ライフサイエンスコーパス: coarsen

1 lization of the treatment variable (exposure coarsening).

2 ssing a nonequilibrium liquid from which ice coarsens.

3 a result, the cells evolve and the structure coarsens.

4 -grain orientation spread develops as NPG is coarsened.

5 s of modern theories of diffusion-controlled coarsening.

6 h, the actin cytoskeleton showed only subtle coarsening.

7 clusters lower surface tension and slow down coarsening.

8 and inert forms, can drive faster condensate coarsening.

9 vidence for the realizability of accelerated coarsening.

10 ying reduction in diffusion, which restricts coarsening.

11 o fragment into independent particles during coarsening.

12 lved in foaming, emulsification, and droplet coarsening.

13 lacements-per-atom (dpa) with moderate grain coarsening.

14 n of the AgNPs and inhibited aggregation and coarsening.

15 to 3 also promoted particle aggregation and coarsening.

16 subnetwork that may be utilized for further coarsening.

17 ium, representing a new approach to directed coarsening.

18 fail to reproduce temporally correct network coarsening.

19 sed subgrains, recrystallisation and heavily coarsened Ag(3)Sn.

20 tion of domains is explored for domains that coarsen and for those held apart due to long-range repul

21 te at near-melting temperatures with minimal coarsening and creep deformation.

22 al bonding with the Au NPs and inhibit their coarsening and deactivation.

23 es, dynamically arresting the progression of coarsening and deforming the membrane.

24 in situ TEM to directly observe and study NP coarsening and differentiate Ostwald ripening from coale

25 and provide a possible mechanism for domain coarsening and eventual molecular alignment in monolayer

26 c nature of the transformation including the coarsening and facet regulation process are still poorly

27 The twin coarsening and heterogeneous recrystallization resulted

28 can protect the crystalline particle against coarsening and oil drainage.

29 atio and roughness indicating that nanosheet coarsening and the associated changes in the external (m

30 ial processes, and their geometry, drainage, coarsening, and rupture strongly affect those operations

31 e broad implications for droplet nucleation, coarsening, and size control in chemically driven fluids

32 of individual NC structure and inhibition of coarsening are key, e.g., for avoiding catalyst degradat

33 s are thermodynamically unstable and tend to coarsen at elevated temperatures.

34 s in the high Ni steel persist, and begin to coarsen at long times.

35 but their utility as catalysts is limited by coarsening at high temperatures.

36 oskeletal actin networks exhibit significant coarsening, attendant with decreasing average mechanical

37 leads to differences in both morphology and coarsening behavior of the nanoparticles that we used to

38 with distinct metal-support interactions and coarsening behaviors.

39 sites for boundaries, drastically alters the coarsening behaviour of the system; particularly when co

40 ductivity has a significant influence on the coarsening behaviour of various systems of grains, due t

41 tion there, while those nearby in the matrix coarsen by Ostwald ripening due to the increased atomic

42 at the ability to induce rapid biocondensate coarsening can be advantageous in synthetic-biological c

43 the number of metal atoms that can engage in coarsening can be controlled with this technique, and TE

44 f these topologically complex systems during coarsening can be quantified by measuring the probabilit

45 This dynamic coarsening can be understood heuristically as the result

46 combining both SC- and nucleoplasm-mediated coarsening can explain crossover patterning in wild-type

47 ient to estimate how study participants with coarsened data compare with participants with uncoarsene

48 n this paper, the authors use the rubric of "coarsened data," of which missing and censored data are

49 litate droplets' nucleation but hinder their coarsening due to the coupled motion between droplets an

50 p for modeling how polycrystalline materials coarsen during annealing.

51 ave a large ligament size due to substantial coarsening during dealloying at high temperature.

52 ation, 3D potassium islands with further SEI coarsening during plating/stripping, possibly dead potas

53 Moreover, we show that the wrinkles coarsen dynamically because of the inhibiting effect of

54 t-order phase transition in which late-stage coarsening dynamics are mediated by Brownian coalescence

55 phenomena are always strongly implicated in coarsening dynamics but are, in detailed-balance systems

56 uantum phase transition, but rather a faster coarsening dynamics in an effective two-dimensional XY m

57 t this additional term has modest effects on coarsening dynamics, but alters the static phase diagram

58 Coarsening dynamics, surface tension, and coalescence ki

59 ng on the type of barite used, an additional coarsening effect or a strong formation of oriented aggr

60 e depletion interactions dominate the system coarsening; elastic interactions no longer prevail.

61 Coarsened exact matching (1:k) was employed, resulting i

62 After coarsened exact matching (870 patients in each transport

63 Coarsened exact matching (CEM) is a matching method prop

64 nalyses, propensity score matching (PSM) and coarsened exact matching (CEM) show arguably stronger ca

65 ching (statistically inefficient), 18.2% for coarsened exact matching (high), and 4.8% for OLS (expec

66 To assess between-county variation, we used coarsened exact matching and a simulation-based modellin

67 Coarsened exact matching and propensity score-matching t

68 Confounding was reduced by coarsened exact matching causal inference analysis.

69 Multivariable logistic regression after coarsened exact matching demonstrated an association of

70 Coarsened exact matching identified matching patients be

71 and matched with nonusers of statins using a coarsened exact matching method.

72 Observed confounding was accounted for using coarsened exact matching on baseline characteristics.

73 A coarsened exact matching technique was used to balance t

74 Coarsened exact matching techniques and Poisson regressi

75 Health, we applied conventional methods and coarsened exact matching to assess how cardiometabolic h

76 Coarsened exact matching was used to assess the impact o

77 After whole-cohort regression analysis, coarsened exact matching was used to control for confoun

78 Thereafter, coarsened exact matching was used to match patients with

79 nt assignment based on baseline confounders, coarsened exact matching was used to produce covariate b

80 unadjusted and adjusted logistic regression, coarsened exact matching, and inverse probability weight

81 d inferences from propensity score matching, coarsened exact matching, and unmatched covariate-adjust

82 average-treatment-effect-in-the-treated with coarsened exact matching, we find that individuals with

83 firearm injury patient to MVC patients using Coarsened Exact Matching.

84 tients (13.6%) had any overlap and underwent coarsened exact matching.

85 without clustering for hospital effects, and coarsened exact matching.

86 Both 1:1 propensity-score matched (PSM) and coarsened-exact matched (CEM) analyses were performed to

87 We present coarsening experiments on wet foams, with liquid fractio

88 The rotation angles of coarsened facets are also compared to theoretical predic

89 ith cerebellar atrophy together with ataxia, coarsened facial features and intellectual disability, d

90 the distinctive association of progressively coarsening facial features, relative macrocephaly, and t

91 One key aspect of coarsening following a quench below the critical tempera

92 Distinct from existing models, iHerd's graph coarsening for hierarchical learning allows us to succes

93 consistent with a spinodal process that has coarsened further, yielding broader wavelength white ref

94 s that embody the information contained in a coarsening grain network.

95 n, which is associated with anisotropic twin coarsening, heterogeneous recrystallization, and high st

96 As dunes mature and coarsen, however, their growth trajectories become more

97 dentify the mechanism behind Pt nanoparticle coarsening in an aqueous environment.

98 to the formation of grain boundaries during coarsening in nanoporous metals.

99 Data on coarsening in Ni-Al alloys is examined.

100 e of 1,8-diiodooctane and the rate of domain coarsening in the plasticized film which helps elucidate

101 d then progress within seconds to late stage coarsening in which domains grow via two mechanisms 1),

102 We also discuss modeling of coarsening including diffusion and decay of individual N

103 mulators, which we leverage here to reveal a coarsening-induced breakdown of Kibble-Zurek scaling pre

104 are good model systems for investigations of coarsening-induced structures, because the continuous li

105 r as relatively small assemblies that do not coarsen into a single droplet despite their propensity t

106 Coarsening is a ubiquitous phenomenon that underpins cou

107 olution of ordered domains, we show that the coarsening is driven by the curvature of domain boundari

108 This coarsening is even more pronounced when both reactants a

109 Coarsening is markedly curtailed, and the jammed colloid

110 ain walls, and that domain straightening and coarsening is predominantly driven by the relaxation and

111 Here, a new model of coarsening is presented, involving diffusive transport t

112 Thus, mechanical coarsening is suitable for the PEMFC system.

113 e we report atomic-scale observations on the coarsening kinetics of MGNs at high temperatures by in s

114 Here we show that the coarsening kinetics of NiAl-type precipitates is in exce

115 n-oxidizing bacteria revealed an alternative coarsening mechanism in which adjacent 2- to 3-nanometer

116 ants likely acts through the same underlying coarsening mechanism, differing only in the spatial comp

117 However, the coarsening mechanisms of metallic glass nanoparticles (M

118 rther recovery, although was still abnormal (coarsened microfilaments), especially at 20 and 50 mM pe

119 n content of both synthetic and experimental coarsening microstructures as quantified by both a compu

120 ese results are consistent with an anomalous coarsening model for island growth.

121 zyp1 mutants, which lack an SC, we develop a coarsening model in which crossover precursors globally

122 xplained by a predictive, diffusion-mediated coarsening model, in which large, approximately evenly-s

123 results of the present study reconcile with coarsening models from the Lifshitz-Slyozov-Wagner theor

124 DL performance, and observe that the feature coarsening not only decreases the training time by [Form

125 0 nM that shifts by 1 order of magnitude for coarsened np-Au morphology due to increased target penet

126 Here, we observed universal scaling in the coarsening of a homogeneous two-dimensional Bose gas, wi

127 ction dependence during diffusion-controlled coarsening of a polydisperse assembly of particles have

128 owever, the task of identifying a predictive coarsening of an ecosystem is distinct from the task of

129 Coarsening of an isolated far-from-equilibrium quantum s

130 rve a gradual growth of correlations through coarsening of antiferromagnetically ordered domains(6).

131 omic force microscopy (TM-AFM) can drive the coarsening of Au nanoparticle assemblies on silicon surf

132 The coarsening of crystalline nanoparticles, driven by reduc

133 ity and significantly suppresses the thermal coarsening of dealloyed nanostructure.

134 will strongly influence the condensation and coarsening of drops on soft polymer films, and has poten

135 daughter cracks in striking analogy with the coarsening of finger patterns observed in nonequilibrium

136 and the strong volume-fraction dependence of coarsening of gamma precipitates in an ordered gamma' ma

137 The coarsening of Li2 O2 nanoparticles occurs via both conve

138 g and dealloying process, which involves the coarsening of nanoparticles and consequent facet regulat

139 Grain boundary formation during coarsening of nanoporous gold (NPG) is investigated wher

140 enabled to develop raft microdomains through coarsening of nanorafts.

141 d absence of an effect of volume fraction on coarsening of ordered gamma' (Ni3Al) precipitates in a d

142 Fyn deletion resulted in coarsening of podocyte foot processes and marked attenua

143 support the long-standing debate that if the coarsening of Ptnano from crystal migration and coalesce

144 d representation of tundra heterogeneity and coarsening of spatial scale.

145 Thus, despite coarsening of the actin cytoskeleton and depressed ATP l

146 The coarsening of the amorphous nanoparticles takes place by

147 The growth and coarsening of the eta' precipitates caused rapid depleti

148 modulated by a dynamic interplay between the coarsening of the evolving droplet phase and the interac

149 her tissues, including lymphoid hyperplasia, coarsening of the facies, and increased body fat.

150 protofibrils form large bundles that cause a coarsening of the fibrin network due to an increase in f

151 eal that crystallization occurs prior to the coarsening of the HDL and LDL domains, obscuring the dis

152 urfactant alone did not effectively suppress coarsening of the KTP-rich phase.

153 n each section decreases slightly due to the coarsening of the microstructure from the initial layer

154 moval of the surface hydration layers causes coarsening of the nanoparticles.

155 s of two stages: (I) nucleation, growth, and coarsening of the particles to yield a single particle i

156 s from 7.2% to above 8.7% as a result of the coarsening of the phase domains.

157 This limit is set by the onset of the rapid coarsening of the precipitates and consequent loss of me

158 ory field gives rise to chain formation with coarsening of these chains into long fibers.

159 active droplets and support a model in which coarsening of these droplets via protein translocation a

160 Coarsening of these local features is energetically cost

161 Coarsening of two-phase systems is crucial for the stabi

162 d possible by the rafting (i.e., directional coarsening) of gamma ' particles that facilitates disloc

163 We evaluate the impact of feature coarsening on DL performance, and observe that the featu

164 Mechanical coarsening on the surface of the PMMA results in improve

165 Coarsening or Ostwald ripening occurs in a vast array of

166 cancies between ribbons of endothelial cells coarsening over time.

167 re, during their evolution, facets gradually coarsen owing to the growth competition of daughter crac

168 In the presence of coarsening, performing a sensitivity analysis over a ran

169 We propose a new comprehensive view of the coarsening phenomenon in wet foams.

170 We propose this coarsening process explains many aspects of Arabidopsis

171 Much is known about the coarsening process in two-phase mixtures consisting of a

172 This coarsening process is assisted by thermal annealing and

173 nd a phenomenon akin to Ostwald ripening - a coarsening process seen in many systems that undergo pha

174 nto a global contractile state via an active coarsening process, in contrast to the flow transition d

175 this curvature space that is induced by the coarsening process.

176 2D dislocation loops, implying a continuous coarsening process.

177 o observe intermediate structures as part of coarsening processes that lead to the formation of singl

178 cycles that form through exponentially rapid coarsening processes, depending on the parity of the cyc

179 d decay of individual NCs and unconventional coarsening processes.

180 e saturation concentration, sharply arrested coarsening, rapid mixing, high exchange rate, and resist

181 oxides are likely to slow the morphological coarsening rate by hindering the surface diffusion in th

182 Self climb significantly influences the coarsening rate of defect networks, with important impli

183 The subsequent coarsening rate was primarily surface diffusion controll

184 l, and applicable to many systems undergoing coarsening, regardless of their topology.

185 However, bias risk from exposure coarsening remains even without adjustment.

186 precipitates that has enabled us to develop coarsening resistant high-temperature alloys that are st

187 wavelength regions, growing the structure by coarsening, resulting in a broad distribution of domain

188 Coarsening results in a decrease in the interfacial area

189 there are no pure wurtzite particles in the coarsened samples and that wurtzite only grows on the su

190 correlation times associated with different coarsening scenarios.

191 d that wurtzite only grows on the surface of coarsened sphalerite particles.

192 d first hierarchically generates a series of coarsened sub-graphs in a data-driven manner, representi

193 particular, we develop an efficient feature coarsening technique to extract the most representative

194 ng of the film shows the mechanism of domain coarsening that potentially links to phase transition of

195 We coarsen the data spatially and temporally to find a form

196 s and allowing us to explain at long term by coarsening the formation of cellular structures.

197 gglutination and droplet scavenging, thereby coarsening the grain size distribution.

198 roach for understanding RNA-seq data, but it coarsens the resulting analysis to the level of genes, e

199 rs the colloidal particles; as the interface coarsens, the particles are forced into close contact by

200 erin to map the model onto the Cahn-Hilliard coarsening theory.

201 er AgNPs dissolve and release Ag(+) ions, or coarsen to form large aggregates, is critical in determi

202 ting odd grains, and a transition from grain coarsening to grain self-fragmentation in the dynamical

203 Nanocrystalline ZnS was coarsened under hydrothermal conditions to investigate t

204 sliding and rotation and by inhibiting grain coarsening, under extremely long-term creep conditions.

205 used on meso-scale bigradational sequence (a coarsening upward followed by a fining-upward sequence r

206 Phase-field simulations of coarsening using a computationally generated structure w

207 he free energy of NC ensembles is lowered by coarsening which can involve Ostwald ripening or Smoluch

208 ause bed incision is accompanied by sediment coarsening, which facilitates development of large dunes

209 1.3 mum in KCl-MgCl(2) from 1 to 16 h due to coarsening, while remaining ~ 0.4 mum in KCl-NaCl during

210 es within Group 1 possess almost pure Al and coarsen with overpotential; while those in Group 2 posse