ライフサイエンスコーパス: dispersion

1 chemically trigger deaggregation and droplet dispersion.

2 have a singularity in media with hyperbolic dispersion.

3 d, an effect decaying over time due to trail dispersion.

4 etic migration is also the results of Taylor dispersion.

5 gle neutron scattering data of the colloidal dispersion.

6 matching the overall acid composition of the dispersion.

7 rate picture of graphene nanoplatelets (GNP) dispersion.

8 sample size, large log2 fold-change, and low dispersion.

9 sal applicability to systems following known dispersion.

10 le of entrainment to light or clock, and its dispersion.

11 to significantly inhibit parasite egress and dispersion.

12 the optical absorbance of the solvent in the dispersion.

13 ge of higher symmetries to vastly reduce the dispersion.

14 ght to result in waveguides with high normal dispersion.

15 ilar mechanisms for signal amplification and dispersion.

16 ed linear models (GLMs) on both the mean and dispersion.

17 l weight, longer lifetimes, and well-defined dispersions.

18 ons play a significant role in the spin-wave dispersions.

19 fermions (MDFs) with linear energy-momentum dispersion (1, 2) , providing a condensed-matter platfor

20 s evaluated the usefulness of spatiotemporal dispersion, a visually recognizable electric footprint o

21 %, respectively) utilizing sequestration and dispersion abilities in tandem with a 10:1 (oil: NCS; w

22 Remarkably, dispersion along c is limited by the orthogonal Vdpi-H1s

23 determining the polymerization rates and the dispersion among individual polymers.

24 Taylor dispersion analysis (TDA) allows the determination of th

25 Taylor dispersion analysis (TDA) is an absolute method (no cali

26 ), a modified QuEChERS, a matrix solid phase dispersion and a dispersive ethyl acetate extraction wer

27 ed genomic DNA (gDNA) nanosensor, exploiting dispersion and aggregation characteristics of d-AuNPs, i

28 sparsely grafted nanoparticles show distinct dispersion and assembly behaviors within polymer matrice

29 functional annotation as weight in existing dispersion and burden tests can suffer substantial loss

30 structed with summary statistics of existing dispersion and burden tests for sequencing data, therefo

31 inimal loss of power in relation to existing dispersion and burden tests, and under certain circumsta

32 ol, associations that are missed by standard dispersion and burden tests.

33 ) using Carr-Purcell-Meiboom-Gill relaxation dispersion and chemical exchange saturation transfer NMR

34 cluster displays relatively more tangential dispersion and contributes predominantly to nuclei with

35 in-sensitive imaging and neurite orientation dispersion and density imaging for assessing microstruct

36 the first application of neurite orientation dispersion and density imaging in psychosis, we found th

37 usion tensor imaging and neurite orientation dispersion and density imaging to investigate neonatal w

38 neuroimaging study using neurite orientation dispersion and density imaging, a multishell diffusion-w

39 tics was used to compare neurite orientation dispersion and density imaging-driven microstructural me

40 ging modeling technique: neurite orientation dispersion and density imaging.

41 ed method employed only 1g of silica gel for dispersion and elution with 70% ammonium formate aqueous

42 oxidase (GOx), resulting in simultaneous CNT dispersion and facile enzyme immobilization through sequ

43 This approach prevents peak dispersion and facilitates post column processing of chr

44 ing salts in modulating casein hydration and dispersion and gives an indication of the levels of solu

45 attice misfit to achieve maximal precipitate dispersion and high cutting stress (the stress required

46 agnetic apparatus, which facilitates fluidic dispersion and improves the reproducibility of tests per

47 uced Monte Carlo method with the full phonon dispersion and intrinsic lifetimes from first-principles

48 use the Kerr nonlinearity to both compensate dispersion and offset optical loss.

49 ased energy output and performance, enhanced dispersion and oxidation stability, lower activation tem

50 terms that account for both independent over-dispersion and sample non-independence.

51 io, with ultrasonication to enhance particle dispersion and sedimentation to settle out the micromete

52 alling filopodia, or cytonemes, in morphogen dispersion and signalling.

53 mensional electronic bands, each with linear dispersion and the additional Berry phase predicted theo

54 tions showed homogeneous copper nanoparticle dispersion and the presence of significant proportion of

55 observations such as the hourglass magnetic dispersion and the Yamada plot of incommensurability ver

56 omial model, and can efficiently handle over-dispersion and varying total reads.

57 sing 90% of beef and 10% of an aqueous fiber dispersion and were determined for HAA-levels after gril

58 nanoparticles, producing stable nanoparticle dispersions and simultaneously offering a source of oxid

59 2) use of high-boiling-point solvents for QD dispersion, and 3) limitations associated with one-step

60 ading to a scaling of the NMR chemical shift dispersion, and a large portion of the backbone amide gr

61 plementary techniques to evaluate advection, dispersion, and formation of precipitate in a 3D porous

62 procedure was based on a matrix solid phase dispersion approach, the optimization of which employed

63 ynthetic implementations based on structural dispersion are also proposed.

64 ckian transport and saturation-dependency of dispersion are discussed, which highlight the major flaw

65 Ablation at dispersion areas terminated AF in 95% of the 105 patient

66 o avoid the so-called polydispersity effect (dispersion arising from the inevitable differences in mi

67 and duration allows us to map out the energy dispersion as a function of detuning as well as the phas

68 ion regions in gas media, the group-velocity dispersion, as we show in this work, is anomalous at the

69 idazole antibiofilm compounds with a biofilm dispersion assay and identified a small molecule that sp

70 asses reflects the ground state order in the dispersion at lower packing fractions.

71 Emerging Weyl systems, offering similar dispersion at non-zero frequencies, lead to new laws of

72 ogaped and anisotropic Dirac-like electronic dispersion at the border of the Mott transition.

73 Cytoskeletal disruption, which speeds PIP2 dispersion, attenuated potentiation of KCNQ2/3 currents

74 l (C26H34O2) dimers are stabilized by London dispersion attractions between the dimer moieties.

75 s been applied to describing a wide range of dispersion-bound systems, we explore the physical proper

76 ymmetry and a strong deviation from a linear dispersion but remain topologically protected.

77 xible granular and colloidal chains out of a dispersion by combining field-directed assembly and capi

78 ne sheets (po-Gr) with NR to obtain po-Gr-NR dispersion by ultrasonication.

79 redictions from the pair-breaking excitation dispersion calculated based on the BCS gap equation.

80 Our goal was to evaluate the ability of dispersion (CALINE4, AERMOD, R-LINE, and QUIC) and regre

81 such constraints can be lifted and resonator dispersion can be engineered to be anomalous over modera

82 centric racetrack-resonator design where the dispersion can be engineered to be anomalous via resonan

83 hort laser pulses in the regime of anomalous dispersion can be scaled within a broad range of peak po

84 This paper presents a quantitative dispersion characterisation method using non-contact inf

85 mbersome, remains as the 'gold standard' for dispersion characterisation.

86 Tomato juice and paste are special type of dispersions, composed of suspended particles (pulp) disp

87 London dispersion constitutes one of the fundamental interactio

88 d conditions for DNA solid film preparation, dispersion control in the laser cavity and subsequent ch

89 tion of Kohn anomalies in the surface phonon dispersion curves of a 50 nm thick Bi2Te3 film on GaAs,

90 The relaxation dispersion data revealed that apo-thrombin is highly dyn

91 he strong correlation between the relaxation dispersion derived chemical shift differences Deltaomega

92 ablated only regions displaying electrogram dispersion during AF.

93 d be in part preventing starch hydration and dispersion during pasting and thus reduced viscosity.

94 Inclusion of dispersion effects in DFT calculations leads to improved

95 ods (B3LYP, PBEh-3c, TPSS/PWPB95), including dispersion effects.

96 e electron correlation as well as the London dispersion energy in density functional theory is essent

97 d nonlinear crystals, which requires careful dispersion engineering and is usually narrowband.

98 n, holds a great potential for wavefront and dispersion engineering.

99 and broadening caused by electroosmotic flow dispersion (EOFD) and the experimental verification of t

100 stinctive spinon and holon excitations whose dispersions exactly follow the energy-momentum dependenc

101 Conversely, relaxation dispersion experiments of the TSA reveal that it samples

102 n of features based on retention time, FAIMS dispersion field and compensation field (DF and CF), and

103 Our method can realize anomalous dispersion for resonators at almost any wavelength and s

104 tion, and chiral recognition based purely on dispersion forces and weak C-X...pi (X = Cl, Br, I) and

105 London dispersion forces are the weakest interactions between m

106 lectrostatic, solvophobic, and van der Waals dispersion forces did not account for the observed exper

107 Hereby, the dispersion forces do not unlimitedly support the formati

108 Theoretical modeling indicates that strong dispersion forces dominate the interaction between the r

109 polarizable pi radicals leads to attractive dispersion forces in excess of typical dispersion intera

110 le in which the direct observation of London dispersion forces is possible in solution even in the pr

111 ength/structure agree with measurements when dispersion forces, which mediate stabilization by confin

112 nerated by an additional transient anomalous dispersion from gas ionization in the mid-infrared.

113 Large sample size and low dispersion generally make Type-I error rates of all meth

114 c crystal plates that spatially modulate the dispersion, group velocity, and stopband.

115 contaminant concentrations and their global dispersion grows, sustaining links among forests, organi

116 ficance, polymer-grafted nanoparticle (PGNP) dispersions have attracted interest as model systems to

117 smaller than believed and the ballistic pair dispersion holds over much longer distances than expecte

118 proposed method based on the space-frequency dispersion implies the practicability to construct gain-

119 tion from microresonators requires anomalous dispersion, imposing restrictions on materials and reson

120 We demonstrate anomalous dispersion in a 300 nm thick silicon nitride film, suita

121 hen use a general physical model of particle dispersion in a deforming fluid domain to show that tran

122 cal Universe; and second, the large velocity dispersion in high-redshift disks introduces a substanti

123 rheological behavior of a 10 % w/w copolymer dispersion in mineral oil is strongly temperature-depend

124 anoparticles (40 nm) was required for stable dispersion in seawater.

125 the importance of inter- and intramolecular dispersion in solution remains yet to be fully understoo

126 pulses through atmospheric air, probing air dispersion in the 3.6-4.2-mum wavelength range.

127 reduced by pressure as a result of increased dispersion in the ab-plane due to enhanced Vdpi-Oppi-Vdp

128 , suggesting the emergence of the MDF linear dispersion in the AG.

129 l maps of changing local velocity fields and dispersion in the flow cell were generated from MRI, whi

130 Higher orientation dispersion in the left primary motor-somatosensory corte

131 zed in the active layer of the membranes via dispersion in the organic solution used for interfacial

132 60 m in our experiments provide a map of air dispersion in this wavelength range, revealing clear sig

133 white matter lesions, with additional axonal dispersion in white matter lesions.

134 kinase A (PKA) activation, which mediates CD dispersion in xanthophores, phosphorylates Plin6 on cons

135 chemistry method involves the preparation of dispersions in environmentally friendly solvents and avo

136 We show that modal and chromatic dispersions in fiber lasers can be counteracted by stron

137 driven microstructural measures (orientation dispersion index and neurite density index [NDI]) among

138 FA decreased and orientation dispersion index increased with age in patients, but not

139 errant fiber bundle arrangement (orientation dispersion index).

140 raphene nanocomposite and relates alpha to a dispersion index.

141 yer devices and they permit effective sample dispersion, individual layer treatment, and multiplex an

142 The dispersion interaction between the ligand and the substr

143 ginates from the attractive ligand-substrate dispersion interaction.

144 Intermolecular London dispersion interactions between contacting tert-butyl su

145 Strong dispersion interactions between graphene and lipid-tail

146 ctive dispersion forces in excess of typical dispersion interactions of small molecules and helps ove

147 d regime, the additional transient anomalous dispersion introduced by gas ionization would allow phas

148 by the Doppler effect in the sense that the dispersion is enhanced while the gain is further reduced

149 rdiac electrograms exhibiting spatiotemporal dispersion is indicative of AF drivers.

150 Ray recordings demonstrated that electrogram dispersion is mostly recorded in the vicinity of a drive

151 fibre transmission line, where spatial mode dispersion is not present, but the use of such fibres re

152 Strong dispersion is produced in the slits and slow sound condi

153 The ballistic dispersion is universal, yet it has been overlooked so f

154 tive excitation mode has been indicated by a dispersion "kink".

155 Here, we show a new landscape of dispersion kinks.

156 A low dispersion LA-ICPMS setup was employed, providing accele

157 s with their inherently large chemical shift dispersion lies in the use of sparse non-uniform samplin

158 sidebands can be widely tuned by high-order dispersion management, enhancing the ratio of the entang

159 (XDM), Tkatchenko-Scheffler (TS), many-body dispersion (MBD), and random-phase approximation (RPA) a

160 e states have been studied by NMR relaxation dispersion measurements of the methyl groups of the Ile,

161 ere, we use side-chain proton NMR relaxation dispersion measurements, X-ray crystallography, and stru

162 te association of organic molecules with the dispersion medium, obtaining a high index faceted superl

163 rostructure was studied using an ice crystal dispersion method.

164 ys, global meteorological data, a Lagrangian dispersion model and high-performance computational reso

165 rations simulated with a Lagrangian particle dispersion model coupled with a recently completed globa

166 The calculated results of the mathematical dispersion model coupled with PCA-LDA showed high simila

167 Zeppelin, we applied the Lagrangian Particle Dispersion Model FLEXPART and calculated "footprints" th

168 nts was consistent with a single exponential dispersion model having parameters alpha = 1.09 and beta

169 The observation of a simple exponential dispersion model in the data allows for the definition o

170 inimum separation between two points along a dispersion model required to claim they are different ac

171 e-derived biophysical observations, particle dispersion model simulations, genetic population data an

172 Comparisons between observations and a dispersion model, coupled to an anthropogenic emissions

173 Using dispersion modeling, we estimated spatial variability in

174 challenges for spectroscopy of nanomaterial dispersions; most notably the possibility of observing s

175 mination was performed by matrix solid-phase dispersion (MSPD) coupled on-line to solid phase extract

176 ed on ultrasound-assisted matrix solid-phase dispersion (MSPD).

177 are characterized by linear energy-momentum dispersion near band crossing points.

178 R1, R2, (15)N-{(1)H}NOEs, and relaxation dispersion NMR experiments were measured to capture moti

179 is goal, we used a combination of relaxation dispersion NMR spectroscopy and molecular dynamics simul

180 dosis, were investigated by (15)N relaxation dispersion NMR spectroscopy.

181 ls coupling generates significant electronic dispersion normal to the layers.

182 Taking advantage of the (13)C spectral dispersion of (13)C-labeled carbohydrates in isotope-fil

183 ive solvent for liquid phase exfoliation and dispersion of a range of 2D materials including graphene

184 lish the mechanism underlying spatiotemporal dispersion of AF electrograms, the authors conducted rea

185 d 4D data array enables extraction of the 3D dispersion of all bands, all energy isosurfaces, electro

186 It is demonstrated in this work that dispersion of analytes during electrokinetic migration i

187 diated by changes to tissue excitability and dispersion of APD in mutation conditions.

188 of blended agarose and chitosan allows good dispersion of C18, prevents the leaching of C18 during a

189 ng that the hypo-osmotic tension induced the dispersion of caveolin-1 from the caveolae, possibly thr

190 The homogenous doping and anisotropic dispersion of CN nanospheres along the entire NB head na

191 ouples cell deformation to the transport and dispersion of cytoplasmic particles.

192 ch wavelength scaling comes from the conical dispersion of free space at zero frequency.

193 However, dispersion of fusion dates is common and interpretation

194 nd 3-aminobenzoic acid, in the presence of a dispersion of gold nanoparticles, onto a multi-walled ca

195 friendly method by spray coating an aqueous dispersion of graphene oxide/few-layered graphene/deoxyc

196 interactions that favor the exfoliation and dispersion of individual layers in organic media.

197 Here, we report the simple dispersion of intact multi-walled carbon nanotubes (CNTs

198 The lower S/N is attributed to the dispersion of ion current among numerous fragment ion ch

199 sed to investigate the evolution and spatial dispersion of K. pneumoniae in support of hospital infec

200 A dispersion of magnetic microparticles confined at the ai

201 We show that dispersion of oligomers is concomitant with reduced coca

202 A colloidal solution is a homogeneous dispersion of particles or droplets of one phase (solute

203 n begins, alternating between clustering and dispersion of particles.

204 ith a velocity comparable to the flow-driven dispersion of particles.

205 duction (sugarcane and maize), unintentional dispersion of pests, and management practices.

206 Knockout (KO) mice lacking ITSN1 suffer from dispersion of pyramidal neurons and malformation of the

207 gest beta-AR-mediated increase of transmural dispersion of repolarization, which could pose arrhythmo

208 neralized linear models to estimate the over-dispersion of RNA-Seq and ribosome profiling measurement

209 Additionally, we found an increased dispersion of RTs during MW suggesting that attention du

210 Hydrodynamic dispersion of salinity and temperature, and the thermal

211 rgy-dependent momentum structure and twisted dispersion of spin excitations near (pi, pi) are analogo

212 asmonic resonance is well interpreted by the dispersion of surface plasmon excited in the air TiO2 In

213 of the anionic DNA-acpcPNA duplex results in dispersion of the AgNPs as a result of electrostatic rep

214 adsorption of the orthophosphate, causing re-dispersion of the casein-iron complexes.

215 ors are properly designed allowing the rapid dispersion of the class-enzyme D-amino acid oxidase (DAO

216 wo-dimensional (2D) structure, with a linear dispersion of the electronic states at the corners of th

217 at short wavelength due to the strong normal dispersion of the material.

218 x and GO and play a crucial role in the fine dispersion of the MoSx particles, control of planar MoSx

219 As a result, the statistical dispersion of the nanodot molecular occupancy by Fc-PEG

220 ct prevents sintering, which further permits dispersion of the nanoscale intermetallic onto a support

221 ped statistical potentials by extracting the dispersion of the parameters from a database of atomic-r

222 decay is in line with the time-scale of the dispersion of the RecA filament clusters, further emphas

223 axies, to the evolution in size and velocity dispersion of the spheroidal component of galaxies, and

224 Throughout the structural trapping, the dispersion of the wave packet along the reaction coordin

225 cortex in older adults predicted a temporal dispersion of this slow wave-spindle coupling, impairing

226 d stretch transformation and (2) the spatial dispersion of ultrashort optical pulse, which are traced

227 Given the potential dispersion of V. velutina, we conclude that vigilance is

228 The dispersion of various sized molecules, from small peptid

229 Colloidal dispersions of amine bound nanocrystals (CdSe-NH2R') are

230 -phase modulation (SSPM) effect for solution dispersions of black phosphorus (BP).

231 rization of ethylene in water to nanocrystal dispersions of disentangled, ultrahigh-molecular-weight

232 n Function (PDF) analysis in amorphous solid dispersions of lapatinib in hypromellose phthalate (HPMC

233 fluid chiral ferromagnet formed by colloidal dispersions of magnetic nanoplates.

234 ilicon photonic wires with either decreasing dispersion or increasing nonlinearity.

235 nts, deletion/insertion, transposon-mediated dispersion, or possibly by interspecific hybridization.

236 ss achieved here is not only with negligible dispersion over 0.2-0.8 THz, but also has the lowest val

237 01), accompanied by an increased orientation dispersion (P < 0.001 by paired t-test) and lower fracti

238 ous associations from inaccurately estimated dispersion parameters in the negative binomial framework

239 analysis of water-stable aggregate size, dry dispersion particle analysis and scanning electron micro

240 anelle has a characteristic distribution and dispersion pattern in three-dimensional space and that t

241 Similar to conventional Taylor dispersion, peak broadening is more pronounced for parti

242 The dispersion phase can range from dilute droplets to conne

243 near optical effects where polarization mode dispersion (PMD) degrades entanglement.

244 ization caused by spin-coupling augmented by dispersion, polarization, and charge transfer in competi

245 ock copolymer vesicles are prepared via RAFT dispersion polymerization directly in mineral oil.

246 echanical computational studies treat London dispersion poorly, at least for this model system.

247 me broadening of the experimentally observed dispersions provides another measure of the correlation

248 The dispersion quality can affect the physical and thermomec

249 The development of a broadly applicable dispersion quantification method will provide a better u

250 NMR relaxation dispersion (RD) spectroscopy based on a Carr-Purcell-Mei

251 Studies employing NMR relaxation dispersion recently showed that wobble dG.dT and rG.rU m

252 of the first type are possible in the normal dispersion regime, where FWM sidebands can be widely tun

253 Due to pumping in the anomalous dispersion region with two Zero Dispersion Wavelengths (

254 f the condensate due to the curvature of the dispersion relation and the possibility of transfer of e

255 n condensates it is usually assumed that the dispersion relation of polaritons is parabolic in nature

256 may be observed due to the curvature of the dispersion relation.

257 Commonly denominated Dirac cones, these dispersion relations are considered to be their essentia

258 (lambdap approximately lambda0/66), a linear dispersion resulting from the coupling of GPs with the m

259 21 was solved by single-wavelength anomalous dispersion (SAD) using selenomethionine-derivative prote

260 receptor clustering and acetylcholinesterase dispersion seen in the Col13a1-/- mice, pointing to the

261 The results indicate that nanocrystal dispersions solely stabilized by neutral donor ligands a

262 Heterodyne phase-sensitive dispersion spectroscopy (HPSDS) is a very recently propo

263 ry recently proposed technique for molecular dispersion spectroscopy based on tunable lasers that is

264 Molecular dispersion spectroscopy encompasses a group of spectrosc

265 ethane against that in bis(diamantane), and dispersion stabilization in the latter is quantified.

266 ation of l-alpha-phosphatidylcholine aqueous dispersions stabilized by bile salts (BS) under simulate

267 Oxide dispersion strengthened steel is one of the most popular

268 In all of the reported materials, linear dispersion survives only up to a few hundred millielectr

269 at these surface states display a Dirac-type dispersion that is symmetric above and below the Dirac p

270 ar magnetic resonance (NMR)-based relaxation dispersion that the D2 domain of p27(Kip1), a prototypic

271 pear in multiple regions of a tumor owing to dispersion throughout the tumor.

272 tion have been predicted to exhibit a linear dispersion (thus called acoustic plasmons) and a further

273 , revealing analogous momentum structure and dispersion to hole-doped cuprates.

274 single intracardiac injection, with minimal dispersion to other organs and long-term preservation of

275 We interpret this dispersion to reflect cooling of the magma reservoir mar

276 tational study of the contribution of London dispersion to the bond dissociation of proton-bound dime

277 esent the MDSeq, based on the coefficient of dispersion, to provide robust and computationally effici

278 pletion of either TMEM55B or JIP4 results in dispersion toward the cell periphery.

279 The post-dispersion treatment shows an improvement in directional

280 ements have shown an unusually robust linear dispersion (up to [Formula: see text]2 eV) with multiple

281 Creamed emulsion assay incubation time dispersion was 1.7%, 3-fold less than other reported inc

282 lts and glucose were required for formation, dispersion was dependent upon bile salts depletion, and

283 The group velocity dispersion was engineered for efficient, broadband mode-

284 No evidence for apical dispersion was obtained.

285 scription (AUC = 0.62, p=0.03) and intensity dispersion was predictive of the autodegration pathway o

286 he anomalous dispersion region with two Zero Dispersion Wavelengths (ZDWs) and the process of cross p

287 with both poor size distribution and spatial dispersion were stretched into uniformly dispersed and s

288 econstituted in water or CD solution and the dispersions were characterized for their size, polydispe

289 th proniosomal powders and resulted niosomal dispersions were evaluated.

290 The capsule dispersions were stable at pH 2.0-7.0 and after heating

291 being pre-dispersed into a tubular level of dispersions, were used as the starting material and the

292 the combs requires global or local anomalous dispersion which leads to many limitations, such as mate

293 enabled by the unique microcavity polariton dispersion, which has momentum intervals with positive a

294 lt to prepare and stabilize with appropriate dispersion, which in turn severely limits their catalyti

295 mproved consistency and stability in aqueous dispersions, which are finally allowing for expanded com

296 engineered to promote a flattened frequency dispersion with a negative permittivity able to induce m

297 We verify hyperbolic dispersion with numerical simulations that model the met

298 nd several other peaks, which do not exhibit dispersion with the momentum.

299 nge, revealing clear signatures of anomalous dispersion, with anomalous group delays as long as 1.8 p

300 ls produces (40)Ar/(39)Ar dates with reduced dispersion, yet we find a 16-ky range of plateau dates t