 Potentiometric sensors are typically unable to carry out

223 the first to demonstrate the application of potentiometric sensors as an alternative and complement

224 Here, we report on potentiometric sensors as an inexpensive and simple alte

225 Potentiometric sensors based on silicon nanowire field e

226 based sensors with comparable performance to potentiometric sensors fabricated with other techniques,

227 The sensitivity of potentiometric sensors functioning in equilibrium mode i

228 concept of locally heated polymeric membrane potentiometric sensors is introduced here for the first

229 tra low-cost, robust, rugged, and disposable potentiometric sensors is presented.

230 We explore here potentiometric sensors on the basis of ion-exchange memb

231 Potentiometric sensors provide a relatively simple techn

232 to the definition of the detection limit for potentiometric sensors provided by the IUPAC.

233 Potentiometric sensors require the implementation of con

234 Potentiometric sensors that exhibit a non-Hofmeister sel

235 , it opens the possibility of preparation of potentiometric sensors using chelators of significantly

236 Potentiometric sensors were used to study molecular inte

237 eport here on a generic approach to read out potentiometric sensors with electrogenerated chemilumine

238 s creating a vast range of opportunities for potentiometric sensors, since their combination of robus

239 ment and the e-Tongue was designed using six potentiometric sensors.

240 rnatives for existing transducer systems for potentiometric sensors.

241 ate field-effect transistor (FET) for direct potentiometric serological diagnosis.

242 ed in the sample (from 0 to 30 g L(-1)), the potentiometric signal changes abruptly as a result of re

243 ctors and ion-to-electron transducers of the potentiometric signal.

244 Potentiometric sodium ion sensors were developed using a

245 The resulting tattoo-based potentiometric sodium sensor displays a rapid near-Nerns

246 setup for in situ measurements in lakes with potentiometric solid-contact ion-selective electrodes (S

247 ntrol the standard potential (E degrees ) of potentiometric solid-contact ion-selective electrodes (S

248 A new type of potentiometric solid-state ion-selective electrode (SS-I

249 opper in milk and fermented milk products by potentiometric stripping analysis (PSA) with oxygen as a

250 Potentiometric studies and redox-titration experiments d

251 Potentiometric studies of protonated L with the series o

252 Potentiometric studies showed a remarkably high concentr

253 Further, potentiometric studies suggest that hydrogen bonding bet

254 sumed to form only a 1:2 complex in previous potentiometric studies.

255 tely 0.2 V more negative potentials, where a potentiometric super-Nernstian response to protamine is

256 based reference electrodes with miniaturized potentiometric systems, these reference electrodes were

257 DNA was elucidated by using constant current potentiometric technique further supported by UV-Visible

258 The classic potentiometric technique is not amiable for online measu

259 ors including electrochemical (amperometric, potentiometric), thermal, piezoelectric, optical (fluore

260 he degree of deacetylation was calculated by potentiometric titration and (1)H NMR.

261 variations in storage temperature, heating, potentiometric titration and in the presence of chemical

262 The potentiometric titration approach called "concentration-

263 the present paper, the utility of a special potentiometric titration approach for recognition and ca

264 Potentiometric titration curves are analyzed using the N

265 Here, potentiometric titration is demonstrated as a method for

266 The potentiometric titration measurement is based on the use

267 y, and little precedent exists for analogous potentiometric titration of any soluble reductants invol

268 Potentiometric titration of colloidal semiconductor nano

269 B(+) but also revealed a possible method for potentiometric titration of the redox indicator.

270 be fully consistent with the results of the potentiometric titration of the triprotic acid (1H3)(2+)

271 mon thin-film-based voltammetric techniques, potentiometric titration offers a powerful new approach

272 ethod reduces the time required to perform a potentiometric titration on a molecule compared with sta

273 We have developed a potentiometric titration procedure in KCl/water-saturate

274 orking and counter electrodes, allowing true potentiometric titration to be performed within the bore

275 g HPLC combined with ESI-MS, metal analysis, potentiometric titration, and intensity analysis of heme

276 Combined spectrophotometric-potentiometric titrations at biologically realistic GSH/

277 Voltammetry and potentiometric titrations establish the potentials of se

278 In this work, potentiometric titrations have been employed in combinat

279 Potentiometric titrations have determined the thermodyna

280 In combination with potentiometric titrations monitored by electronic absorb

281 Potentiometric titrations of CdSe and InP nanostructures

282 H-adjusted surfaces treated with nitrite and potentiometric titrations of the substrates show, to our

283 Potentiometric titrations reveal ZP1 dissociation consta

284 Potentiometric titrations show that Ni-B is easily reduc

285 Potentiometric titrations showed that the modified activ

286 e designed an experimental approach based on potentiometric titrations to determine solubility limits

287 Potentiometric titrations were used to determine the pro

288 nd emission spectroscopy in combination with potentiometric titrations, a detailed molecular picture

289 through selective sulfhydryl site-blocking, potentiometric titrations, and surface complexation mode

290 The conclusions drawn from potentiometric titrations, low-temperature mass spectrom

291 magnetic circular dichroism spectroscopy and potentiometric titrations, we show that both the ferric

292 is, Fourier-transform infrared spectroscopy, potentiometric titrations, X-ray photo-electron spectros

293 e heavy, small Ln(3+) ions, as determined by potentiometric titrations.

294 anotubes (SWCNTs) acts as an ion-to-electron potentiometric transducer and anti-S. aureus aptamers ar

295 an ion-selective membrane integrated with a potentiometric transducer.

296 of nuclease-resistant aptasensors using the potentiometric transduction capabilities of single-walle

297 Such potentiometric transduction of biocatalytically induced

298 The resultant potentiometric-triboelectric hybridized mechanoreceptor

299 nnected to a digital pH meter to construct a potentiometric urea biosensor.

300 structures in experiments that establish the potentiometric valence and conduction band energy levels