ライフサイエンスコーパス: analytical technique

1 for OTA was used in this paper to create an analytical technique.

2 n coupled to mass spectrometry is a powerful analytical technique.

3 lity (IM) is now a well-established and fast analytical technique.

4 ns remain difficult to assess using a single analytical technique.

5 s, which poses a fundamental problem to this analytical technique.

6 t (MCI, a prodromal stage of AD) with a meta-analytical technique.

7 eded before AF4-spICPMS can become a routine analytical technique.

8 fferent histological, molecular biology, and analytical techniques.

9 n tend to escape the probing ability of many analytical techniques.

10 al information that is masked by traditional analytical techniques.

11 d relevant follow-on of advanced biophysical/analytical techniques.

12 nderscore the value of using a wide range of analytical techniques.

13 ck on the lignin polymer by state-of-the-art analytical techniques.

14 loped and compared by applying two different analytical techniques.

15 truments, and the other is based on advanced analytical techniques.

16 data on macrofilariae with suitably powerful analytical techniques.

17 as diverse spectroscopic and electrochemical analytical techniques.

18 chemical composition of ABF using different analytical techniques.

19 method compared to conventional instrumental analytical techniques.

20 tion is thoroughly analysed by using diverse analytical techniques.

21 teins and their glycans challenging for most analytical techniques.

22 rol in aquaculture by effective and specific analytical techniques.

23 aroma and bioactive compounds with different analytical techniques.

24 tions is often limited to ensemble-averaging analytical techniques.

25 e basis of chromatographic and spectral data analytical techniques.

26 comparison and respective validation of both analytical techniques.

27 oached this question using two complimentary analytical techniques.

28 and validated using real data and simulated analytical techniques.

29 al to overcome the drawbacks of conventional analytical techniques.

30 red and modulated by noninvasive, label-free analytical techniques.

31 racterized using different spectroscopic and analytical techniques.

32 d by combining different electrochemical and analytical techniques.

33 of time and pH using a variety of orthogonal analytical techniques.

34 tly as to justify the coupled use of the two analytical techniques.

35 d and lack the definition of other available analytical techniques.

36 often requires a use of different orthogonal analytical techniques.

37 as chromatography-flame ionization detection analytical techniques.

38 e uptake and removal of Li via an arsenal of analytical techniques.

39 f known standards and limitations in current analytical techniques.

40 materials are characterized by a variety of analytical techniques.

41 sition fluctuations using in situ or ex situ analytical techniques.

42 rties of the composite were characterized by analytical techniques.

43 ning the conventional and spatially resolved analytical techniques (1)H NMR spectroscopy, matrix-free

44 Using both bulk- and surface-sensitive analytical techniques, a rare instance of benzylidenefur

45 ss spectrometry (PSI-MS) is a relatively new analytical technique allowing for rapid mass spectrometr

46 overview of chromium toxicity, conventional analytical techniques along with a particular emphasis o

47 gnificant advancement in the microscopic and analytical techniques, analysis of the size and size dis

48 certainty were demonstrated depending on the analytical technique and food composition.

49 ample preparation; there is a need for rapid analytical techniques and a low-cost technology for oliv

50 only used methods, as judged by a variety of analytical techniques and by comparisons of transfection

51 ture highlights some "best practices" in the analytical techniques and challenges in the measurement

52 The association between these analytical techniques and chemometric tools proved that

53 A variety of analytical techniques and electrochemical measurements s

54 very challenging task that requires powerful analytical techniques and experience of analyzing such s

55 s that now include a combination of advanced analytical techniques and fate/transport models to evalu

56 -containing formulations were assessed using analytical techniques and for antimicrobial activity in

57 as characterized using a combination of bulk analytical techniques and high resolution transmission e

58 Various analytical techniques and microscopy methods were employ

59 The identified analytical techniques and parameters that resulted in st

60 st decade, significant advances were made in analytical techniques and profiling methods specifically

61 In order to track the capability of these analytical techniques and select an effective experiment

62 Various standard analytical techniques and sensors are used for the detec

63 Using analytical techniques and simulations, we obtain a phase

64 ample collections, focusing on the choice of analytical techniques and the demands they make on the t

65 mplete because of the limitations of current analytical techniques and the inherent chemical complexi

66 n of novel biosensors and the development of analytical techniques and ultimately to regulatory and e

67 imate modelers to harmonize datasets, refine analytical techniques, and corroborate and validate metr

68 ed by employing new protocols, microchemical analytical techniques, and molecular biology tools to ex

69 tion, and with greater confidence than other analytical techniques, and our software satisfies an urg

70 an conditions, improvement in sequencing and analytical techniques, and pervasive sharing of phenotyp

71 is article presented the impact of different analytical techniques, and provides an overview of appli

72 The advantages and limitations of each analytical technique are compared in an effort to provid

73 important information, various complementary analytical techniques are applied, among which vibration

74 Various analytical techniques are applied, including Fourier tra

75 ark molecule against which many biomolecular analytical techniques are assessed and evaluated, we pre

76 WOC optimization, advanced in situ/operando analytical techniques are being developed as increasingl

77 Immobilization- and label-free analytical techniques are desirable because of their sim

78 entrations; therefore, sensitive and precise analytical techniques are required to accurately detect

79 Undetectable to the naked eye, analytical techniques are required to identify such scen

80 Consequently, ultrasensitive new analytical techniques are required.

81 during many volcanic eruptions, but typical analytical techniques are too slow to contribute to haza

82 Current analytical techniques are underdeveloped and lack the se

83 udies in the last years through conventional analytical techniques as chromatographic ones.

84 ettes are widely used in electrochemical and analytical techniques as tools for sizing, sequencing, s

85 he important development of advanced in situ analytical techniques as well as theoretical studies to

86 The present study reviews various analytical techniques available for detection of inorgan

87 y fashion, adding to the battery of advanced analytical techniques available to address the quality a

88 We present an analytical technique based on direct absorption laser sp

89 composition are challenging as the standard analytical techniques based on measurement calibration a

90 Our analytical technique, based on an integral over the surf

91 We joined analytical techniques, based on stable isotopes and trac

92 time-of-flight mass cytometry requires novel analytical techniques because the application of convent

93 Using a variety of analytical techniques, both strains were subsequently sh

94 eyond qualitative analysis to a quantitative analytical technique by employing a mimetic tissue model

95 oscopy has evolved into a cross-disciplinary analytical technique by unveiling relevant chemical, bio

96 Our analytical technique can be used to evaluate the utility

97 Since a control of authenticity by standard analytical techniques can be bypassed using elaborated a

98 Electrochemical and electrochemiluminescence analytical techniques can be configured and realized by

99 diverse molecules is challenging since most analytical techniques cannot analyze multiple molecules

100 Conventional analytical techniques cannot resolve the distribution of

101 Raman spectroscopy is one of a few analytical techniques capable of nondestructive and near

102 lfate, serum albumin, and transferrin--using analytical techniques capable of resolving inhibitor-cry

103 that by combining different laboratory X-ray analytical techniques, compartmentalization and bioavail

104 als is an elusive topic to a majority of the analytical techniques covering the field of nanotechnolo

105 Advanced analytical techniques currently used for characterizatio

106 The analytical techniques, diffusive gradients in thin films

107 products were characterized by a variety of analytical techniques (e.g., attenuated total reflection

108 f characteristic parameters through tailored analytical techniques enables establishing linkages to t

109 is investigated as an innovative preparative analytical technique enabling classification of adultera

110 The analytical techniques evaluated used modern mass spectro

111 strategies combining MRI with complementary analytical techniques ex vivo have emerged, which may le

112 Traditional analytical techniques face many limitations such as time

113 bility of Raman microspectroscopy as a novel analytical technique for a rapid and reliable identifica

114 er chromatography (HPTLC) is an advantageous analytical technique for analysis of complex samples.

115 ovided by UPLC-IM-TOFMS makes it a promising analytical technique for analysis of NAs in complex OSPW

116 scattering (TERS) is a promising optical and analytical technique for chemical imaging and sensing at

117 lasma-mass spectrometry (fs-LA-ICP-MS) as an analytical technique for determination of the stoichiome

118 Hindering the use of this analytical technique for environmental samples is the pr

119 This instrument offers a novel and simple analytical technique for in situ measurements and observ

120 oyed as labels, mass cytometry is a powerful analytical technique for multiparameter cytometric assay

121 akdown spectroscopy (LIBS) is an interesting analytical technique for PDO certification, since it pro

122 s used as simple, rapid, low cost label free analytical technique for PSA measurement with detection

123 etry (LC-MS/MS) represents the most suitable analytical technique for sensitive and selective detecti

124 LC/CR/MS is a new analytical technique for the analysis of complex mixture

125 Here we report on a novel analytical technique for the detection of extremely low

126 ven to be a powerful, versatile, and precise analytical technique for the evaluation of GNRs content

127 label-free, non-invasive and non-destructive analytical technique for the fast and accurate identific

128 ed as a sensitive, rapid, and cost-efficient analytical technique for the quantification of silver na

129 on, relatively low cost, and straightforward analytical technique for the study of trace quantities o

130 16 ubiquitous genotoxicants and developed an analytical technique for their simultaneous quantificati

131 complications during and after surgery; and analytical techniques for assessing soft tissue, bone an

132 ed Raman spectroscopy (TERS) have emerged as analytical techniques for characterizing molecular syste

133 ed waters, there is a need for complementary analytical techniques for comprehensive characterization

134 Analytical techniques for detection and quantitation of

135 ocedures and also instrumental conditions of analytical techniques for determination of organic and i

136 Currently available analytical techniques for early stage cancer diagnosis d

137 Longitudinal studies, using standardized analytical techniques for EBC collection, are required t

138 m, and the integration of the two structural analytical techniques for fundamentally understanding ca

139 we have explored the utility of several new analytical techniques for HCP analysis and thereby devel

140 We then employ what we believe to be new analytical techniques for measuring the effective free e

141 We demonstrate that commonly applied analytical techniques for quantification of organic carb

142 A number of analytical techniques for sotolon analysis in wine have

143 eady-state concentrations, the use of common analytical techniques for the direct measurement of thes

144 application of complementary statistical and analytical techniques for the identification of unknown

145 Qualitative and quantitative analytical techniques for the investigation of human tis

146 The development of sensitive analytical techniques for the real-time detection of aro

147 Metabolic fingerprinting is a powerful analytical technique, giving access to high-throughput i

148 specialized spectrometers necessary for this analytical technique have recently been adapted to opera

149 A vast range of in vitro and in vivo analytical techniques have been developed based on BL, i

150 Different analytical techniques have been reported to assess intac

151 ble and number in the thousands, traditional analytical techniques have proven unable to achieve this

152 Advances in analytical techniques have resolved the fine structure o

153 y defined biochemical features, and emerging analytical techniques have shed light on nuanced and con

154 Advances in the spatial resolution of modern analytical techniques have tremendously augmented the sc

155 eratures and enable optical access for other analytical techniques (i.e., single-molecule fluorescenc

156 leaching experiments (EN12457-2) and several analytical techniques (ICP, SEM, XRD, etc.), which were

157 phages is becoming more commonly reported as analytical techniques improve, but guanosine modificatio

158 esolved neutron imaging is a very attractive analytical technique in cases where other conventional n

159 -MS tissue imaging has great potential as an analytical technique in immunology.

160 ctrometry (UHPLC-MS) has become a widespread analytical technique in metabolomics investigations, how

161 establishing NMR spectroscopy as a standard analytical technique in organic chemistry.

162 hus holds exceptional promise as an enabling analytical technique in the efforts toward future pharma

163 A wide range of analytical techniques in bioanalysis rely on surface-bas

164 ble after the same duration by the classical analytical techniques in cell biology.

165 es from the surface, enabling solution-phase analytical techniques in conjunction with traditional su

166 We also apply common data collection and analytical techniques in the field and evaluate their ab

167 Analytical techniques included spICP-MS, XANES, TEM, SEM

168 tized photo-anode were studied using various analytical techniques including FESEM, EDS, TEM, AFM, FT

169 nt was characterized by a range of different analytical techniques including FTIR, UV spectrophotomet

170 lication can be quantified using traditional analytical techniques including LC or GC, the spatial di

171 e, which can then be analyzed by a number of analytical techniques including MS and NMR.

172 Molecular changes were observed using analytical techniques including proton ((1)H) nuclear ma

173 In this study, a suite of analytical techniques including sum frequency generation

174 ne expression patterns using a succession of analytical techniques, including a novel MP grammars met

175 This study used a wide range of analytical techniques, including conventional techniques

176 acterization of yacon syrup was performed by analytical techniques, including NMR and UPLC-QTOF-MS(E)

177 The currently used analytical techniques introduce a great bias in the know

178 de recommendations as to when each field and analytical technique is most appropriately employed.

179 discussed in the 1990s, application of this analytical technique is still very much in its infancy.

180 e have been established and the portfolio of analytical techniques is growing.

181 search strategy integrating state-of-the-art analytical techniques is needed to efficiently discover

182 The goal of most analytical techniques is to reduce the lower limit of de

183 With developments in data resources and analytical techniques, it is encouraging that guidelines

184 e poor detection limits compared to those of analytical techniques, like ELISA, which confines their

185 rature (between 2000 and 2016) on the use of analytical techniques, mainly NMR spectroscopy, for auth

186 viors in real time by combining two powerful analytical techniques, micro-3D printing and scanning el

187 s of the motivation for pooling, appropriate analytical techniques must be applied in order to obtain

188 Our analytical technique-named spectral stitching-measures d

189 Here we report the results of multiple analytical techniques on sub-mm particulate material der

190 An analytical technique operating at the nanoscale must be

191 a combination of advanced atomic-resolution analytical techniques, our data for the first time revea

192 By employing a variety of analytical techniques (photoluminescence, time-of-flight

193 ability was thoroughly investigated by multi-analytical techniques prior to butanol determination in

194 to achieve this, consensus on definitions of analytical techniques, proportion of abnormal cells, and

195 These analytical techniques provide complementary information

196 The developed analytical technique resulted in quantitative extraction

197 Different analytical techniques, sedimentation flow field fraction

198 (Nuclear Magnetic Resonance) relaxometry, an analytical technique seeing a substantial growth of fiel

199 clic voltammetry and electrochemiluminescent analytical techniques, showing excellent agreement with

200 ected ion flow-drift tube mass spectrometric analytical technique, SIFDT-MS, is described that extend

201 The emerging analytical technique stimulated Raman scattering (SRS) m

202 ll inhibited by limitations of the different analytical techniques such as high sample needs, offline

203 sential state-of-the-art electrochemical and analytical techniques such as in situ pressure and gas a

204 Methods that employ sensitive analytical techniques such as mass spectrometry have the

205 Various analytical techniques such as TEM, STEM, FESEM, XRD, RAM

206 backed by EIS simulations and complementary analytical techniques, such as online electrochemical ma

207 When compared to the conventional analytical techniques, such as QuEChERS and buffered eth

208 Many analytical techniques, such as X-ray diffraction, neutro

209 domain formation is observed by a variety of analytical techniques, suggesting that their elastomeric

210 eature highlights recent developments in key analytical techniques suited for single-cell metabolic a

211 role of the achiral additive by multifarious analytical techniques supports its ability to stabilize

212 analytical concept, which includes many more analytical techniques than sensors and includes foremost

213 Raman spectroscopy (RS) is an emerging analytical technique that can be used to develop and dep

214 ctroscopy is a label-free and nondestructive analytical technique that can provide spatiotemporal inf

215 focal Raman spectroscopy is a nondestructive analytical technique that combines the chemical informat

216 spectroscopy is a rapid and non-destructive analytical technique that has found a growing interest i

217 etry (MS) is a spatially resolved label-free analytical technique that recently maturated into a powe

218 n of hydrocarbon mixtures relies on advanced analytical techniques that are not accessible to many re

219 increase, there is an urgent need to develop analytical techniques that are sufficiently sensitive to

220 rently monitored by a variety of traditional analytical techniques that are time-consuming, expensive

221 Therefore, analytical techniques that can detect subtle variations

222 Thus, analytical techniques that can detect, quantify, and dis

223 it is crucial to overcome the lack of robust analytical techniques that continue to hinder the purifi

224 this Review, we consider the biological and analytical techniques that could facilitate a precision

225 Also, sample pre-treatment and analytical techniques that have been applied to determin

226 cuss the potential use of the very sensitive analytical techniques that have been developed for the d

227 ave been made in developing fast and precise analytical techniques that have the potential to address

228 of biological systems requires a balance of analytical techniques that inform on metal quantity (sen

229 However, analytical techniques that quantify and compare alternat

230 m eight Cretaceous dinosaur bones using nano-analytical techniques; the bones are not exceptionally p

231 This new isotope analytical technique thus improves the isotopic analysis

232 properties in combination, as a useful multi-analytical technique to improve the understanding of the

233 MagLev offers a new analytical technique to materials and polymer scientists

234 We developed an image-based analytical technique to phenotype mitochondrial morpholo

235 ch, there is clearly a need for an automated analytical technique to process large-scale image datase

236 spectrometry (LC-MS) has become an essential analytical technique to quantify the quality attributes

237 h modulation spectroscopy was adopted as the analytical technique to reduce the noise on the optical

238 lves the use of far-UV CD as a complementary analytical technique to size exclusion chromatography (S

239 We propose an analytical technique to study large fluctuations and swi

240 apply archaeological excavation, dating and analytical techniques to a wild capuchin monkey (Sapajus

241 ing demand for researchers to develop simple analytical techniques to allow for an accurate, sensitiv

242 mistry as the application of the most recent analytical techniques to ancient samples now provides an

243 ochemical properties, we deployed a suite of analytical techniques to characterize CWTF effluents, co

244 ed to develop robust, rapid, and nontargeted analytical techniques to determine the identity of the p

245 enetics, genomics, biochemical, and advanced analytical techniques to dissect the biosynthetic pathwa

246 e used genetic, biochemical, structural, and analytical techniques to establish l-4-Cl-Kyn biosynthes

247 lular interactions, along with the available analytical techniques to follow and track these processe

248 bine different statistical spectroscopic and analytical techniques to improve and simplify the proces

249 this is the first report of a comparison of analytical techniques to measure the DAR for ADCs produc

250 dustry is in great need of faster and robust analytical techniques to objectively assess incoming coc

251 Different analytical techniques to obtain a broader descriptions o

252 In this study, we used a number of analytical techniques to precisely study the structures

253 This study utilises analytical techniques to provide a comprehensive metabol

254 st in functional foods had led to the use of analytical techniques to quantify some properties, among

255 We used meta-analytical techniques to search for generalities and asy

256 Finally, we outline emerging analytical techniques to study the bio-material hybrid s

257 at article proposing the utility of specific analytical techniques to support risk assessment would b

258 h as rheometry, spectroscopy, X-ray, electro-analytical techniques, ultrasound, and laser.

259 (13)C NMR is a powerful analytical technique used to characterize polyolefin mic

260 urface plasmon resonance (SPR) is a powerful analytical technique used to quantitatively examine the

261 Analytical techniques used for reliable honey authentica

262 This review describes the analytical techniques used in identification and quantif

263 t presents a comprehensive review of various analytical techniques used in the analysis of azo dyes e

264 but concise details about methodologies and analytical techniques used in the purification of such p

265 However, the analytical techniques used nowadays are not capable of a

266 that take place in RNA and suggest that the analytical techniques used to detect RNA reactivity coul

267 However, common analytical techniques used to determine the DIC content

268 MS) and Raman spectroscopy are complementary analytical techniques used to provide information relate

269 of the different length scales probed by the analytical techniques used.

270 ere possible between and among the different analytical techniques used.

271 time of 1min belong to crucial attributes of analytical technique useful for routine environmental mo

272 The analytical technique was based on gel-permeation-chromat

273 In this study, an analytical technique was developed and validated using a

274 Effective, Rugged and Safe" (QuEChERS)-GC/MS analytical technique was used to evaluated matrix effect

275 Exhaustive characterization using analytical techniques was done to study various aspects

276 Combining analytical techniques, we confirmed the existence of the

277 By combining multiple analytical techniques, we determined the glycerolipid pr

278 Herein, using various thermogravimetric analytical techniques, we find that single-stranded DNA

279 croscopy measurements with scanning electron analytical techniques, we find that these trap clusters

280 and computational methods as well as latest analytical techniques, we mapped the proteome and transc

281 Using modern analytical techniques, we were successful in identifying

282 Advanced analytical techniques were employed to fully characteris

283 onship among chemical changes from different analytical techniques were established.

284 Chemical-analytical techniques were insufficiently sensitive for

285 numbers of parameters deriving from the two analytical techniques were performed.

286 Bulk analytical techniques were unable to differentiate betwe

287 Advanced analytical techniques were used for determination of 20

288 Spectroscopic and mass spectrometric analytical techniques were used to characterise two natu

289 Process analytical techniques were used to establish reaction un

290 enzyme-linked immunosorbent assays or other analytical techniques where flow or washing steps are ne

291 ave developed and implemented a quantitative analytical technique which allows effective extraction o

292 rface enhanced Raman scattering (SERS) is an analytical technique which has gained a great deal of in

293 r than the currently available sophisticated analytical techniques, which involve high costs with eac

294 Taylor dispersion is a microfluidic analytical technique with a high dynamic range and there

295 monstrated as a simple and rapid alternative analytical technique with detection limit of 80 fM at co

296 lectrochemiluminescence (ECL) is a sensitive analytical technique with great promise for biological a

297 man spectroscopy (SERS) is an ultrasensitive analytical technique with molecular specificity, making

298 Mass spectrometry (MS) is an important analytical technique with numerous applications in clini

299 cal processes using a combination of ex situ analytical techniques with in situ transmission electron

300 techniques and in the simulated mudstone via analytical techniques with relevance to robotic missions