ライフサイエンスコーパス: flow injection

1 nd acetonitrile quenching followed by direct flow injection.

2 antification of non-basic NCCs by ESI direct flow injection.

3 The advantages of the bioligand interaction flow injection absorptiometry approach are speed, low co

4 A highly sensitive flow injection amperometric biosensor for organophosphat

5 Flow injection amperometric determination of insulin at

6 Data for the flow injection amperometric system devised for detection

7 In a flow injection amperometric system, the sensor exhibited

8 sing either linear scan voltammetry (LSV) or flow injection amperometry (FIamp) at constant applied p

9 Flow injection amperometry and cyclic voltammetry were u

10 as biocatalysts for glucose oxidation using flow injection amperometry and voltammetry.

11 mits of 13.6 ppb sulfide were achieved using flow injection amperometry.

12 his device was evaluated by voltammetric and flow injection analyses of oxygen which was chosen as pr

13 In this paper, electrochemical flow injection analysis (EC-FIA) is used to probe ion pa

14 ctrochemiluminescent detector coupled with a flow injection analysis (ECL-FIA) system was adopted to

15 is analysis is confirmed by experiments with flow injection analysis (FIA) and gradient reversed-phas

16 (AOTF) and its application as a detector for flow injection analysis (FIA) are reported.

17 Under favorable flow injection analysis (FIA) conditions, the alkaloid a

18 Here, we evaluated the feasibility of direct flow injection analysis (FIA) coupled to electrospray io

19 etabolites via liquid chromatography (LC) or flow injection analysis (FIA) coupled to tandem mass spe

20 le extraction, fluorescent dye labeling, and flow injection analysis (FIA) detection.

21 Each ion solution was injected in a flow injection analysis (FIA) manifold, accommodating th

22 oyed as an amperometric sensing element in a flow injection analysis (FIA) manifold.

23 This work adapts an existing flow injection analysis (FIA) methodology for low-level

24 The combined biosensor worked in flow injection analysis (FIA) mode and was developed for

25 stem as a superb tool to investigate flow in Flow Injection Analysis (FIA) models.

26 Amperometric detection was used for flow injection analysis (FIA) of multiple analytes at bo

27 Preliminary results from flow injection analysis (FIA) suggest that the new inter

28 k presents an automated and highly sensitive flow injection analysis (FIA) system coupled to both spe

29 ying instrumental conditions is to utilize a flow injection analysis (FIA) system for rapid sample in

30 -steel pins as new low-cost electrodes for a flow injection analysis (FIA) system with electrochemica

31 r nitrate and nitrite using our standardized flow injection analysis (FIA) technique with colorimetri

32 Flow injection analysis (FIA) was used to investigate th

33 electroanalytical method was developed using flow injection analysis (FIA) with amperometric detectio

34 GCE by cyclic voltammetry experiments and by flow injection analysis (FIA) with amperometric detectio

35 Using flow injection analysis (FIA), a pH gradient is blended

36 stand-alone quantitative technique, namely, flow injection analysis (FIA), matrix assisted laser des

37 In flow injection analysis (FIA), sensor 3 shows a Nernstia

38 CAT label which are externally quantified by flow injection analysis (FIA)-ICPMS serve as internal st

39 stereolithography, designed specifically for flow injection analysis (FIA).

40 ments with crown ether (CE) complexation and flow injection analysis (FIA).

41 This work presents a multisyringe flow injection analysis (MSFIA) system for the automatic

42 s, i.e., lab-on-valve (LOV) and multisyringe flow injection analysis (MSFIA), with a selective resin

43 henating lab-on-valve (LOV) and multisyringe flow injection analysis (MSFIA).

44 volume samples is demonstrated by microscale flow injection analysis (muFIA) of Cr bound to human lun

45 nse up to 1.2 mM in batch-type and 2.0 mM in flow injection analysis and a detection limit of 10-20 m

46 UHPLC, GC-MS/MS, LC-MS/MS, flow injection analysis and luminescence sensors determi

47 ) and allura red (AR) in candies by coupling flow injection analysis and multiple pulse amperometry w

48 A flow injection analysis approach with electrochemical de

49 detection system has been configured into a flow injection analysis array for simple adaptation to a

50 First-tier MS-based newborn screening by flow injection analysis can have high presumptive positi

51 In this context, this study assesses flow injection analysis coupled to high-resolution mass

52 In this work, the use of a multisyringe flow injection analysis coupled to hydride generation at

53 In this study, a novel autosampling flow injection analysis coupled with an atmospheric pres

54 amount of cellular metabolites by utilizing flow injection analysis coupled with electrospray ioniza

55 ing resolution of overlapped HPLC-DAD peaks, flow injection analysis data, and batch reaction data me

56 An improved method of flow injection analysis for aqueous nitrite ion exploits

57 omatography-mass spectrometry (RP-UHPLC-MS); flow injection analysis high-resolution ion mobility-mas

58 In this work, quantitative flow injection analysis high-resolution mass spectrometr

59 Flow injection analysis is used to demonstrate the sensi

60 The system operates in Flow Injection Analysis mode (FIA).

61 trations in the range from 3.3 to 16.6 mM in flow injection analysis mode.

62 ured in analytical experiments that included flow injection analysis MS, postcolumn addition LC-MS, a

63 Discovery Systems' Spectrum Collection using flow injection analysis of 384-well plates.

64 Flow injection analysis of dissolved gel spots by ICPMS

65 ode was used as an amperometric detector for flow injection analysis of insulin in pH 7.40 phosphate

66 d to monitor insulin in a flowing stream for flow injection analysis or for sensor-like monitoring.

67 nd detection limits that were similar to the flow injection analysis studies.

68 Operational parameters for a flow injection analysis system (reagent pH, flow rate, s

69 jection of the nanomaterial and the dye in a flow injection analysis system allows the determination

70 cted using carbon-fiber microelectrodes in a flow injection analysis system and in brain slices.

71 With a fluorometric flow injection analysis system harnessed to measure ammo

72 A microfluidic flow injection analysis system has been designed and eva

73 , the E-AB sensor platform is coupled with a flow injection analysis system that permits the determin

74 A flow injection analysis system was used for the precise

75 Fish underway sampler and a modified reverse flow injection analysis system with a liquid waveguide c

76 then evaluated in a phosphate buffer using a flow injection analysis system.

77 d phase that is used with microcolumns and a flow injection analysis system.

78 itor dynamic chemical changes occurring in a flow injection analysis system.

79 bbreviated as EVALs) for implementation in a flow injection analysis system.

80 acid before the sample was injected into the flow injection analysis system.

81 Flow injection analysis tandem mass spectrometry was use

82 cores at sub-mug L(-1) levels by coupling a flow injection analysis technique with a fast ion chroma

83 Using flow injection analysis to minimize solid deposition, th

84 tammetry at carbon-fiber microelectrodes and flow injection analysis to optimize a waveform for the m

85 Reverse-flow injection analysis was employed to determine brilli

86 three different instrument operation modes: flow injection analysis with IM-MS (FIA/IM-MS), LC/MS, a

87 sis for further quantification studies using flow injection analysis with isotopically enriched (99)R

88 ncontact, no-carryover, automated system for flow injection analysis with mass spectrometry.

89 lorinated byproduct fragmentation ions using flow injection analysis with orbitrap mass spectrometry.

90 em can be considered to be a special case of flow injection analysis with unique features that contro

91 The constructed detector was tested using flow injection analysis with water as the mobile phase,

92 arrays) can be considered as a manifold for flow injection analysis without an external pump and inj

93 In comparison with a flow injection analysis without fractionation, ion suppr

94 The universal character of XRF was shown via flow injection analysis, allowing the use of element-bas

95 described with applications toward sampling, flow injection analysis, and capillary separations.

96 rization of analytes in applications such as flow injection analysis, electrophoresis, and chromatogr

97 n seconds by diffusion/mixing that occurs in flow injection analysis, while analyte concentration mea

98 ce material and via intercalibration against flow injection analysis-chemiluminescence on Southern Oc

99 streptomycin residues in milk samples using flow injection analysis-electrochemical quartz crystal n

100 d to provide comparable sample throughput to flow injection analysis-tandem MS (FIA-MS/MS) but with g

101 e (NADH) and hydrogen peroxide (H(2)O(2)) by flow injection analysis.

102 es were evaluated by chronoamperometry using flow injection analysis.

103 ic voltammetry, rotating disk electrode, and flow injection analysis.

104 t 100 samples can be measured per hour using flow injection analysis.

105 ingle islets of Langerhans was determined by flow injection analysis.

106 nd is amenable to continuous measurement via flow injection analysis.

107 sing triple-quadrupole mass spectrometry and flow injection analysis.

108 sample pretreatment devices in an automatic flow injection analysis/inductively coupled plasma mass

109 y and alternating current measurements under flow-injection analysis (FIA) conditions were selected t

110 ol (4-AP), were detected amperometrically in flow-injection analysis (FIA) mode via the use of an ele

111 c membrane type pulstrodes as detectors in a flow-injection analysis (FIA) system is examined.

112 port on constant potential (dc) amperometric flow-injection analysis (FIA) transduced by electroactiv

113 -arabitol concentration was determined under flow-injection analysis and stagnant-solution binding co

114 uit potential (OCP) based transduction under flow-injection analysis conditions (FIA) determined neop

115 c microgravimetry (PM) under both batch- and flow-injection analysis conditions was used.

116 metry (PM) measurements were performed under flow-injection analysis conditions.

117 Using flow-injection analysis coupled to electrochemical detec

118 Constant potential amperometric flow-injection analysis is shown for boronate- and sulfa

119 hose obtained from applying the conventional flow-injection analysis method, based on the same type o

120 pped with a 120 muL flow probe, coupled to a flow-injection analysis system, in full automation under

121 Total analysis was performed by flow-injection analysis through a transfer line and exte

122 ges of the electrode both in vitro (i.e., in flow-injection analysis) and in vivo (i.e., during a spr

123 tection of H2O2 in the 3D-printed channel by flow-injection analysis, exhibiting a detection limit of

124 for a paper-based electrochemical system for flow-injection analysis.

125 chemical sensors, and their integration into flow-injection analyzers, microfluidic devices, and lab-

126 TIMS-MS method was also interfaced with both flow injection and an automated solid phase extraction s

127 This approach has been validated both in flow injection and chromatographic mode with gradient el

128 ly, quantification was demonstrated for both flow injection and liquid chromatography-mass spectromet

129 in digestion technique with automated sample flow injection and online mass spectrometry (MS) analysi

130 Switching between the "flow injection" and "separation" modes is accomplished b

131 and identified by direct infusion ESI-MS and flow injection APCI-MS.

132 fluctuations were monitored for 15 min in a flowing injection apparatus.

133 velopment in LC-IRMS, monitoring of existing flow injection applications, as well as for verification

134 ultrasensitive analysis of biomolecules with flow-injection assay and SPR spectroscopy.

135 , matrix effects are also less severe during flow injection, at least for some matrix elements on the

136 possible for applying this ATRP approach to flow injection based SPR detection.

137 ctrochemical reagent generation coupled to a flow injection biamperometric procedure for the determin

138 y performed fully automated and miniaturized flow injection chemiluminescence (CL) method for determi

139 ) have been compared using two luminol-based flow injection chemiluminescence (FI-CL) methods.

140 Based on this finding, a new flow injection chemiluminescence method (FI-CL) was deve

141 bes the development of a portable, automated flow injection-chemiluminescence (FI-CL) analyzer incorp

142 he total mercury concentration determined by flow injection cold vapor generation inductively coupled

143 Using pressure driven flow injection, concentration and volume detection limit

144 drodynamic voltammograms were recorded under flow injection conditions).

145 ormance of the dual sensor is assessed under flow injection conditions.

146 A flow injection conductometric (FIC) system for determina

147 ble organic compounds were evaluated using a flow injection configuration to assess the efficiency of

148 ay emerge from mixed-phase partitioning in a flow-injection configuration and have been implemented u

149 as integrated into a custom-designed stopped-flow injection device to collect visible absorption and

150 The flow injection device was evaluated with fluorescent dye

151 Paper-based enzyme immobilization for a flow injection electrochemical biosensor integrated with

152 it was found that the designed cell used in flow injection electrolysis mode reduced the NaCl concen

153 Cs in petroleum-derived samples using direct flow injection electrospray ionization (ESI) (-) Orbitra

154 Flow injection electrospray ionization mass spectrometry

155 rmed, the reaction mixtures were analyzed by flow injection electrospray ionization mass spectrometry

156 as performed using liquid chromatography and flow injection electrospray ionization-triple quadrupole

157 ater by liquid-liquid extraction followed by flow injection electrospray mass spectrometry (ESI/MS).

158 Metabolome analysis by flow injection electrospray mass spectrometry (FIE-MS) f

159 Flow injection electrospray mass spectrometry (FIE-MS) m

160 y separated from the protein and analyzed by flow injection electrospray mass spectrometry.

161 Flow injection electrospray-mass spectrometry (FIE-MS) i

162 c resonance, Fourier transform infrared, and flow injection electrospray-mass spectrometry.

163 Liquor extracts were analyzed by flow-injection electrospray-mass spectrometry (FIE-MS),

164 of all Fagioli di Sarconi beans performed by flow injection-electrospray ionization-ultrahigh resolut

165 Direct flow injection/electrospray ionisation (ESI)/ion trap (I

166 Flow injection experiments on a triple quadrupole were u

167 observed for detection of serotonin after 30 flow injection experiments or after 2 h in 5-HIAA for PE

168 ed in conventional liquid chromatography and flow injection experiments.

169 ghtly lower than response in acetonitrile in flow injection experiments; however, the water/acetonitr

170 roof of concept of a novel approach based on flow injection (FI) analysis coupled to ICPMS, i.e., FI-

171 protein digestion technique that integrates flow injection (FI) and online MS analysis, providing a

172 onfiguration is a hybrid between traditional flow injection (FI) and sequential injection (SI) scheme

173 rior to its determination by the single line flow injection (FI) flame atomic absorption spectrometry

174 Flow injection (FI) is coupled to ICP-MS to reduce depos

175 A flow injection (FI) spectrophotometric method with using

176 An automated multisample processing flow injection (FI) system was developed for simultaneou

177 A flow injection (FI) system with a microcolumn of anion e

178 A simple flow injection (FI)-spectrophotometric system for the sc

179 A flow-injection (FI) device is combined, through the use

180 Using flow-injection (FI) rather than liquid chromatography (L

181 PME procedure and the reference method using flow injection-flame atomic absorption technique, and th

182 in various matrixes that utilizes segmented flow injection for sample transport and reaction, on-lin

183 Amperometric flow-injection glucose sensing at a potential of -0.45 V

184 An optimized flow injection hydride generation atomic absorption spec

185 inal detection and quantification is done by flow injection hydride generation atomic absorption spec

186 Flow injection hydride generation was interfaced for the

187 An experimental setup consisting of a flow injection hydride generator coupled to an atomic fl

188 from human liver and analyzed using a rapid flow injection-IM-MS method.

189 , selenium, and zinc were measured by use of Flow-Injection-Inductively-Coupled-Plasma-Mass-Spectrome

190 The use of a flow injection instrument allows fast functional assays

191 A flow injection instrument is used to reproducibly sample

192 uid-liquid extraction into ethyl acetate and flow injection into the mass spectrometer.

193 eak height and peak area with electroosmotic flow injection is comparable to that obtained with the p

194 Use of flow injection lends precision to the application and re

195 e to a filter paper substrate, assisted by a flow-injection-like system.

196 with the result of 80-92% obtained using the flow-injection liposome immunoanalysis (FILIA) system.

197 e the reproducibility and accuracy of FILIA (flow-injection liposome immunoanalysis) for the detectio

198 Tryptophan was detected with a flow-injection manifold after reacting with mM order of

199 ive profiling of 60 metabolites using tandem flow injection mass spectrometry was performed on frozen

200 A flow injection - mass spectrometry method for rapid glyp

201 sensitivity was observed using a continuous flow injection measurement.

202 oelectrochemical cell suitable for batch and flow injection measurements are described.

203 sed analytical microsystem that allows rapid flow injection measurements of the total content of orga

204 The developed flow injection method (FI-CL) based on enhancing effect

205 es the throughput of the previously reported flow injection method.

206 d higher sample efficiency than conventional flow injection methods.

207 is permits simple single-line manifold micro flow injection (MFI) systems.

208 Flow injection microscopy has been used with the CHO-M1-

209 tungsten hexacarbonyl) was generated using a flow injection mode and 40% (v/v) formic acid as the rea

210 film flow-through photoreactor operated in a flow injection mode from a photochemical medium comprisi

211 s hypothesized that a QCM can be used in its flow injection mode to monitor the binding affinity of p

212 -film flow-through photoreactor, operated in flow injection mode, provided high efficiency following

213 ruthenium pentacarbonyl) was generated in a flow injection mode, yielding an overall efficiency of 2

214 ls higher than 400 mV in both stationary and flow injection mode.

215 n-film flow-through photoreactor operated in flow injection mode.

216 ms is an advantage since they can be used in flow-injection mode (bypassing the column compartment).

217 stant solution flow is a current peak and in flow-injection mode is a couple of current peaks directe

218 In a flow-injection mode, the aptasensor response to dopamine

219 In flow-injection mode, the biosensor allows lactate detect

220 a significant increase in the throughput for flow injection molecular weight characterization of comb

221 trometry (LC/MS/MS), and eight-way staggered flow injection MS/MS following 384-well plate solid-phas

222 The advantages and limitations of flow injection MS/MS for ultratrace-level quantitative a

223 This flow-injection MS/MS method represents an alternative ap

224 By using flow-injection MS/MS, enantiomeric quantitation of GSK22

225 ive chiral purity determination by automatic flow-injection MS/MS.

226 s of the degree of cross talk in response to flow injections of physiologically relevant concentratio

227 of bioligand interactions based on combining flow injection on renewable surfaces with UV-visible abs

228 Rapid square-wave voltammetry/flow injection operation allows a detection limit of 2 x

229 ved without sacrificing the integrity of the flow injection peak profile as baseline resolution is ma

230 45 s with a approximately 4.5 s base-to-base flow injection peak profile was obtained in these experi

231 phenomena occurring at steady and pulsating flow injection regimes were analyzed using steady and un

232 In both constant flow and flow-injection regimes, the peak current is dependent on

233 A novel flow injection-renewable surface (FI-RS) technique is in

234 ach, nitrate is used as a simple model for a flow injection routine that enables access to a diverse

235 surface tension detector in combination with flow injection sample introduction and blending of a ste

236 As compared to flow injection sample introduction, the ability to injec

237 The protocol involves repetitive rapid flow injection (screening) assays--to provide a timely w

238 such as diffusion-limiting membranes and the flow injection setup are presented.

239 In this work, we introduce a new continuous flow injection setup for time-resolved HDX-MS (CFI-TRESI

240 A highly selective flow injection sorption system was developed for the fas

241 A new, simple, rapid and sensitive flow injection spectrophotometric method was developed f

242 rtifact responses intrinsic to a single-line flow injection system and corrects for drift.

243 The system utilizes a conventional stopped-flow injection system coupled to a modified low volume C

244 ation, aliquots were taken and analyzed by a flow injection system equipped with a multi-channel coul

245 he solid phase extraction (SPE) coupled to a flow injection system for the determination of caffeine

246 etained on a mini-column and placed into the flow injection system preceding the amperometric detecto

247 ixture of four dansylated amino acids to the flow injection system to provide several different sampl

248 Performing the HRP detection assay in a flow injection system using array integrated microfluidi

249 A monochannel flow injection system was designed for the spectrometric

250 AChE/PDDA/CNT/GC biosensor integrated into a flow injection system was used to monitor organophosphat

251 This scheme was conducted on a flow injection system with a constant operating potentia

252 ctral-time data matrices per sample within a flow injection system, taking advantage of the spectral

253 ate trifluoromethanesulfonate and a modified flow injection system, the reaction rates of each step i

254 r-burner system of a FAAS instrument using a flow injection system.

255 he sample introduction was performed using a flow injection system.

256 perometric enzyme-based biosensor array in a flow-injection system.

257 Conventional flow injection systems for aquatic environmental analysi

258 the RELAX clinical trial were analyzed using flow injection tandem mass spectrometry (60 metabolites)

259 rnitines and amino acids were measured using flow-injection, tandem mass spectrometry (n = 3592).

260 Bead injection, a recent variant of the flow injection technique, is used to pack an aliquot of

261 Flow injection testing of the model compounds Tyr-Gly-Gl

262 Flow injection tests with a phosphate buffer showed supe

263 ytical applications of three novel cells for flow injection, thin-layer, and batch electrochemical me

264 Here, we used flow-injection time-of-flight mass spectrometry to dynam

265 igh-flow separation on the column with a low-flow injection to MS.

266 % H(2)O-CH(3)OH solutions were introduced by flow injection to the interface to IRMS for sugars and s

267 Our apparatus utilizes flow-injection to minimize sample consumption.

268 This AHG-ICPMS technique was compared with a flow injection-UV photolysis-HG-ICPMS (FI-UV-ICPMS) and

269 upled plasma mass spectrometry (ICP-MS) with flow injection vapor generation.

270 The use of automated flow injection with MS/MS detection for fast quantitatio

271 The use of flow injection with the He-DBD permits measurement of Hg