ライフサイエンスコーパス: ion-selective electrode

1 eaction with the active-site serine using an ion selective electrode.

2 interference, which was overcome by specific ion selective electrode.

3 s turnover by P4H, is detected by a fluoride ion-selective electrode.

4 lymeric mixed-matrix membrane and used as an ion-selective electrode.

5 embrane, which was then used to fabricate an ion-selective electrode.

6 epithelial cell monolayer monitored with an ion-selective electrode.

7 ed as a material for clinical containers and ion-selective electrodes.

8 and Ca2+ flux adjacent to the membrane with ion-selective electrodes.

9 candidate for the fabrication of implantable ion-selective electrodes.

10 poly(vinyl chloride) and decyl methacrylate ion-selective electrodes.

11 re synthesized as ion-selective reagents for ion-selective electrodes.

12 ogy has a profound effect on the behavior of ion-selective electrodes.

13 calation is important for the development of ion-selective electrodes.

14 nting approach to manufacture potentiometric ion-selective electrodes.

15 bon nanotubes to yield transducer layers for ion-selective electrodes.

16 ctive for mass production of all-solid state ion-selective electrodes.

17 , there is still a lack in the production of ion-selective electrodes.

18 urposely different from common practice with ion-selective electrodes.

19 tammetry, and free Cu(2+) was measured using ion-selective electrodes.

20 termine unbiased selectivity coefficients of ion-selective electrodes.

21 so far not found their way into the field of ion-selective electrodes.

22 which are then used as a substrate to build ion-selective electrodes.

23 t obtained for the more conventional type of ion-selective-electrodes.

24 In a first example, a potassium ion-selective electrode acts as the reference electrode

25 emical microscope with an amperometric Ag(+) ion-selective electrode (Ag(+)-ISE) and the respiration

26 assay uses a low-volume solid-contact silver ion-selective electrode (Ag(+)-ISE) to monitor the deple

27 d at the lower/sensitive end of the ammonium ion selective electrode (AISE) with O-ring and then elec

28 us sensing approaches such as potentiometric ion selective electrodes and amperometric enzymatic sens

29 red by CLE-SPE with those measured by copper-ion-selective electrode and voltammetry demonstrates tha

30 that bridge the detection windows of copper-ion-selective electrode and voltammetry measurements.

31 h to a problem that has plagued the field of ion-selective electrodes and field effect transistors fo

32 me and memory effects of low-detection-limit ion-selective electrodes and for other membrane electrod

33 ime to drug precipitation was assessed using ion-selective electrodes and HPLC.

34 agreement with titration data obtained using ion-selective electrodes and mobility data obtained usin

35 The traditional cation exchangers used in ion-selective electrodes and optodes are tetraphenylbora

36 s is high compared to solid sensors, such as ion-selective electrodes and optodes; and (3) the sensin

37 of the ion activity, in complete analogy to ion-selective electrodes, and multiple such waves are ob

38 Polymeric membrane ion-selective electrodes are normally interrogated by ze

39 Solid-state ion-selective electrodes are used as scanning electroche

40 tramethyl ammonium (TMA), each with specific ion-selective electrodes, as well as by measurement of e

41 o polyvinyl chloride membranes and tested as ion selective electrodes at pH 6.6, whereas near-equal s

42 d as active components of nucleotide-sensing ion-selective electrodes at pH 6.6.

43 r is crucial, thus newly synthesized Al(III) ion selective electrode based on innocuous reagent, flub

44 nophores in the development of solid-contact ion-selective electrodes based on conducting polymer pol

45 e instrumental control of polymeric membrane ion-selective electrodes based on electrochemically indu

46 with the upper detection limit observed for ion-selective electrodes based on the ionophores valinom

47 ith membranes incorporated into conventional ion-selective electrode bodies or cast onto microfabrica

48 ly reproducible solid contact potentiometric ion-selective electrodes, but are not restricted to them

49 e development of highly sensitive and robust ion selective electrodes capable of in situ measurements

50 al and imaging techniques, such as vibrating ion-selective electrodes, carbon fiber amperometry, and

51 ansistor (ISFET) pH electrodes, and Chloride-Ion Selective Electrodes (Cl-ISE) directly exposed to th

52 onal poly(vinyl chloride) and poly(urethane) ion-selective electrode coatings.

53 The solid-contact apomorphine ion-selective electrode combines a carbon-mesh/thermopla

54 The indicator electrode was a membrane-based ion-selective electrode containing a receptor for hydrog

55 Polymer membrane ion-selective electrodes containing lipophilic ionophore

56 valently attaching heparin on the surface of ion-selective electrodes, electrodes with improved blood

57 er was coupled with a solid-contact fluoride ion-selective electrode (F-ISE) transducer, for potentio

58 polymers or plasticizers are implemented for ion-selective electrode fabrication.

59 l characterization and validation of a novel ion-selective electrode for the highly sensitive and sel

60 st fully 3D-printed (3Dp) solid-contact (SC) ion-selective electrode for use in potentiometric sensin

61 ently been introduced to replace traditional ion-selective electrodes for a number of applications.

62 development of miniaturized all-solid-state ion-selective electrodes for in situ measurements.

63 e) (PVC) with plasticizers have been used in ion-selective electrodes for many years.

64 ements using non-conditioned all-solid-state ion-selective electrodes for the detection of nitrate an

65 While ion-selective electrodes for the polycation protamine ha

66 Each ion-selective electrode functions in an equilibrium mode

67 ective optodes (ISOs), the optical analog of ion-selective electrodes, have played an increasingly im

68 Ion-selective electrodes ideally operate on the basis of

69 ochemical cell composed of several identical ion-selective electrodes immersed into separate sample s

70 ditioning refers to the equilibration of the ion-selective electrode in an aqueous solution before th

71 tant for its application as solid contact in ion-selective electrodes, including high: electronic con

72 potentiometric performance of membrane-based ion-selective electrodes incorporating this ionophore wa

73 ium (NH4+), measured as NH4-N loads using an ion-selective electrode installed at the inlet of a sewa

74 new family of passive/active all-solid-state ion selective electrodes interrogated by a current pulse

75 We utilize impedance spectroscopy with ion selective electrodes, ionic transference number meas

76 , the surface of calcium-selective polymeric ion-selective electrodes is coated with polyelectrolyte

77 novel solid contact type for all-solid-state ion-selective electrodes is introduced, yielding high st

78 The membrane potential of ion-selective electrodes is measured at zero current in

79 mic model of the phase boundary potential of ion-selective electrodes is presented.

80 hed transducer materials for all-solid-state ion-selective electrodes is proposed; it is based on the

81 The ion selective electrode (ISE) membranes with tren-based

82 PSS) as an antibiofouling layer on the Li(+) ion selective electrode (ISE) sensors.

83 Sophisticated laboratory grade tools such as ion selective electrodes (ISE) and portable spectrophoto

84 creen-printing can be used for solid contact ion selective electrodes (ISE) realization; these, howev

85 cromolar, and millimolar-when using the same ion-selective electrode (ISE) but interrogated under var

86 nce in both liquid-contact and solid-contact ion-selective electrode (ISE) configurations.

87 It is well known that the selectivity of an ion-selective electrode (ISE) depends on the stoichiomet

88 re, for which a wearable potentiometry-based ion-selective electrode (ISE) has attracted increasing a

89 The response range of an ion-selective electrode (ISE) has been described by coun

90 tric sensor array that is self-powered by an ion-selective electrode (ISE) in a short-circuited cell

91 eparation step for fluoride determination by ion-selective electrode (ISE) in leguminous seeds and oi

92 dent potential response of a polymeric-based ion-selective electrode (ISE) is presented.

93 The selectivities of ionophore-doped ion-selective electrode (ISE) membranes are controlled b

94 hibit excellent selectivity for silver ions, ion-selective electrode (ISE) membranes were optimized a

95 A new and convenient ion-selective electrode (ISE) method was used to assay N

96 y(3-octylthiophene) (POT) solid-contact (SC) ion-selective electrode (ISE) polymeric membrane has bee

97 Ion-selective electrode (ISE) potentiometry is reliable

98 A recent new direction in ion-selective electrode (ISE) research utilizes a stir e

99 ion hinder the performance of potentiometric ion-selective electrode (ISE) sensors.

100 ibited, thereby reducing the response of the ion-selective electrode (ISE).

101 d gives new insights into the functioning of ion-selective electrodes (ISE's).

102 A new kind of potentiometric chip sensor for ion-selective electrodes (ISE) based on a solvent polyme

103 e sensing applications, such as constructing ion-selective electrodes (ISE-s).

104 We used ion selective electrodes (ISEs) to directly characterize

105 of carbonate detection using ultrasensitive ion selective electrodes (ISEs).

106 The PEDOT-C14-based solid contact (SC) ion-selective electrodes (ISEs) (H(+), K(+), and Na(+))

107 Measurements with ion-selective electrodes (ISEs) are performed relative t

108 Selectivities of solvent polymeric membrane ion-selective electrodes (ISEs) are quantitatively relat

109 Paper-based ion-selective electrodes (ISEs) are simple, flexible, an

110 Ion-selective electrodes (ISEs) are widely used analytic

111 Ion-selective electrodes (ISEs) are widely used tools fo

112 readout of a potentiometric sensor array of ion-selective electrodes (ISEs) based on PVC membranes i

113 come possible to increase the sensitivity of ion-selective electrodes (ISEs) by imposing a constant c

114 optimization of the lower detection limit of ion-selective electrodes (ISEs) can be assessed with an

115 Ion-selective electrodes (ISEs) containing neutral ionop

116 ) system based on an array of potentiometric ion-selective electrodes (ISEs) for the discrimination o

117 Papers published on ion-selective electrodes (ISEs) generally report on the

118 The applications of ion-selective electrodes (ISEs) have been broadened thro

119 The selectivity coefficients, KIJpot, of ion-selective electrodes (ISEs) have been fundamentally

120 Solid-contact ion-selective electrodes (ISEs) have the inherent advant

121 Calibration of ion-selective electrodes (ISEs) is cumbersome, time-cons

122 The use of solid-contact ion-selective electrodes (ISEs) is of interest to many c

123 rent ion fluxes through polymer membranes of ion-selective electrodes (ISEs) may lead to biased endpo

124 Preparation of ion-selective electrodes (ISEs) often requires long and

125 The sensitivity of ion-selective electrodes (ISEs) that are operated by equ

126 ducting polymer-based solid contact (SC) for ion-selective electrodes (ISEs) that could become the ul

127 Solid contact ion-selective electrodes (ISEs) typically have an interm

128 ) carbon solid contacts on the properties of ion-selective electrodes (ISEs) were examined.

129 improving the sensor lifetime, solid-contact ion-selective electrodes (ISEs) were prepared with a pla

130 Solid-contact ion-selective electrodes (ISEs) with an unintentional wa

131 y(vinyl chloride)-based membranes to develop ion-selective electrodes (ISEs) with enhanced blood comp

132 Ion-selective electrodes (ISEs) with fluorous anion-exch

133 hilic salen derivatives were used to prepare ion-selective electrodes (ISEs) with ionophore-doped flu

134 for the development of a range of polymeric ion-selective electrodes (ISEs) with low detection limit

135 ulsed galvanostatic technique to interrogate ion-selective electrodes (ISEs) with no intrinsic ion-ex

136 ic membranes have been the main reason early ion-selective electrodes (ISEs) without added ion exchan

137 d widely as solid-contact (SC) materials for ion-selective electrodes (ISEs), as their high nonfarada

138 -based (PEDOT(PSS)-based) solid contact (SC) ion-selective electrodes (ISEs), the surfaces of Pt, Au,

139 its the reliability of the signal readout of ion-selective electrodes (ISEs), thereby limiting their

140 nsor lifetimes and long-term monitoring with ion-selective electrodes (ISEs).

141 x buffer and used as a new solid contact for ion-selective electrodes (ISEs).

142 tool to follow the kinetics of biofouling of ion-selective electrodes (ISEs).

143 ate and clean a multi-probe of solid-contact ion-selective electrodes (ISEs).

144 embrane matrixes were used to prepare silver ion-selective electrodes (ISEs).

145 increases the selectivity and robustness of ion-selective electrodes (ISEs).

146 The TEMPO-MWCNT-based SC potassium ion-selective electrodes (K(+)-SCISEs) showed excellent

147 Ion-selective electrodes measured plasma ionized magnesi

148 closed using Raman spectroscopy and fluoride ion selective electrode measurements for experiments per

149 Ultrasensitive ion-selective electrode measurements based on stripping

150 nsor material incorporated in liquid type of ion-selective electrode membrane for TBZ determination.

151 This was confirmed in ion-selective electrode membranes containing no calcium

152 per detection limit of polar ionophore-based ion-selective electrode membranes is predicted by utiliz

153 amples using a classical LaF3-based fluoride ion-selective electrode method.

154 analyzers measure electrolytes via different ion-selective electrode methodology, that is, direct and

155 se slopes in complete analogy to established ion-selective electrode methodology.

156 adjustment equation to correct between both ion-selective electrode methods.

157 We used ion-selective electrodes, nuclear magnetic resonance spe

158 Thus, obtained ion-selective electrodes offer sensors of excellent perf

159 Solid-contact ion-selective electrodes often struggle with potential s

160 wn that electrochemical signals recorded for ion-selective electrodes operating under voltammetric/co

161 transduction of electrochemical responses of ion-selective electrodes, operating under non-zero-curre

162 o establish symmetry, a set of solid-contact ion-selective electrodes placed in a reference cell is m

163 experimental results and contrasts to common ion-selective electrode practice, where a salt of the an

164 The resulting ion-selective electrodes presented near-Nernstian respon

165 Ion-selective electrode recordings showed that each even

166 an effect that has become very important in ion-selective electrode research in recent years.

167 de methodology, that is, direct and indirect ion-selective electrodes, respectively.

168 One roadblock for LTCM using solid-state ion-selective electrode (S-ISE) sensors is biofouling on

169 A new type of solid-contact ion-selective electrode (SC-ISE) has been developed that

170 d K(+)-selective membrane in a solid-contact ion-selective electrode (SC-ISE).

171 otential capacitive readout of solid-contact ion-selective electrodes (SC-ISE) allows one to obtain e

172 (E degrees ) of potentiometric solid-contact ion-selective electrodes (SC-ISE) is described.

173 signal transduction concerning solid-contact ion-selective electrodes (SC-ISE) with a conducting poly

174 mmonly used in solid-contact and coated-wire ion-selective electrodes (SC-ISEs and CWEs) was quantifi

175 s in lakes with potentiometric solid-contact ion-selective electrodes (SC-ISEs) and a data processing

176 Solid-contact ion-selective electrodes (SC-ISEs) are widely used in cl

177 Solid contact polymeric ion-selective electrodes (SC-ISEs) have been fabricated

178 Solid-contact ion-selective electrodes (SC-ISEs) in direct long-term c

179 ibility of the emf response of solid contact ion-selective electrodes (SC-ISEs) requires a precise co

180 the CIM carbon solid contact, solid-contact ion-selective electrodes (SC-ISEs) with a standard devia

181 lished its utility in cationic solid-contact ion-selective electrodes (sc-ISEs), its anionic counterp

182 esented as a novel approach to solid-contact ion-selective electrodes (SC-ISEs).

183 e for the commercialization of solid-contact ion-selective electrodes (SCISEs) as single-use or weara

184 Solid-contact ion-selective electrodes (SCISEs) can overcome essential

185 ucting substrates to construct solid-contact ion-selective electrodes (SCISEs).

186 The ionophore was incorporated into a planar ion-selective electrode sensor format and the selectivit

187 Vesicle anion transport assays using ion-selective electrodes show that this class of compoun

188 The resulting ion-selective electrodes showed Nernstian response slope

189 A new type of potentiometric solid-state ion-selective electrode (SS-ISE) has been fabricated wit

190 confocal microscopy, mass spectrometry, and ion selective electrode technique.

191 ured in extracts from brain regions by using ion selective electrode technique.

192 An ion-selective electrode technique was used to measure fl

193 opment of a chronopotentiometric readout for ion-selective electrodes that allows one to record trans

194 In contrast to ion-selective electrodes, the pulstrodes do not require

195 all the current challenges in inkjet-printed ion-selective electrodes, this different fabrication app

196 A novel, solid-supported voltammetric ion-selective electrode to detect anticoagulant/antithro

197 d the novel approach based on a voltammetric ion-selective electrode to enable the electrochemical de

198 chelates shift the potential of the fluoride ion-selective electrode to more positive stable potentia

199 s with low detection limits and voltammetric ion-selective electrodes, to increase operational lifeti

200 ility of potential readings of the resulting ion-selective electrodes together with good reproducibil

201 lts were compared with classical solid-state ion selective electrodes using carbon nanotubes as trans

202 first time, a single-piece, all-solid-state ion-selective electrode was fabricated with carbon black

203 The fabricated ion-selective electrodes were used to determine Pb(2+) c

204 potassium, calcium, hydrogen, and carbonate ion-selective electrodes, which all exhibit the high sel

205 f solid-contact galvanostatically controlled ion-selective electrodes with a conducting polymer as a

206 ionophore used in PVC or decyl methacrylate ion-selective electrodes, with minor adjustments to acco

207 to perform rapid localized pH titrations at ion-selective electrodes without the need for volumetric