ライフサイエンスコーパス: absorption

1 reflection with negligible transmission and absorption.

2 none framework results in a red shift of the absorption.

3 or character, concomitant with a red-shifted absorption.

4 izing ASD formulations to maximize oral drug absorption.

5 as IVPT results may be indicative of in vivo absorption.

6 hard-to-attain broadband deep-subwavelength absorption.

7 (kgm) lattice and show strong visible light absorption.

8 nt-sensing cells in regulating macronutrient absorption.

9 ed thermal conductance and parasitic optical absorption.

10 le of 30 fs via the induced changes to photo-absorption.

11 plishing both high stiffness and high energy absorption.

12 , the major site for nutrient metabolism and absorption.

13 of molecules exhibiting strong visible-range absorption.

14 ed with suboptimal ART adherence and/or drug absorption.

15 man scattering and hemoglobin with transient absorption.

16 nd prolonged ocular surface contact and drug absorption.

17 levels by decreasing the rate of blood sugar absorption.

18 rms a metamaterial ultrasound absorber (peak absorption = 72% of sound intensity at 78 kHz) that is 1

19 entetic acid (Gd-DTPA) and have better X-ray absorption ability than rose bengal alone.

20 After re-absorption, aminobenzene borate was linked to the surfac

21 A 1-compartment model with zero-order absorption and allometric scaling best described the dat

22 To prolong the residence time, absorption and bioavailability of a broad spectrum of ac

23 yclically high contractile stress upon water absorption and desorption, and the rapid exchange of wat

24 ological and physiological importance in the absorption and disposition of a range of solutes, eight

25 e (NT-3DFG) is flexible due to its broadband absorption and does not generate cellular stress.

26 on the basis of incorrect assumptions about absorption and elimination of a drug and its effect on t

27 By virtue of their discrete absorption and emission properties, the mixture of MURs

28 ofile or surrogate biomarkers of cholesterol absorption and endogenous synthesis.

29 om aldosterone-treated mice reduced chloride absorption and epithelial sodium channel activity, despi

30 ylglycerides and is required for dietary fat absorption and fat storage in humans(1).

31 m a parallel factor (PARAFAC) analysis where absorption and fluorescence data were combined.

32 ped-flow injection device to collect visible absorption and fluorescence EEM spectra of reacting solu

33 Due to the high-efficiency energy absorption and high-tension strength material properties

34 ctromagnetic or ultrasound waves suffer from absorption and impedance mismatches at biological interf

35 particle motion increases with optical power absorption and is also affected by particle size and cor

36 pite normal food intake, intestinal nutrient absorption and locomotor activity.

37 diary metabolic pathways and cause defective absorption and metabolism of dietary nutrients.

38 sues other than the primary sites of alcohol absorption and metabolism.

39 material with high surface area to increase absorption and minimize surface reflection.

40 ogical intestinal functions such as nutrient absorption and motility(2,3), and brain-wired feeding be

41 s a unique material that exhibits two-photon absorption and near-infrared emission simultaneously.

42 duces red-shift in the CdSe core peak UV-vis absorption and ORF wavelengths, and increases their peak

43 elength or intensity of the CdSe core UV-vis absorption and ORF, but it reduces the QD fluorescence d

44 oscopic methods, particularly operando X-ray absorption and Raman spectroscopy, to study the mechanis

45 Hepcidin regulates iron absorption and recycling by inducing the internalization

46 However, light absorption and scattering significantly prevents penetra

47 s were the primary contributors to BrC light absorption and they were moderately absorbing.

48 Transient absorption and time-resolved fluorescence show that, rel

49 reflects the spatial distribution of the NW absorption, and allow the resonances to be assigned to t

50 ads to increased EPO production, better iron absorption, and amelioration of anemia in chronic kidney

51 undermine the photoligation via competitive absorption, and as a result, photobleaching or side reac

52 , processes such as charge conduction, light absorption, and emission are governed not only by the st

53 rocesses connected with light sensing, light absorption, and pigment binding within the thylakoid mem

54 arth asteroid Bennu with a distinct infrared absorption around 3.4 micrometers.

55 d to explain 29 +/- 15% of average BrC light absorption at 405 nm (BrC Abs(405)) measured in the firs

56 gh contrast and resolution images of optical absorption at depths greater than traditional optical im

57 d Ice Sheet (GrIS), amplifying summer energy absorption at the ice surface and enhancing meltwater ru

58 both the occurrence of alveolar hypoxia and absorption atelectasis, thus optimizing the residual lun

59 sample using a hypsochromic shift of another absorption band around 340 nm that is independent of the

60 tene overlaps almost perfectly with the Q(x) absorption band of the BChls.

61 retical and experimental energy of the lower absorption band of these species.

62 Both modified starches reported absorption bands in the IR at 1566 and 1738 cm(-1), prop

63 Their two-photon absorption bands reach into the NIR-II region of the ele

64 rins showed large bathochromic shifts in the absorption bands, indicating that the electronic propert

65 he molecular origins of their distinctive IR absorption bands.

66 many more resonances and broaden the perfect absorption bandwidth.

67 t the bowing results not only in red-shifted absorptions but also more facile reductions.

68 The total rate of light absorption by the water samples (R(a)), the rates of for

69 The results show that the spectral range of absorption can be tuned by changing the CNT concentratio

70 strain can be used to modulate the hydrogen absorption capacity and HER activity of palladium.

71 We observed a notable increase in the water absorption capacity but decreased capacity for oil absor

72 mented LFs showed decreased (p < 0.05) water absorption capacity but increased swelling capacity.

73 Photon absorption causes the chromophore to isomerize from the

74 filtered under seawater, we derived optimal absorption characteristics for efficient solar power con

75 s leading to catalytic activity, i.e., light absorption, charge separation, transfer of charges to th

76 earch suggests that pheomelanin has a better absorption coefficient for X-rays than eumelanin.

77 mum ring-down time of 159.4 ns and a minimum absorption coefficient of alpha(min) = 1.67 x 10(-6) cm(

78 Mass-absorption coefficients for the tea matrix and the criti

79 Results of the absorption column in equilibrium mode revealed that the

80 The features of perfect absorption could be observed because of the localized su

81 eneral WFS scheme, based on coherent perfect absorption (CPA) electromagnetic protocols, by utilizing

82 ength deep into the NIR, both NIR one-photon absorption cross-section and photoisomerization efficien

83 ) laser, IRMPD suffers from the relative low absorption cross-section of peptides and small proteins.

84 Owing to their large absorption cross-sections and high photoluminescence qua

85 ve optomechanically induced transparency and absorption, crucial for a number of applications includi

86 is, single-crystal X-ray diffraction, UV/Vis absorption, cyclic voltammetry (CV), electron paramagnet

87 Butyrate absorption decreased in HS animals (P < 0.05) but increa

88 or rescues ISC and villus aging and nutrient absorption defects.

89 ctrophysiology, improves glucose and peptide absorption, diminishes diarrhea and rescues postnatal su

90 simple capillary electrophoresis-ultraviolet absorption diode array detection (CE-UV-DAD) method to o

91 resulting in higher lutein and beta-carotene absorption, disruption of the food matrix by prior cooki

92 The improved physicochemical and absorption, distribution, metabolism, and excretion (ADM

93 nsequently, thorough investigations of siRNA absorption, distribution, metabolism, and excretion (ADM

94 growth, development, and well-being, but its absorption, distribution, metabolism, and excretion are

95 concentration for in vitro pharmacology and absorption, distribution, metabolism, and excretion test

96 The absorption, distribution, metabolism, elimination, and t

97 emical properties at the point of intestinal absorption due to the changing chemical environments wit

98 (n=2) has a much longer carrier lifetime and absorption edge (580 nm, 2.13 eV) in comparison to DJP(n

99 The material exhibits a sharp optical absorption edge at 2.70 eV and a strong broad orange lig

100 that achieves the balance between a short UV absorption edge, below 190 nm, and a large SHG response,

101 from a fast relaxation time of the saturable absorption effect.

102 The data obtained explain the presence of absorption effects in the determination of P, S, Cl, and

103 of spectroscopic techniques including UV-vis absorption, electron paramagnetic resonance (EPR), and X

104 ooling materials reported possess broad-band absorption/emission covering the whole mid-infrared wave

105 Their collective absorption exceeds the sum of their individual contribut

106 Time-resolved emission and transient absorption experiments revealed that upon excitation, ou

107 The temporal resolution of X-ray transient absorption experiments with this beamline is measured to

108 e produces InAs cores with a first excitonic absorption feature in the range of 700-1400 nm.

109 band, we detect a ubiquitous 3.4-micrometer absorption feature, which we attribute to a mix of organ

110 l aromatic absorption features; however, the absorption features of normal fused sapphyrins are diffe

111 All fused sapphyrins showed typical aromatic absorption features; however, the absorption features of

112 ar edge structure (XANES) and extended X-ray absorption fine structure (EXAFS) spectra.

113 (XANES) spectroscopy, U L(3) extended X-ray absorption fine structure (EXAFS) spectroscopy, and tran

114 uding In K-edge and Ga K-edge extended X-ray absorption fine structure (EXAFS); resonant soft X-ray s

115 isible pump soft X-ray probe near-edge X-ray absorption fine structure (NEXAFS) spectroscopy measurem

116 Extended X-ray absorption fine structure characterization and density f

117 tes, as shown by infrared and extended X-ray absorption fine structure spectra.

118 tion techniques, including synchrotron X-ray absorption, fluorescence, and diffraction methods, suppo

119 with PR, parasitic absorption losses due to absorption from the electrodes are shown to limit practi

120 amin D has a key role in stimulating calcium absorption from the gut and promoting skeletal health, a

121 A detailed analysis of the optical absorption gives access to the value of the zero-field s

122 ollowing steps for future DPT: for the rapid absorption group (acetylsalicylic acid, ibuprofen, ketop

123 of daily therapeutic dose, for the moderate absorption group, every 30 minutes: for diclofenac 5%-15

124 Iron absorption in Arabidopsis root epidermal cells requires

125 t observation of pronounced amplification of absorption in low contrast opals formed by the self-asse

126 rescent probes, and decreased scattering and absorption in mammalian tissues.

127 onsidered an important loss process for CDOM absorption in sunlit natural waters, where it can regula

128 corticoid receptor ablation reduces chloride absorption in the CCD and indirectly reduces principal c

129 irms the occurrence of the direct two-photon absorption in the dots.

130 ng-lifetime radicals result in wide spectral absorption in the range 200-2500 nm.

131 oducts that contribute to the enhanced light absorption in the secondary BrC.

132 tion capacity but decreased capacity for oil absorption in the starch nano-particles.

133 ly strong photo-oxidants with enhanced light absorption in the visible region.

134 fiber, which significantly reduced its water absorption index (p <= 0.05).

135 racteristics, color value, and water and oil absorption indices.

136 with wide-field interferometric detection of absorption-induced sample expansion.

137 Therein, upon proper design, the poor light absorption intrinsically featured by lanthanides is comp

138 rient emptying, slower digestion and leucine absorption kinetics.

139 This enhanced light absorption leads to a remarkably enhanced photoresponse

140 Censuses of the nearby Universe have used absorption line spectroscopy(3,4) to observe the 'invisi

141 unambiguously observable via high-ionization absorption lines in the ultraviolet spectra of backgroun

142 is theoretically possible with PR, parasitic absorption losses due to absorption from the electrodes

143 Here, we combine optical absorption, magnetic circular dichroism and first-princi

144 These reactive dyes exhibit absorption maxima close to 450 nm and emission above 600

145 to the extreme red shift (ca. 80 nm) of the absorption maximum of the carotenoid bound by the CCP2 d

146 Our absorption measurements correspond to the maximum-achiev

147 From absorption measurements, it is shown that the bandgaps o

148 tates is revealed by ultrafast XUV transient absorption measuring iodine 4d core-to-valence transitio

149 gastric content, as well as the intensity of absorption, metabolism and excretion of these pigments.

150 el, a static intestinal model and an ex vivo absorption model (Ussing chambers).

151 , as studied by high energy-resolution X-ray absorption near edge structure (HR-XANES) spectroscopy,

152 approaches undertaken for deciphering X-ray absorption near edge structure (XANES) and extended X-ra

153 olution fluorescence detection (HERFD) X-ray absorption near edge structure (XANES) spectroscopy, U L

154 e consisting of Au/Al(2) O(3) to enhance its absorption near the bandgap edge, the Se(0.32) Te(0.68)

155 les in the PMCs and acquired Ca-L(2,3) X-ray absorption near-edge spectra of these Ca-rich particles.

156 -ray fluorescence microscopy (XRF) and X-ray absorption near-edge structure (XANES) to unravel chemic

157 sion spectroscopy (XES) with Fe K-edge X-ray absorption near-edge structure (XANES), we demonstrate t

158 spectra of 2 and 3 possess intense long wave absorptions near 600 and 650 nm.

159 The deepest 3.4-micrometer absorptions occur on individual boulders.

160 prior pilot study demonstrated the systemic absorption of 4 sunscreen active ingredients; additional

161 studies are needed to determine the systemic absorption of additional active ingredients and how quic

162 through breeding or post-harvest treatments, absorption of carotenoids from biofortified lettuce rema

163 n the modelling of the gastrointestinal (GI) absorption of drugs and in oral drug development.

164 ing and is attributed to an anomalously high absorption of electromagnetic waves in its layered, meta

165 sity due to sonication allowed the efficient absorption of folic acid into the brown rice kernel up t

166 ore tightly regulate fluid influx to control absorption of fungal metabolites, which can be toxic to

167 hormone peptide YY in regulating ion-coupled absorption of glucose and dipeptides.

168 late electromagnetic waves to create perfect absorption of incident electromagnetic energy using rela

169 se in the charge amplification, which is the absorption of ions on a like-charged surface.

170 This approach underestimates true maternal absorption of iron as it does not account for absorbed i

171 The heat flow is induced by localized absorption of laser light by a cluster of single walled

172 n transfer (PET) is a phenomenon whereby the absorption of light by a chemical species provides an en

173 illumination and polarization, differential absorption of light by macular pigments is perceived as

174 The Mtb LAM is quantified in terms of absorption of light passing through the fiber probe usin

175 nto the gastrointestinal tract to aid in the absorption of lipids.

176 rugs and bile salts interact, increasing the absorption of lipophilic drugs, their bioaccessibility p

177 The strong absorption of liquid water in the infrared (IR) molecula

178 Intestinal absorption of phosphate proceeds via an active/transcell

179 shift of 4.2603, identified by detecting its absorption of quasar light.

180 Pharmacokinetic studies revealed rapid absorption of Rh-PPO in plasma with notable accumulation

181 aching of uncured oligomers and uncontrolled absorption of small compounds.

182 l substitution of PBDB-T by PTAA reduces the absorption of the active layer only in the visible regio

183 Thus, the light absorption of the fluorophore does not undermine the pho

184 ification involving ultrasonic treatment and absorption of the folic acid fortificant.

185 ry collisional ionization processes upon the absorption of the incident XFEL radiation.

186 y the wavelength of irradiation based on the absorption of the polymer.

187 It features a differential absorption of unpolarized light depending on the relativ

188 oducts demonstrated a certain degree of skin absorption of UV filters using IVPT, and a formulation r

189 O(3) oxidation in the dark diminishes light absorption of wood tar aerosols, resulting in higher par

190 ameter, which does not support the notion of absorption only into individual nanometer-scale pores bu

191 asurements show as-deposited FAPI films have absorption onsets in the near infra-red with a direct ba

192 ndent on the exact substitution pattern, the absorption onsets of the new materials are shifted towar

193 everse EBL process which can provide optical absorption or extraction efficiency enhancement in semic

194 designed to estimate the likelihood of poor absorption or permeation, noting the impact of poor solu

195 NTSR mechanisms include reduced absorption or translocation and increased sequestration

196 by rituximab, anti-thymocyte globulin (after absorption), or autoantibodies.

197 bioavailabilities resulting from their poor absorption, poor solubility, high first-pass metabolism,

198 n products were tested to determine the skin absorption potential of common UV filters using the IVPT

199 nity, and optical band gap which provides an absorption profile that has specific wavelengths that of

200 The changes in absorption properties of compound 4a in the presence of

201 The poor permeation and absorption properties of the most potent compounds, whic

202 The GRDs exhibit a unique absorption property and 7.7-fold luminescence enhancemen

203 lergic patients appear to demonstrate higher absorption rate, the clinical significance of which warr

204 ins, respectively, based on their amino acid absorption rate.

205 8 MHz, respectively, which leads to specific absorption rates (SARs) 2-3 orders of magnitude lower th

206 sotropic in AB stacking, where excited state absorption related to Exc.

207 concentrations of 0-10 mM exhibited enhanced absorption relative to CaCl(2).

208 mited by insufficient bandwidth or parasitic absorption, resulting in large efficiency losses relativ

209 rinciple of reciprocity between emission and absorption results in non-physical radiative limits for

210 ucture calculations, and ultrafast transient absorption revealed that efficient intersystem crossing

211 caling of electroabsorption and photoinduced absorption signals in transient absorption spectroscopy.

212 also enables the acquisition of local X-ray absorption spectra (XAS) on single particles of the elec

213 by monitoring changes in XRD and UV/Visible absorption spectra across a range of infiltration cycles

214 rfaces, the relationship between the surface absorption spectra and reactivity remains unexplored.

215 However, acquiring vibrational absorption spectra at the single molecule level, a bench

216 The absorption spectra obtained from these measurements agre

217 fts in both fluorescence emission and UV/Vis absorption spectra of a two-fold interpenetrated Hf MOF,

218 We review oxygen K-edge X-ray absorption spectra of both molecules and solids.

219 Absorption spectra of cyanine((+)).Br((-)) salts show a

220 nks to the nature of molecular orbitals, the absorption spectra of organic semiconductors are not con

221 wer conversion efficiency, and the resulting absorption spectra of photosynthetic organisms.

222 UV absorption spectra of the studied polyhydroxy compounds

223 tational calculations provided the predicted absorption spectra of the transients and nice linear cor

224 Transient absorption spectra reveal the carrier migration from low

225 nd gaps, large exciton binding energies, and absorption spectra that are strongly influenced by the i

226 named biliverdin-binding serpins (BBS), have absorption spectra that mimic those of phytochromes and

227 d-dependent phthalocyanine monomer and dimer absorption spectra.

228 s by high-resolution continuum source atomic absorption spectrometry after extraction induced by soli

229 rior to their determinations by flame atomic absorption spectrometry.

230 e levels by slotted quartz tube flame atomic absorption spectrophotometry (SQT-FAAS) after preconcent

231 We have combined X-ray absorption spectroscopic (XAS) fingerprinting and in viv

232 a Si/Al ratio of 15 and 2.6 wt% Cu, by X-ray absorption spectroscopies (XANES and EXAFS) and diffuse

233 tron paramagnetic resonance (EPR), and X-ray absorption spectroscopies (XAS), which together indicate

234 in methanol using steady-state and transient absorption spectroscopies and quantum chemical calculati

235 Here we report Stark and visible absorption spectroscopies that interrogate the FC state

236 n, alongside in situ fluorescence and UV/Vis absorption spectroscopies, measured up to 2.1 GPa in a d

237 on spectroscopy (SEIRAS), in situ soft X-ray absorption spectroscopy (Cu L-edge), and online gas chro

238 l methods such as colorimetric, flame atomic absorption spectroscopy (FAAS), and inductively coupled

239 ugh a combination of grazing incidence X-ray absorption spectroscopy (GIXAS) and X-ray diffraction (G

240 d by using in situ surface-enhanced infrared absorption spectroscopy (SEIRAS), in situ soft X-ray abs

241 During the last decades, X-ray absorption spectroscopy (XAS) has become an indispensabl

242 X-ray absorption spectroscopy (XAS) is a widely used technique

243 ystallography, Mossbauer spectroscopy, X-ray absorption spectroscopy (XAS), variable temperature NMR,

244 py (AC-STEM), UV-vis spectroscopy, and X-ray absorption spectroscopy (XAS).

245 X-ray absorption spectroscopy analyses were then conducted to

246 X-ray absorption spectroscopy analysis discovered that zeroval

247 Using terahertz (THz) absorption spectroscopy and ab initio molecular dynamics

248 Time-resolved absorption spectroscopy and fluorescence correlation spe

249 microscopy, broadband femtosecond transient absorption spectroscopy and near-field scanning optical

250 lectrons/holes, as tested in electrochemical absorption spectroscopy and organic electrochemical tran

251 pectroscopy and X-ray diffraction, and X-ray absorption spectroscopy indicated the proportion of Cd-O

252 es have been demonstrated, both by transient absorption spectroscopy measurements on the femto, pico-

253 X-ray absorption spectroscopy revealed V(V) reduction to V(IV)

254 X-ray absorption spectroscopy showed that >90% of all Pb speci

255 We also used transient absorption spectroscopy to study the best performing sys

256 We use synchrotron X-ray absorption spectroscopy to study the distribution and lo

257 variable-temperature ground-state electronic absorption spectroscopy unambiguously demonstrate that t

258 Complementary experimental (X-ray absorption spectroscopy) and theoretical (Density Functi

259 total reflectance-surface-enhanced infrared absorption spectroscopy) study of a sputtered thin film

260 on), a conclusion further supported by X-ray absorption spectroscopy, (57)Fe Mossbauer studies, and D

261 ng-angle X-ray scattering/diffraction, X-ray absorption spectroscopy, and Raman techniques, we found

262 13)C HSQC, and (1)H-(13)C HMBC spectroscopy, absorption spectroscopy, cyclic voltammetry, and density

263 ty of factors and, using ultrafast transient absorption spectroscopy, elucidate the critical role of

264 Using transient absorption spectroscopy, energy transfer from an iridium

265 combining HP-SANS and HP-ultraviolet/visible absorption spectroscopy, our strategy highlights the cru

266 Using element-specific X-ray absorption spectroscopy, the local coordination environm

267 scattering (SANS) and HP-ultraviolet/visible absorption spectroscopy, we report the specific effects

268 ectrometry, infrared spectroscopy, and X-ray absorption spectroscopy.

269 ar magnetic resonance spectroscopy and X-ray absorption spectroscopy.

270 ive X-ray (EDX) spectroscopy, and UV-Vis-NIR absorption spectroscopy.

271 Fourier-transform infrared (FTIR) and direct absorption spectroscopy.

272 photoinduced absorption signals in transient absorption spectroscopy.

273 e(1)(II)-N(4) sites via in-temperature X-ray absorption spectroscopy.

274 inction was probed via fluorine K-edge X-ray absorption spectroscopy.

275 k on the system chemistry from in situ X-ray absorption spectroscopy.

276 Moreover, we study the electronic absorption spectrum and calculate the rate constant for

277 s determined by the amplitude of the nitrile absorption spectrum at the frequency of the measurement.

278 The absorption spectrum of dG(N2-H)(.) is corroborated by DF

279 trum of benzimidazole (energy donor) and the absorption spectrum of thiadiazole (energy acceptor) pro

280 in the frequency-domain to obtain an optical absorption spectrum.

281 ntial scanning calorimetry along with UV-Vis absorption, steady-state fluorescence, circular dichrois

282 of frustrated total internal reflection and absorption, stretchable DFOSs can distinguish and measur

283 orophyll-a We present an ultrafast transient absorption study of FR-PSII, investigating energy transf

284 When the remaining absorption surface of the intestine cannot absorb enough

285 single-photon counting (TCSPC) and transient absorption (TA) measurements.

286 Yet, they trigger a higher IR absorption, thanks to a larger surface area.

287 vent and substitution effects on their light absorption, thermal half-lives, photostationary states,

288 S and HB both result from differential light absorption through a radial diattenuator, compatible wit

289 40 has the potential to block drug absorption through OATP2B1 inhibition in vivo.

290 0 water molecules flood rhodopsin upon light absorption to form a solvent-swollen active state.

291 that perform functions ranging from nutrient absorption to pathogen sensing and intestinal homeostasi

292 We measured CCD chloride absorption, transepithelial voltage, epithelial sodium c

293 sing a lead solution, where the maximum lead absorption was observed for sample AC-K, with a 90% remo

294 of 0.73 cm(2) V(-1) s(-1) with wide range of absorption wavelength from 300 to 750 nm demonstrating t

295 ll architectures relies essentially on solar absorption well beyond the Lambertian light trapping lim

296 Hepatic TG production and intestinal TG absorption were unchanged in ppHF dams, but systemic lip

297 ry effect of a protein-rich meal on, protein absorption, whole-body protein turnover, and splanchnic

298 provides a reliable measure of the local IR absorption with significantly reduced noise.

299 s well as redistribution within plants after absorption, with no studies on human or environmental ex

300 n does not exhibit the 3-um hydrated mineral absorption (within 2sigma).