ライフサイエンスコーパス: analytical method

1 dehyde) were quantified with a sensitive new analytical method.

2 solution mass spectrometer with a rapid 30 s analytical method.

3 a synthetic control approach as our primary analytical method.

4 d in the review, and appropriateness of meta-analytical methods.

5 ty of oligosaccharides and ensemble-averaged analytical methods.

6 e use of different sampling, processing, and analytical methods.

7 e samples was measured using seven different analytical methods.

8 owing to the lack of sensitive and selective analytical methods.

9 samples to results obtained using laboratory analytical methods.

10 ive medicine purposes and requires high-tech analytical methods.

11 ntation and connection of sophisticated (bio)analytical methods.

12 tion, we examined and compared six different analytical methods.

13 borne CNT fibers to improve the sampling and analytical methods.

14 tonian semi-infinite liquid filament through analytical methods.

15 changes, mainly due to the lack of suitable analytical methods.

16 al and requires novel study designs and data analytical methods.

17 dvantages with regard to previously reported analytical methods.

18 ) data collected across different studies or analytical methods.

19 ase that includes information from different analytical methods.

20 ime-integrated instrumentation, and multiple analytical methods.

21 were falsely identified as PE by the applied analytical methods.

22 not only invoked but are clearly verified by analytical methods.

23 ed and characterized by various spectral and analytical methods.

24 nment, as they escaped conventional targeted analytical methods.

25 , to investigate possibilities of tracing by analytical methods, 48 carefully selected cocoa samples

26 In this work, a cheap analytical method able to monitor iprodione in a white w

27 UV-vis spectroscopy was assessed as a quick analytical method able to quantify grape-must caramel in

28 Therefore, an alternative analytical method able to unambiguously identify and, id

29 This calls for analytical methods able to determine authenticity of the

30 Hence, analytical methods able to discriminate and identify dif

31 Reliable analytical methods able to identify and discriminate pro

32 Geological Survey analytical method and biweekly for 2 years focused on 14

33 Thus, this work shows an analytical method and, for the first time, a prediction

34 Recent advances in single-cell molecular analytical methods and clonal growth assays are enabling

35 Standardization of such analytical methods and comparison of available pipelines

36 CO(2) leakage in order to identify suitable analytical methods and numerical models to develop best-

37 es of circulating microRNA and a plethora of analytical methods and tools.

38 spectrometry (ESI-MS) is a ubiquitously used analytical method applied across multiple departments in

39 The analytical method applied was direct liquid injection in

40 Advantages and limitations of both analytical methods are contrasted in the context of RIPF

41 Proper extraction and analytical methods are critical for quantification.

42 However, analytical methods are currently limited for quantifying

43 The analytical methods are efficient, and they also do not a

44 oitation of this dairy side stream, reliable analytical methods are essential.

45 mics profiling together with developments in analytical methods are further advancing our knowledge o

46 for prediction studies, their corresponding analytical methods are much less developed.

47 Efficient analytical methods are necessary to selectively and prec

48 Therefore, robust analytical methods are needed for the in-depth character

49 Sensitive analytical methods are needed for these novel chemicals

50 n efficiently, rapid and easy-to-use on-site analytical methods are needed.

51 However, to exploit this potential, novel analytical methods are required, capable of discovering

52 Thus, performance data of analytical methods are the main source of uncertainties.

53 Our method might be paired with number of analytical methods, as it allows for deposition of molec

54 An analytical method based on a QuEChERS procedure (quick,

55 on the doping level is well described by an analytical method based on an electron-counting rule.

56 A novel analytical method based on hybrid trapped ion mobility s

57 An efficient and sensitive analytical method based on liquid chromatography-tandem

58 isynthetic colorants was determined by using analytical method based on reverse-phase high-performanc

59 A simple and rapid analytical method based on solid-phase extraction (SPE)

60 In this article we describe a new and simple analytical method based on the Quick, Easy, Cheap, Effec

61 e has been immense progress in miniaturizing analytical methods based on electrophoresis to improve s

62 This has important implications for analytical methods based on extraction of lipids from ar

63 Analytical methods based on mass spectrometry (MS) have

64 The commercial kits/analytical methods based-sensing strategies have also be

65 here with ACTIS, will be applicable to other analytical methods built upon deterministic processes.

66 We postulate that the accuracy of an analytical method can be assessed in the absence of refe

67 In an effort to develop an analytical method capable of finding new metalloproteins

68 In this study, an analytical method capable of simultaneous determination

69 addition to arenes was studied using a novel analytical method capable of trapping radicals formed af

70 eening studies, but there is still a lack of analytical methods capable of quantifying them.

71 nt health has created a significant need for analytical methods capable of rapidly identifying intera

72 as water pollutants yet, due to the lack of analytical methods capable to detect them.

73 research, the novel environmentally-friendly analytical method, Centrifuge-less deep eutectic solvent

74 Despite advancements in analytical methods, characterization of cysteine forms r

75 ut biases and inaccuracies in laboratory and analytical methods, comparatively little attention has b

76 An efficient and effective DBS analytical method could facilitate the concentration man

77 potential health implications, comprehensive analytical methods covering all major xenoestrogen class

78 mpletely extracted from subsurface solids by analytical methods developed for anionic PFASs.

79 The combined analytical methods developed in this work could unambigu

80 ormation should be helpful in guiding future analytical method development and choices of submetabolo

81 Analytical method development for peptides often proves

82 We applied a new analytical method, DISCOV-R, to characterize these rare

83 ion (DIA) has potential as a high-throughput analytical method due to the reduced time needed for sam

84 Among other analytical methods, electrochemical approaches have been

85 the range of sample preparation schemes and analytical methods enabled by 3DP technologies.

86 The presented analytical method enables accurate quantification and bi

87 l consideration, including the improved data analytical methods, environmental exposure assessment, a

88 We also introduce a novel analytical method for an objective assessment of the mig

89 udy was to develop an accurate and sensitive analytical method for cobalt.

90 the new SPME probes were used to validate an analytical method for determination of banned doping sub

91 An analytical method for determining seleno-methionine (SeM

92 aper describes a simple, efficient and rapid analytical method for extraction and determination of ni

93 tails remain unclear owing to the lack of an analytical method for global detection of protein target

94 e electrochemistry establishes an innovative analytical method for highly sensitive and selective det

95 Here, we report an analytical method for PBAT in soils that couples Soxhlet

96 ent of an effective, efficient and sensitive analytical method for quantification of d-psicose in pre

97 aims to employ an (18)O-isotope ratio-based analytical method for quantitative estimation of CA acti

98 Herein, we demonstrate an analytical method for reliable identification of isoform

99 ent system for assessing the potential of an analytical method for targeted and untargeted analysis.

100 This work aims to develop an automated analytical method for the characterization of small micr

101 as significant potential as a rapid accurate analytical method for the detection of adulteration in t

102 In this work, an analytical method for the determination of Cd and Pb in

103 This study developed a rapid analytical method for the determination of citrate, phos

104 This study aimed to develop an analytical method for the determination of tryptophan an

105 In conclusion, our data describe a specific analytical method for the quantification of NAT1 and NAT

106 Here, we present an analytical method for the reconstruction of organic aero

107 This study proposed a novel analytical method for the separation and determination o

108 An analytical method for the simultaneous determination of

109 A reliable 16-min analytical method for the simultaneous determination of

110 fication against the authentic standards, an analytical method for their determination in wines was o

111 the samples were analyzed with a traditional analytical method for total phenolic quantification (Fol

112 However, there are no analytical methods for a complete detection of the housi

113 here is thus an urgent need to develop novel analytical methods for arsenic, preferably with the pote

114 Analytical methods for authenticity testing of organical

115 The lack of fast, accurate and robust analytical methods for BIS determination is still a rese

116 n clarifying reaction mechanisms, developing analytical methods for both liquid and gas phases, and i

117 e key players in energy metabolism; however, analytical methods for comprehensive and straightforward

118 To address this limitation, we present analytical methods for designing origami-based closed-lo

119 The objective of this study was to advance analytical methods for detecting oil sands process-affec

120 is review presents the principles of various analytical methods for determination of urea with specia

121 Current analytical methods for determining the sources of gelati

122 evelopment of fast, easy-to-use and low-cost analytical methods for food adulteration analysis has be

123 water systems has spurred the development of analytical methods for its determination at the ultratra

124 A lack of suitable analytical methods for large-scale analyses of intact gl

125 Even so, robust analytical methods for measuring various DBPs in produce

126 Due to a lack of suitable analytical methods for nitrite determination, this study

127 progress is hindered by the lack of suitable analytical methods for rapid, routine, and unbiased meas

128 Analytical methods for real-time and in situ detection o

129 Analytical methods for RNAs up to the 60 nucleotides (nt

130 Analytical methods for the detection and quantitation of

131 However, required analytical methods for the simultaneous measurement of t

132 dented LOD compared with previously reported analytical methods for TNT detection.

133 To this end, a novel analytical method has been developed based on a two-dime

134 A simple and sensitive analytical method has been developed employing gas chrom

135 An effective, simple and sensitive analytical method has been developed employing liquid ch

136 R) as one of the relatively novel and simple analytical method has been proven for rapid, sensitive,

137 The analytical method has been validated by verifying the di

138 A broad spectrum of analytical methods has become available over the last fi

139 ese asymmetric transformations, a toolbox of analytical methods has been deployed, addressing the rol

140 how recent developments in experimental and analytical methods have allowed much easier characteriza

141 Various analytical methods have been described for identifying c

142 n a healthy environment and eco-system, many analytical methods have been developed for arsenic detec

143 Numerous software tools and analytical methods have been developed for the design an

144 Many analytical methods have been developed to interrogate th

145 In recent years, numerous analytical methods have been developed to understand cro

146 ointed DBPs with the greatest toxic potency, analytical methods have been lacking for quantifying com

147 Several analytical methods have been proposed for analyzing Tn-S

148 proaches, study designs, and statistical and analytical methods have emerged for studying gene-enviro

149 The existed analytical methods have its own limitations to quantify

150 Since previous graph analytical methods have mostly focused on homogeneous gr

151 Vastly used analytical methods have so far struggled to provide a fa

152 owever, advances in experimental systems and analytical methods have ushered in a renaissance in glyc

153 a-analyses, combined with recently developed analytical methods, have enabled dissection of the mater

154 of these states confers many advantages for analytical methods: high selectivity from the multiple s

155 The data-driven analytical method identified distinct cell types and sta

156 eloped with the aim to standardize a nitrite analytical method in by-products from sugar industry.

157 now such that they have become the most used analytical method in the world.

158 Barcoding facilitates high-throughput analytical methods in complex matrixes with a reduced vo

159 posed mathematical modeling applies to other analytical methods in the field.

160 ed peanut have highlighted the importance of analytical methods in these foods.

161 being used to construct biosensors and other analytical methods in various fields of science.

162 tly expressed and purified proteins, various analytical methods, in vitro and in situ kinase assays,

163 Analytical methods included principal component analysis

164 The analytical method includes an acid and enzymatic extract

165 Here, we apply a variety of analytical methods, including electrochemistry, UV-vis a

166 ng materials are characterized by a suite of analytical methods, including electron microscopy and X-

167 We combined several state-of-the-art analytical methods, including various forms of chromatog

168 The designed analytical method indicated a good linear range from 100

169 ing efforts to incorporate data and advanced analytical methods into public health decision-making, t

170 Evaluation of an analytical method is a fundamental problem in analytical

171 The proposed analytical method is a good alternative for simultaneous

172 A single out-line HPLC-GC (FID) analytical method is applied to acquire the chromatograp

173 Suitability of the analytical method is demonstrated by the direct determin

174 dy thus demonstrates that combination of two analytical methods is an effective tool to enhance both,

175 With high-resolution analytical methods like energy dispersive x-ray spectros

176 Established analytical methods like Western blotting and proteomics

177 Analytical methods may not have reference standards requ

178 All analytical methods must provide consistent and reliable

179 We emphasize that the use of appropriate analytical methods needs to be strongly grounded in a ch

180 Here we establish the analytical method of titration gas chromatography to qua

181 In this study, a simultaneous analytical method of tocols, gamma-oryzanols, phytostero

182 Moreover, the novel analytical method of using 2D plasmonic nanoparticle as

183 Electrochemical-based analytical methods offer an effective, rapid, and simple

184 Various analytical methods often based on protein or DNA measure

185 this statement, bio-sensing, as a sensitive analytical method, opens novel avenues in biological asp

186 Using all 3 analytical methods, p,p'-DDT, o,p'-DDT, and to a lesser

187 Coordinated protocols and new analytical methods, particularly the use of exact sequen

188 We apply this in a straightforward analytical method, persistent association-based normaliz

189 pose a model that allows one to evaluate any analytical method/procedure in a global manner.

190 We suggest that analytical method providers address robust detection by

191 y (fs-LIMS) is demonstrated to be a powerful analytical method providing access to the qualitative di

192 authors explore the pros and cons of current analytical methods relative to the value of traditional

193 Most of the current analytical methods rely on loose sediment samples lackin

194 of conjugated drugs on the antibody) through analytical methods remains challenging due to the hetero

195 GenX was not detected above our analytical method reporting limit (2 ng/mL).

196 highlight the need for new technologies and analytical methods spanning multiple hierarchical scales

197 global scale remain largely unknown, but new analytical methods such as high-resolution mass spectrom

198 Analytical methods such as machine learning can potentia

199 This study aims to develop an analytical method, suitable for quality control, to dete

200 While analytical methods targeting specific compounds are crit

201 enomics in multiomics strategies provides an analytical method that can begin to decipher causal asso

202 There is currently no single analytical method that can simultaneously acquire elemen

203 In this study, we developed a new analytical method that combines magnetic molecularly imp

204 paired DBS-whole blood samples to develop an analytical method that involved the extraction and quant

205 use of Raman spectroscopy, a nondestructive analytical method that measures the chemical composition

206 Currently, (31)P NMR is the only analytical method that quantitatively determines the ave

207 We develop and apply a new analytical method that uses carbon (C) and sulphur (S) n

208 gas chromatography-tandem mass spectrometry analytical method that uses less than 0.5 mL of plasma.

209 in autotetraploids, largely due to a lack of analytical methods that account for the complexities of

210 Analytical methods that allow simultaneous determination

211 Thus, analytical methods that can be used to rapidly identify

212 This has raised the need for analytical methods that can both perform rapid sample an

213 espite the importance of these interactions, analytical methods that can characterize binding constan

214 Currently, however, there are limited analytical methods that can detect both nanomaterial dis

215 Analytical methods that can identify the differences in

216 s field depends critically on development of analytical methods that can provide information about th

217 Until now, there has been a lack of analytical methods that can reliably verify the authenti

218 The feature of our newly developed analytical methods that coupled sample pre-treatment (sa

219 there remains a need for the development of analytical methods that enable the specific and selectiv

220 In this article, we compare two analytical methods that have been recently proposed: the

221 ctal organization according to six different analytical methods that included Power Spectrum, Enright

222 As a result, analytical methods that preserve the redox state of the

223 Thus, a qualitative analytical method to detect Aspergillus flavus in food s

224 To date, no reliable analytical method to detect key-analytes responsible for

225 re, there is a pressing need for an adequate analytical method to detect the misuse of the CRISPR/Cas

226 s are time-consuming, and at present, a fast analytical method to detect this defect in raw materials

227 during the development and validation of an analytical method to determine chlorpyrifos (O,O-diethyl

228 This work developed an analytical method to differentiate conventional and omeg

229 This study explored a new analytical method to disentangle the competing effects o

230 hat targeted MS can serve as a complementary analytical method to DNA-based methods for the detection

231 velop and apply a novel reference panel-free analytical method to infer and then exploit phase inform

232 We developed an in situ analytical method to measure the N-elemental and -isotop

233 In this study, a novel analytical method to quantify total vitamin B(2) in milk

234 nique was shown as a reproducible and useful analytical method to study site-specific isomeric glycos

235 The development of new analytical methods to accurately quantify hydrogen perox

236 ield of crystalline molecular machinery, the analytical methods to analyze rotational dynamics of cry

237 to multiple sites on a receptor, but current analytical methods to characterize such interactions are

238 in 2013 has driven the need for alternative analytical methods to determine the species origin as we

239 Here we present analytical methods to efficiently fit spiking circuit mo

240 re is a growing interest in developing novel analytical methods to get further information about quin

241 in perceptual reaction times.(1-5) Based on analytical methods to infer causality in neural activati

242 combining inferences derived from two unique analytical methods to inform decisions related to risk-b

243 n the present work, we have used a number of analytical methods to investigate the impact of increase

244 ns; however, there is a lack of quantitative analytical methods to measure the extent of conjugation

245 elopment of new sodium-ion batteries and new analytical methods to non-invasively, directly visualise

246 However, analytical methods to objectively extract structure from

247 Analytical methods to quantify PBAT in field soils are n

248 ng demand for rapid, sensitive, and low cost analytical methods to routinely screen antibiotic residu

249 We then apply the analytical methods to the anatomical brain networks of h

250 as been difficult due to the shortcomings in analytical methods typically used for PLGA.

251 application and potential limitations of the analytical method used are discussed.

252 iews the recent developments in the field of analytical methods used for porcine identification.

253 wever, in the case of non-human animals, the analytical methods used to quantify facial expressions c

254 modality and address some of the more common analytical methods used with this data.

255 Centre (JRC) developed an improved LC-MS/MS analytical method using a pentafluorophenyl column, vali

256 A simple and low-cost multipurpose analytical method using HPLC-UV-DAD was developed and va

257 This analytical method using surface-enhanced Raman spectrosc

258 Furthermore, an analytical method using ultra performance liquid chromat

259 r to maximize chemical space coverage, three analytical methods using two-dimensional gas chromatogra

260 ifferent predictors using the reliability of analytical methods utilized for measuring laboratory par

261 or inaccuracy of predictors is inaccuracy of analytical methods utilized to measure their laboratory

262 Comparable accuracy to an accredited analytical method was achieved, despite the MOF-function

263 The analytical method was applied to 46 samples collected in

264 The proposed analytical method was applied to seventeen brewed coffee

265 The performance and efficiency of this analytical method was assessed in the case of quantum do

266 A fast and simple analytical method was developed and characterized for th

267 An analytical method was developed and validated for the de

268 A simple analytical method was developed and validated, as per SA

269 A highly sensitive analytical method was developed and validated, following

270 A simple and sensitive analytical method was developed for analyzing residues u

271 An analytical method was developed for the determination of

272 In this work, a novel analytical method was developed for ultrasensitive Mg is

273 An analytical method was developed to analyze pyridalyl res

274 An analytical method was developed to determine 25 PFASs in

275 An analytical method was developed to identify all the ICD-

276 The selection of the optimal analytical method was mainly determined by detection pro

277 In this work, an analytical method was proposed for the simultaneous dete

278 The developed analytical method was successfully applied for the deter

279 The analytical method was successfully applied to spiked sur

280 The analytical method was then applied to 291 food samples f

281 The developed analytical method was utilized to determine the occurren

282 The analytical method was validated in terms of the instrume

283 The proposed analytical method was validated, and excellent figures o

284 aterial characterization by a large array of analytical methods was carried out, the combination of w

285 Finally, through the development of a novel analytical method we were able to time all such events w

286 udy, highly sensitive, efficient, and rugged analytical methods were adapted for simultaneous determi

287 New analytical methods were developed to determine the branc

288 The analytical methods were validated fully in accordance wi

289 tudied, including four studies using optimum analytical methods, were followed by reductions in pesti

290 Here we present a new analytical method where immunoconcentration of the analy

291 cts in cultural-heritage objects requires an analytical method which provides universal separation po

292 rehensively characterized through exhaustive analytical methods which detail the mechanism while conf

293 ealed the reliability of the newly developed analytical method, which could be applied routinely in r

294 Here, we report the development of a novel analytical method, which couples mixed-mode size exclusi

295 cated structure illustrates the power of the analytical methods, which may serve as a general platfor

296 y, robustness and sensitivity of the overall analytical method will depend on the reliability of the

297 The developed analytical methods will be useful tools for future resea

298 tions based on steady-state diffusion and an analytical method with an understanding of boundary cond

299 Hybridization-Ligation ECL ELISA is arobust analytical method with direct application to measuring t

300 ildhood pneumonia mortality with our primary analytical method, with a high degree of uncertainty in