ライフサイエンスコーパス: spectroscopic

1 e fluorescent hydrazone product leading to a spectroscopic alteration in live cells.

2 s were analysed by invasive and non-invasive spectroscopic analyses (i.e., FTIR and Raman spectroscop

3 Evidence from various X-ray spectroscopic analyses indicated that non-lattice oxygen

4 Further spectroscopic analyses showed that phycoviolobilin is su

5 simplify off-chip analysis, and for portable spectroscopic analyses.

6 en-source ImageJ/FIJI plug-in for end-to-end spectroscopic analysis and visualization for sSMLM image

7 Mass spectroscopic analysis confirmed the presence of RNA aba

8 UV-Vis spectroscopic analysis indicated a molar ratio of peptid

9 netic studies with a surrogate substrate and spectroscopic analysis of a series of zinc alkoxides tha

10 ne room-temperature nano-optical imaging and spectroscopic analysis of excitons in nanobubbles of mon

11 f fluorescent molecules, software suites for spectroscopic analysis of sSMLM data remain unavailable.

12 vestigated by in situ/stopped-flow (19)F NMR spectroscopic analysis of the kinetics of alkene difluor

13 Spectroscopic analysis of the pigments in two isolated a

14 We undertook an extensive spectroscopic analysis of the prototypical 1 water oxida

15 ed by heterologous expression in E. coli and spectroscopic analysis of the purified products.

16 Spectroscopic analysis of the solid-like third phase was

17 The detailed spectroscopic analysis of the spectra reveals changes in

18 Performing quantitative in situ spectroscopic analysis on minuscule sample volumes is a

19 Offline spectroscopic analysis performed by proton-nuclear magne

20 NMR spectroscopic analysis revealed that gladiostatin, which

21 Crystallographic and 2D k-space spectroscopic analysis reveals that the transition dipol

22 tions have also been performed by UV-visible spectroscopic analysis to shed light on the reaction pro

23 Spectroscopic analysis using infrared and electronic abs

24 Computational modeling and UV spectroscopic analysis were performed to optimize MIP sy

25 It also uses two-dimensional NMR spectroscopic analysis, separation and pre-concentration

26 Combined with chemical sensitive spectroscopic analysis, the reconstruction can yield ele

27 capability of combining crystallographic and spectroscopic analysis, will greatly enhance understandi

28 that EVs contain ACC in uterine fluid using spectroscopic analysis.

29 ications of Infrared, Raman and fluorescence spectroscopic analysis.

30 ace of RGO was characterized using different spectroscopic and analytical techniques.

31 ysicochemical, barrier, mechanical, optical, spectroscopic and biodegradability properties of corn st

32 Overwhelming spectroscopic and chemical evidence support our diagnosi

33 umental techniques, including spectrometric, spectroscopic and chromatographic methods coupled with c

34 Spectroscopic and computational analyses with a series o

35 We provide spectroscopic and computational evidence for a substanti

36 ermore, characterization of 2 using combined spectroscopic and computational methods revealed that 2

37 Spectroscopic and computational studies indicate that th

38 Using electrochemical, operando/in situ spectroscopic and computational studies, we investigate

39 detailed mechanistic investigation based on spectroscopic and crystallographic analysis revealed tha

40 We also report spectroscopic and crystallographic characterization of r

41 Our spectroscopic and crystallographic data suggest that the

42 Spectroscopic and density functional theory studies eluc

43 ynchrotron-radiation X-ray measurements with spectroscopic and electrical characterizations, a quanti

44 iO(2) nanocrystallites, that are amenable to spectroscopic and electrochemical characterization in un

45 Besides X-ray crystallography, complete spectroscopic and electrochemical characterizations have

46 The aggregate spectroscopic and electrochemical data demonstrate that

47 red and thoroughly characterized by means of spectroscopic and electrochemical techniques, X-ray diff

48 Combing spectroscopic and electrokinetic data, we identify the r

49 ial distributions consistent with electronic spectroscopic and excited-state dynamical data, further

50 of these two enzymes using crystallographic, spectroscopic and fast kinetics techniques.

51 Spectroscopic and gas chromatography analyses are applie

52 ful combination of quantitative fluorescence spectroscopic and imaging techniques, we have examined t

53 In this Review, we highlight the recent spectroscopic and mechanistic advances that have shed li

54 Through high-end spectroscopic and microscopic tools, we demonstrate that

55 n revised based upon reanalysis of their NMR spectroscopic and MS spectrometric data, comparison of t

56 The formation of the bis-adducts and their spectroscopic and photochemical properties, as well as t

57 permeability while retaining their favorable spectroscopic and photoreaction properties.

58 Spectroscopic and physical methods indicated that these

59 we report synthetic, mass spectrometric, NMR spectroscopic and quantum mechanical/molecular mechanica

60 High-yield synthesis, spectroscopic and solid-state structural proof of the la

61 , herein, present a collection of synthetic, spectroscopic and theoretical investigations that provid

62 Spectroscopic and theoretical studies suggested that thi

63 As evidenced by comprehensive spectroscopic and theoretical studies, the heterocyclope

64 Complementary structural, magnetic, spectroscopic, and density functional theory (DFT) compu

65 Moreover, a series of electrochemical, spectroscopic, and kinetic experiments as well as X-ray

66 Structural, spectroscopic, and reactivity studies are presented for

67 In situ structural, spectroscopic, and theoretical analyses reveal that latt

68 Combined structural, spectroscopic, and theoretical evidence shows that the s

69 Unfortunately, this spectroscopic approach is only viable if the energies of

70 This site-specific spectroscopic approach opens the door to understanding e

71 time and to determine the feasibility of the spectroscopic approach to detect antimicrobial resistanc

72 These results pave the way for a new, rapid spectroscopic approach to detect drug resistance in path

73 omplementary information from structural and spectroscopic approaches has made significant inroads in

74 In this review, we summarize how different spectroscopic approaches have shed light on various aspe

75 tivity has been guided by the development of spectroscopic approaches that measure glutaminase activi

76 is and electron paramagnetic resonance (EPR) spectroscopic approaches.

77 S and traditional visible circular dichroism spectroscopic assays.

78 We conclude that data-driven spectroscopic brain examination supports that reductions

79 Developing spectroscopic calibration models requires calibration sa

80 In combination with novel spectroscopic capabilities provided by a nonclassical li

81 These measurements demonstrate neutron spectroscopic capabilities, a neutron image resolution f

82 ne vinegars was carried out by a sensory and spectroscopic characterization and by a comparison with

83 Furthermore, in-depth spectroscopic characterization by X-ray absorption spect

84 , we report the synthesis and structural and spectroscopic characterization of a stable Fe(VI) comple

85 ns and to identify the cause of infection by spectroscopic characterization of the neutrophils.

86 been the subject of extensive structural and spectroscopic characterization over the past 60 years.

87 Crystallographic and NMR spectroscopic characterization shows that both the short

88 Extensive spectroscopic characterization suggests the presence of

89 has previously been demonstrated by several spectroscopic characterization techniques that the surfa

90 Along with spectroscopic characterization, we demonstrate that the

91 g, zeta potential, surface tension, and FTIR spectroscopic characterization.

92 r NMR ((1)H, (11)B), and X-ray photoelectron spectroscopic characterization.

93 We report here the biochemical and spectroscopic characterizations of RumMC2.

94 trio is investigated by spectrofluorometric, spectroscopic, chromatographic and spectrometric experim

95 Spectroscopic, computational and chemical studies indica

96 espite the success of IR-PiFM, the origin of spectroscopic contrast remains unclear, preventing the s

97 The use of machine learning for multivariate spectroscopic data analysis in applications related to p

98 closely matching crystal structures, whereas spectroscopic data and limited proteolysis indicate that

99 The spectroscopic data for the synthetic and sponge-derived

100 Ex situ and operando structural and spectroscopic data indicate that delithiation results in

101 The predictive modeling of the Raman spectroscopic data is performed using a one-dimensional

102 Here, we present angle-resolved spectroscopic data of a high-quality hexagonal-BN-encaps

103 contribution utilizes multidimensional Raman spectroscopic data to generate a predictive model for id

104 ed materials did not match well, whereas the spectroscopic data were a good match for closely related

105 Herein, we combine spectroscopic data with molecular docking, molecular dyn

106 tite sample, combined with compositional and spectroscopic data.

107 atures are proposed based on the kinetic and spectroscopic data.

108 machine-learning-based classification of the spectroscopic data.

109 tent with the X-ray crystallographic and NMR spectroscopic data.

110 alyses of IR, mass spectrometry, NMR, and UV spectroscopic data.

111 box model) is sufficient to explain in-situ spectroscopic ellipsometry data measured within and acro

112 high temperatures up to 800 degrees C using spectroscopic ellipsometry.

113 discovered two new hydride intermediates and spectroscopic evidence for a bridging CO ligand in two r

114 Additionally, spectroscopic evidence for a trimethylamine-ligated iron

115 Direct spectroscopic evidence for OH* and COOH* species forming

116 certain high-symmetry directions, providing spectroscopic evidence for strong correlations.

117 We provide direct spectroscopic evidence for ylide formation by singlet al

118 The reinterpreted spectroscopic evidence has been corroborated by the tota

119 ogical phase, and experimentally demonstrate spectroscopic evidence of a hierarchy of boundary modes,

120 his article, we present crystallographic and spectroscopic evidence of a tunable system wherein a HO.

121 e remote search for biosignatures (i.e., the spectroscopic evidence of biological activity) in exopla

122 EPR spectroscopic evidence suggested that NHC-boryl radicals

123 Furthermore, spectroscopic evidence, Kohn-Sham molecular orbital comp

124 which were characterized by a variety of NMR spectroscopic experiments and X-ray crystallography.

125 Detailed electron microscopic and spectroscopic experiments coupled with computational mod

126 Computations and spectroscopic experiments suggest that the oxo- and thio

127 s can be measured only through combinatorial spectroscopic experiments.

128 These spectroscopic features are a direct consequence of Coulo

129 structural interpretations based on the EPR spectroscopic features of the S(3) state provide valuabl

130 s intermediate has absorption- and Mossbauer-spectroscopic features similar to those of complexes pre

131 The redox potential, Cu-Cu spectroscopic features, and a valence delocalized state

132 On the basis of these structural and spectroscopic findings and also genetic evidence, we pro

133 n framework to upsample three-dimensional MR spectroscopic images acquired at lower resolution.

134 n Rapidly acquired deuterium (hydrogen 2) MR spectroscopic images can provide quantitative and spatia

135 Magnetic resonance spectroscopic imaging (MRSI) 7 Tesla (7 T) provides enha

136 Magnetic resonance spectroscopic imaging (MRSI) has long been recognized as

137 larized [1-(13)C]pyruvate magnetic resonance spectroscopic imaging (MRSI) is a noninvasive metabolic-

138 ncer patients using (13)C magnetic resonance spectroscopic imaging (MRSI) of hyperpolarized (13)C lab

139 Therefore, the characteristic photon based spectroscopic imaging and secondary Gd dose enhancement

140 Using spectroscopic imaging and spin-polarized measurements wi

141 the use of deuterium (hydrogen 2 [(2)H]) MR spectroscopic imaging for quantitative mapping of tumor

142 monstrates the application of confocal Raman spectroscopic imaging for the comparative bimolecular an

143 Here, we report the use of confocal Raman spectroscopic imaging for the visualization and multivar

144 is Article, we demonstrate that mid-infrared spectroscopic imaging may serve as a quantitative diagno

145 Midinfrared (mid-IR) spectroscopic imaging offers label-free molecular record

146 ctively scanned with a 3-T whole-brain 3D MR spectroscopic imaging protocol optimized for D-2HG.

147 Results (2)H MR spectroscopic imaging showed heterogeneity in glycolytic

148 a super-resolution three-dimensional (3D) MR spectroscopic imaging strategy to map D-2HG and tumor me

149 demonstrate the applicability of vibrational spectroscopic imaging techniques including Atomic Force

150 n cerebral blood flow and magnetic resonance spectroscopic imaging to measure cerebral neurochemical

151 Here, macro ATR-FTIR spectroscopic imaging, along with a variable angle of in

152 With fluorescence spectroscopic imaging, brightfield microscopy, histochem

153 Using infrared spectroscopic imaging, we identified spectral patterns s

154 ndividual neutrophils using label-free Raman spectroscopic imaging.

155 men) underwent a simulation of upsampled MR spectroscopic imaging.

156 a new concept in mechanochromism, namely, a spectroscopic indicator of not only whether and where a

157 tional problem arises when the nature of the spectroscopic information differs in dimensionality as w

158 We show that the measured spectroscopic information of a sample is directly relate

159 nded X-ray absorption fine structure (EXAFS) spectroscopic information, combined with competitive lig

160 not provide direct, high-resolution, source spectroscopic information.

161 read-out signal from potential chemical and spectroscopic interferences, (3) minimal sample volumes

162 avin as a co-substrate, are less amenable to spectroscopic investigation.

163 scopic means, and we highlight where further spectroscopic investigations are needed.

164 Infrared spectroscopic investigations of adsorbed pyridine indica

165 Spectroscopic investigations of coherent dynamics provid

166 condensed-phase system is ideally suited to spectroscopic investigations of the quantum nature of is

167 Although spectroscopic investigations show no effect of water on

168 fixed at the NP@MOF interface to facilitate spectroscopic investigations, free reactants could be ac

169 On the basis of spectroscopic investigations, their molecular structures

170 , via combined isotopic labeling and in situ spectroscopic investigations.

171 Toward this objective, a spectroscopic library of the Tc(I) [fac-Tc(CO)(3)](+) an

172 Raman spectroscopic mapping of the distribution of the covalen

173 s for photochemical materials processing and spectroscopic materials analysis, surface disinfection,

174 uch to be learned from these enzymes through spectroscopic means, and we highlight where further spec

175 Excellent agreement between experimental spectroscopic measurements and the theoretically determi

176 Traditionally, there has been a trade-off in spectroscopic measurements between high resolution, broa

177 hod minimizes the impact of random errors in spectroscopic measurements by correcting peak positions

178 new material and waveguide systems used for spectroscopic measurements in the MIR is presented.

179 Here, we report scanning tunneling spectroscopic measurements of crystalline domain walls (

180 se ribosomal proteins and rRNA preclude most spectroscopic measurements of protein energetics.

181 Spectroscopic measurements show that this counter-intuit

182 this work, we demonstrate with a variety of spectroscopic measurements that the TAML backbone in the

183 lings of the flat electronic bands in recent spectroscopic measurements(7-10), and transport experime

184 freeze-quench (57)Fe Mossbauer and infrared spectroscopic measurements, deuterium labeling studies,

185 Through spatially resolved spectroscopic measurements, we show that the array acts

186 the holes both by theoretical modelling and spectroscopic measurements.

187 a combination of ab initio calculations and spectroscopic measurements.

188 ection-Fourier transform infrared (ATR-FTIR) spectroscopic method compatible with the requirements of

189 This spectroscopic method enables optimization of sample and

190 uccessfully applied to a multivariate FT-NIR spectroscopic method for the screening of durum wheat pa

191 The various TR RR spectroscopic methods can cover a wide dynamic range dow

192 nol and major fatty acids contents with both spectroscopic methods regardless of oil type.

193 Special emphasis will be on spectroscopic methods to investigate light-induced proce

194 We employed computational, synthetic, and spectroscopic methods to investigate the physicochemical

195 In each of the spectroscopic methods used, experimental data for the (-

196 rall transformation, optical and fluorescent spectroscopic methods were used to investigate the react

197 solution by (1) H, (13) C NMR and (1) H DOSY spectroscopic methods, and 3) in the gas phase by electr

198 was aimed to compare the performances of two spectroscopic methods, fluorescence and mid-infrared spe

199 olopurine tautomers was supported by various spectroscopic methods, including (15)N NMR.

200 susceptibility measurements, and a range of spectroscopic methods, including (23)Na solid-state NMR,

201 hotoconductivity by combining three advanced spectroscopic methods, including time resolved optical a

202 Compared with other spectroscopic methods, it stands out by its sensitivity

203 Here we combine electrochemical and in situ spectroscopic methods, particularly operando X-ray absor

204 Employing a variety of spectroscopic methods, we demonstrate that these excepti

205 angle x-ray scattering and x-ray absorption spectroscopic methods, we have investigated the effect o

206 uid inclusions was determined by optical and spectroscopic methods.

207 Our comprehensive spectroscopic, microscopic, and computational analyses p

208 ining gelator, along with other results from spectroscopic, microscopic, and rheological experiments,

209 opy of a Mn(IV)(4)O(4) cuboidal complex as a spectroscopic model of the S(3) state.

210 Experimental and in situ spectroscopic monitoring techniques provide detailed ins

211 Consequently, J represents a spectroscopic observable that distnguishes the resemblan

212 We conducted rotationally resolved spectroscopic observations of this asteroid, mostly cove

213 Here we report optical spectroscopic observations of XLSSC 122 and identify 37

214 Spectroscopic observations showed that the Glu324Lys (E3

215 A spectroscopic paradigm has been developed that allows th

216 e diimide (cNDI) monomers enables a detailed spectroscopic probing during the supramolecular block co

217 we report the synthesis, crystal structure, spectroscopic properties and redox interconversions of a

218 phyrinoids greatly alters the reactivity and spectroscopic properties for these systems.

219 ransformation associated with changes in the spectroscopic properties has been observed in the presen

220 EP domain is detected through changes in the spectroscopic properties of fluorescent or spin label.

221 re we report a cascade of transitions in the spectroscopic properties of magic-angle twisted bilayer

222 The spectroscopic properties of some phenalenones were inves

223 s at the Fermi level and is observed in most spectroscopic properties.

224 hemical reactions can be monitored with high spectroscopic resolution using zero-field nuclear magnet

225 Moreover, our spectroscopic results highlight different orbital mechan

226 Combining reactivity and spectroscopic results on these four types of Cu surfaces

227 Spectroscopic results showed greater (p < 0.05) inter- a

228 At steady-state U release, kinetic and spectroscopic results suggest detachment of oxidized U(V

229 trix, as revealed by our x-ray photoelectron spectroscopic results.

230 Current experimental methods, including spectroscopic schemes, have been reviewed.

231 initio calculations reveal that the measured spectroscopic signature arises from defect-induced pseud

232 influence of valence (de)localization on the spectroscopic signature of the mu-hydride ligand was eva

233 ins, fiber and other nutrients obtained from spectroscopic signatures of peanut seeds.

234 he resulting doubly porous salt displays the spectroscopic signatures of the parent cages with increa

235 show that all these systems present the same spectroscopic signatures upon melting, common to those o

236 inherent defects in the framework, decipher spectroscopic signatures, and elucidate the electronic s

237 d that we believe will have major impacts on spectroscopic simulations in the very near future.

238 Spectroscopic single-molecule localization microscopy (s

239 Microscopic (TEM, AFM) and spectroscopic (steady-state UV-vis and fluorescence, spe

240 es is demonstrated for electrochemical force spectroscopic studies at model samples such as plasma-tr

241 Crystallographic and spectroscopic studies confirm assembly of homologous U(V

242 Groundbreaking structural and spectroscopic studies of class A G protein-coupled recep

243 Spectroscopic studies on PS II RCs are difficult to inte

244 anistic insight, corresponding synthetic and spectroscopic studies on tetranuclear complexes mirrorin

245 (1) H NMR spectroscopic studies on the 1:1 adduct of the pentasacc

246 Spectroscopic studies reveal that a Cu(I) species is lik

247 Mossbauer spectroscopic studies reveal that the alkylated Fe has a

248 tituent effects, computational modeling, and spectroscopic studies support the involvement of this un

249 new developments for in situ and in operando spectroscopic studies, molecular catalysis of CO2 reduct

250 O cross-coupling reaction from time-resolved spectroscopic studies.

251 bl, and Niby and Nibl, were characterized by spectroscopic studies.

252 paving the way for its use in high-precision spectroscopic studies.

253 This work represents a holistic spectroscopic study from the level of the single infecte

254 We report on optical spectroscopic study of the Sr(3)(Ir(1-x)Ru(x))(2)O(7) sy

255 asurements from the Southern Stellar Streams Spectroscopic Survey of the spatially thin, dynamically

256 Here we introduce a local spectroscopic technique using a scanning tunnelling micr

257 One proposed method is an automated spectroscopic technique, Raman spectral imaging; however

258 All products were evaluated by several spectroscopic techniques (Raman, UV-Vis) and transmissio

259 is study, we employ a combination of surface spectroscopic techniques and grand-canonical electronic-

260 )-dots were synthetized and characterized by spectroscopic techniques and High Resolution Transmissio

261 Herein, steady-state and time-resolved spectroscopic techniques are combined with new and repor

262 Further, these advanced spectroscopic techniques can be applied to study a wide

263 Spectroscopic techniques complemented by quantum chemica

264 Raman and transmission FTIR spectroscopic techniques have been coupled in a new home

265 xes have been fully characterized by several spectroscopic techniques in conjunction with single-crys

266 Combined IR and UV laser spectroscopic techniques in molecular beams merged with

267 uOH species are characterized by an array of spectroscopic techniques including UV-vis absorption, el

268 n situ spectroelectrochemistry together with spectroscopic techniques led us to identify elusive key

269 Although infrared spectroscopic techniques offer these advantages, the val

270 Both spectroscopic techniques provided comparable results for

271 Indeed, we analysed by several spectroscopic techniques the secondary structures of two

272 Moreover, the number of spectroscopic techniques were used to study the chemical

273 Steady-state and ultrafast spectroscopic techniques were used to track the excited-

274 Furthermore, femtosecond adaptive spectroscopic techniques with enhanced resolution via co

275 3A4 allostery using biophysical and advanced spectroscopic techniques, and discovered a pivotal role

276 hese fibers were characterized using several spectroscopic techniques, protease fragmentation with ma

277 ion of molecular tagging and high resolution spectroscopic techniques, such as nuclear magnetic reson

278 rolonged efforts to develop various coherent spectroscopic techniques, the lack of an all-encompassin

279 n method, which was characterized by various spectroscopic techniques.

280 k, 2D COF-5, is investigated using ultrafast spectroscopic techniques.

281 t scattering, electron microscopy, and other spectroscopic techniques.

282 sible heights using a range of complementary spectroscopic techniques.

283 sis, scanning electron microscopy, and other spectroscopic techniques.

284 ction mechanism is unveiled by comprehensive spectroscopic techniques: a three-electron redox reactio

285 This investigation compares four spectroscopic techniques: attenuated total reflectance-F

286 Here, we developed spectroscopic thermal perturbation with 117 experimental

287 nstrated by solid-state NMR, complemented by spectroscopic, thermal, and x-ray scattering analyses.

288 ll established, despite numerous structural, spectroscopic, thermodynamic, and kinetic studies.

289 Stopped-flow kinetic and spectroscopic titration studies, along with isothermal c

290 sticated, powerful, and generally applicable spectroscopic tool that can be used to ascertain the cor

291 The presented fluorescence spectroscopic toolkit will likely accelerate the develop

292 derstanding of MATLAB to use the statistical spectroscopic tools and analytical skills to perform sol

293 Efforts to resolve quantum states with spectroscopic tools are typically unsuccessful for such

294 tform system involves the use of statistical spectroscopic tools such as Statistical Total Correlatio

295 and vitamin B12, was studied using different spectroscopic tools such as steady-state & time-resolved

296 We combine three spectroscopic tools-resonant inelastic X-ray scattering,

297 magnetic field, which strongly modifies the spectroscopic transitions.

298 Kinetic, reagent, and spectroscopic (UV-vis and EPR) studies suggest a mechani

299 We have combined X-ray absorption spectroscopic (XAS) fingerprinting and in vivo mouse rel

300 th and were characterized using a variety of spectroscopic (XRF imaging and Fe EXAFS) and microscopic