ライフサイエンスコーパス: interfacial tension

1 by the viscocapillary ratio (viscosity over interfacial tension).

2 subtle balance between polymer viscosity and interfacial tension.

3 dsorb on interfaces and lower the surface or interfacial tension.

4 e particles are forced into close contact by interfacial tension.

5 of structure evolution is the aggregate-gel interfacial tension.

6 icity change is likely driven by a change in interfacial tension.

7 olubilization products raising the droplet's interfacial tension.

8 water-oil interfaces by further reducing the interfacial tension.

9 Addition of polysaccharides increased the interfacial tension.

10 ormation of a microemulsion phase with a low interfacial tension.

11 ts in a marked decrease in the liquid-liquid interfacial tension.

12 protein ingredients showed similar oil-water interfacial tension.

13 nolayer at the water-oil interface to reduce interfacial tension.

14 lanine, and tryptophan lowered the water-oil interfacial tension.

15 eous media by electrochemically lowering the interfacial tension.

16 on of state for the bulk free energy and the interfacial tension.

17 peared to correlate with the essential oils' interfacial tension.

18 DFC/FC to become more fluid-like and alters interfacial tension.

19 templating are spherical in geometry due to interfacial tension.

20 om the surrounding solution and dominated by interfacial tension.

21 ta and greater correlation to viscosity than interfacial tension.

22 astomeric film for sensing the effect of the interfacial tension.

23 timates for the pore/liquid and pore/hydrate interfacial tensions.

24 the food industry featuring low surface and interfacial tensions.

25 les) can be actively controlled by adjusting interfacial tensions.

26 liquid-like droplets have some of the lowest interfacial tension (~25 pN/mum) but high zero-shear vis

27 f TC in the oily phase resulted in lower O/W interfacial tension (9.12 mN/m).

28 This material exhibits negligible interfacial tension against silicone-based inks, elimina

29 ellular stress in terms of bulk pressure and interfacial tension, allowing these parameters to vary f

30 a quantitative framework for describing how interfacial tensions among condensates, the membrane, an

31 how that molecular chirality can control the interfacial tension, an important property of multi-comp

32 present a mathematical model for predicting interfacial tension and adsorption at fluid-fluid interf

33 havior, wherein solubilization decreases the interfacial tension and causes droplets to attract.

34 scopy, and an automated drop tensiometer for interfacial tension and elastic modulus determination wi

35 Thus, peptides efficiently reduced oil-water interfacial tension and generated physically stable emul

36 unique synergy is achieved that is driven by interfacial tension and geometry: the adherent rGO under

37 ile methods used to measure surface tension, interfacial tension and interfacial rheological properti

38 Results also showed that the interfacial tension and interfacial uptake of PFAS mixtu

39 te to form stable jets since it has enormous interfacial tension and low viscosity.

40 roteins and peptides that reduce surface and interfacial tension and mediate growth and development a

41 At higher humidity levels, the interfacial tension and subsequently contact angle incre

42 The physicochemical, interfacial tension and surface characteristics of CPI a

43 Interfacial tension and surface pressure of these partic

44 shown to originate in the interplay between interfacial tension and the elasticity of the droplet's

45 s and inform a new approach to the nature of interfacial tension and the impact this has on concepts

46 of the droplets, we systematically vary the interfacial tension and viscosity of the ATPS fluids and

47 ation timescales, consistent with a variable interfacial tension and viscosity.

48 re) of the double emulsion is controlled via interfacial tensions and a methyltrioxorhenium catalyzed

49 Furthermore, we observe that the measured interfacial tensions and bending rigidities span a range

50 transition in multiphase droplets using the interfacial tensions and critical salt concentration as

51 y of the two dimensional cell array to infer interfacial tensions and intracellular pressures.

52 yosin II) activity, which modulates cellular interfacial tensions and is regulated by Rock proteins,

53 ructure, and surfactant concentration on the interfacial tensions and Marangoni flows of solubilizing

54 e (I) produces an interface with mechanical (interfacial tension) and charge transport properties qua

55 h solvent viscosity, a weak correlation with interfacial tension, and a strong correlation with 13C N

56 active properties including surface tension, interfacial tension, and contact angle were measured.

57 tors that distinctly regulate the viscosity, interfacial tension, and maturation of synapsin condensa

58 x moves in response to forces due to growth, interfacial tension, and pressure within each cell.

59 rned by a delicate balance of ion hydration, interfacial tension, and restriction of capillary fluctu

60 ater-soluble content, decreases oil-seawater interfacial tension, and slightly increases density.

61 lipid bilayer tension, spontaneous tension, interfacial tension, and the resistance of cytoskeleton

62 to lower Pc relative to predictions based on interfacial tension, and therefore deviated from capilla

63 er droplets solely depends on the balance of interfacial tensions, and we demonstrate that changes in

64 this study, the intracellular viscosity and interfacial tension are found to directly affect the rol

65 merical simulations, we conclude that tissue interfacial tensions are sufficient to explain cell sort

66 thin a dense fluid by a strong fluid-crystal interfacial tension arising from strong entropic bonding

67 Our experiments show a suppression of interfacial tension as a function of organic content tha

68 as analyzed by monitoring the time-dependent interfacial tension as a function of pH, polymer concent

69 and emulsification behaviour in relation to interfacial tension as modelled using phase-field method

70 ilic nature, which allows them to reduce the interfacial tension at the oil-water interface.

71 ient polar sulfoxide induced decrease of the interfacial tension at the organic-water (O-W) interface

72 luidic technique is the first that forms low interfacial tension ATPS droplets without applying exter

73 lts suggest that the curvature dependence of interfacial tension becomes significant for particles wi

74 the amphiphilic replicator, by lowering the interfacial tension between droplets of the reaction mix

75 use these characterizations to estimate the interfacial tension between endocytic condensates and th

76 ing processes due to their ability to reduce interfacial tension between ink solvents and nanoparticl

77 s demonstrated a significant decrease in the interfacial tension between oil and water with the incre

78 asurements suggest CT is driven by increased interfacial tension between the deep IMZ and the overlyi

79 surfactants are commonly used to reduce the interfacial tension between two immiscible phases to sta

80 itate a decrease in the surface free energy (interfacial tension) between two immiscible phases.

81 At equilibrium interfacial tension both peptides desorb from the interf

82 e a direct method for measuring solid-liquid interfacial tension by using the curved surface of a sol

83 in the emulsion droplets cause a decrease in interfacial tension, causing a decrease in droplet size,

84 s from the interplay between fluidic forces, interfacial tension, channel geometry, and the final sta

85 However, the ultralow interfacial tensions characteristic of all-aqueous inter

86 e, k, water viscosity, mu, and the water/oil interfacial tension coefficient, sigma.

87 6.57 mN/m compared to 38.8 mN/m for SDS) and interfacial tensions comparable with it (9.47-12.18 mN/m

88 The mapping of global interfacial tension coupled with free energy dissipation

89 We validate the model using literature interfacial tension data of air-water and NAPL (non-aque

90 se conformational changes were related to an interfacial tension decrease and to a foaming capacity i

91 se conformational changes were related to an interfacial tension decrease and to a foaming capacity i

92 The interfacial tension decreased from approximately 66.5 mN

93 orks, rather than small particle size or low interfacial tension, determine the stability of PIDF emu

94 ifferent supporting electrolytes, changes in interfacial tension (dgamma), the charge on the electrod

95 The dynamic interfacial tension (DIFT) at oil-water interface, diffu

96 As with surfactants, chiral control of interfacial tension drives the formation of many polymor

97 implication of the adsorption on the dynamic interfacial tension (DST) and emulsion stability.

98 avorable for recovering oil, despite greater interfacial tensions, due to wettability alteration towa

99 This dramatic change in the interfacial tension enables a variety of electrohydrodyn

100 The apparent interfacial tension extracted from the slope agrees with

101 lexes changed from 1:0 to 0:1, the oil-water interfacial tension first decreased and then increased,

102 e impact this has on concepts used to define interfacial tension for a two phase system with material

103 presents measurements of air- and NAPL-water interfacial tension for synthetic groundwater containing

104 t is typically determined by minimization of interfacial tension (for example, during phase separatio

105 ame of the moving rod, it was found that the interfacial tension force scales approximately as SR(2)g

106 ntration gradient, which in turn produces an interfacial tension force that balances the drag force a

107 5-30 um) against coalescence by lowering the interfacial tension from 65 mN/m (i.e., pure CNC mixture

108 e-separated liquids with a poorly understood interfacial tension gamma that determines how FDs intera

109 vident from the growing decay in equilibrium interfacial tension (gamma(eq)) and increased surface ex

110 d with the instantaneous flow velocities and interfacial tension (gamma(LV)) data.

111 lkali metal ion (Li(+)) concentration on the interfacial tension (gamma(SL)) of the charged graphene/

112 Dynamic interfacial tension (gamma) and fluorescence recovery af

113 Interfacial tension (gamma) and fluorescence recovery af

114 en added into the aqueous phase, lowered the interfacial tension (gamma) of A/W and DD/W in a concent

115 hase surrounding a triolein drop lowered the interfacial tension (gamma) of TO/W in a concentration-

116 ths, which enables effective manipulation of interfacial tension (gamma).

117 cally alters the potential dependence of the interfacial tension, gamma, the interfacial excess popul

118 surface between two immiscible phases has an interfacial tension, generating capillary forces that ca

119 t other mechanisms, such as those related to interfacial tension gradients, play at best a minor role

120 eveloping hindgut, based on the differential interfacial tension hypothesis (DITH) linking intercellu

121 The results of the interfacial tension (IFT) analysis demonstrated a signif

122 The role of the interfacial tension (IFT) and wettability in the microfl

123 nd ultrasonic waves (USW) on wettability and interfacial tension (IFT) between fluids and rocks.

124 Interfacial tension (IFT) between surfactants and hydroc

125 The interfacial tension (IFT) between the CO(2) and the surr

126 and nanoparticles and reduced the oil/brine interfacial tension (IFT) from 14.6 to 5.5 mN/m.

127 Interfacial tension (IFT) measurements demonstrated NCs

128 G did not cause an appreciable change in the interfacial tension (IFT) of SSO, indicating that it was

129 Interfacial tension (IFT) studies have shown a decrease

130 city of non-ionic fluorosurfactants with low interfacial tension (IFT) to stabilize fluorocarbon phas

131 lationship between composition and tar-water interfacial tension (IFT), a property of primary importa

132 various experiments including contact angle, interfacial tension (IFT), and micromodel flooding were

133 mproving EOR mechanisms including decreasing interfacial tension (IFT), wettability alteration to wat

134 Tar-aqueous interfacial tensions (IFTs) and contact angles were meas

135 s found to positively correlate with the oil interfacial tension in low-salinity water.

136 number of related issues by calculating the interfacial tension in protein-free lipid droplets, and

137 layer presents a previously unaccounted for interfacial tension in the overall energy landscape of t

138 ropriate emulsifying properties that reduces interfacial tension in the water/oil interface.

139 c device that facilitates the measurement of interfacial tension in two-phase droplet flows, particle

140 thematical modeling indicated that different interfacial tensions in anterior and posterior KV cells

141 Further, interfacial tensions in the used HDL and LDL models are

142 om large to small values as the magnitude of interfacial tension increases.

143 nts in a single device, the coupling between interfacial tension, interfacial retardation, and surfac

144 The time-dependence of the interfacial tension is described as the sum of two expon

145 l pitch, the twist elastic constant, and the interfacial tensions, is derived.

146 el, because of wetting-induced alteration in interfacial tension, its thin wall deflects considerably

147 Interfacial tension kinetics and rheology of adsorbed la

148 icle surfactants at the water-oil interface (interfacial tension <10 mN m(-1), refractive index contr

149 hat the estimated values of the solid-liquid interfacial tension matches with the corresponding solid

150 Both interfacial tension measurements and direct quantificati

151 ith respect to micellisation as derived from interfacial tension measurements and subsequent data fit

152 uccessfully benchmarked against conventional interfacial tension measurements and thermodynamic theor

153 Interfacial tension measurements are used to calculate s

154 Examples of interfacial tension measurements for two- and three-phas

155 The interfacial tension measurements indicated the absence o

156 Equations based on interfacial tension measurements show that concentration

157 Interfacial tension measurements showed that the AR-BSA

158 )) were determined by fitting time-dependent interfacial tension measurements to a sum of two exponen

159 uid diffraction, neutron reflectometry, NMR, interfacial tension measurements, and by computational m

160 From these interfacial tension measurements, the morphology of aged

161 reflectivity and the macroscopic scale with interfacial tension measurements.

162 al adsorption was quantified with NAPL-water interfacial-tension measurements; partitioning into NAPL

163 d in terms of their acidity, zeta potential, interfacial tension, microdispersion propensity, water-s

164 We present a method to control the interfacial tension of a liquid alloy of gallium via ele

165 or bilayers; show that alcohols decrease the interfacial tension of bilayer-water interfaces less eff

166 The interfacial tension of CAB-PPC (21.32 mN/m) was lower th

167 First, the high interfacial tension of droplets facilitates trans cadher

168 core lipids in the surface monolayer and the interfacial tension of droplets resembling HDL particles

169 lts point out that CE molecules decrease the interfacial tension of HDL-like lipid droplets whereas T

170 rse-grained models in the calculation of the interfacial tension of liquid-liquid surfaces and the me

171 iptional activity via decreasing the surface/interfacial tension of nuclear speckle condensates throu

172 nstrate the tuneability of the viscosity and interfacial tension of polyesteramide-based coacervates.

173 iphasic microscale flows are used to measure interfacial tension of reacting methylglyoxal, formaldeh

174 the challenging problems of reproducing the interfacial tension of salt solutions as a function of t

175 MAG significantly decreased the interfacial tension of SSO, due to its strong surface ac

176 The maximum pressures are determined by the interfacial tension of the aqueous solution and organic

177 The B-carotene reduced the interfacial tension of the LCT/MCT-water systems.

178 The beta-carotene reduced the interfacial tension of the LCT/MCT-water systems.

179 in emulsion destabilisation and increase of interfacial tension of the n-tetradecane/water interface

180 We propose that the changes in the interfacial tension of the oil droplets is due to the pa

181 SA complex presented surface activity, since interfacial tension of the water-air interface decreased

182 Solubilized apoB lowered the interfacial tension of TO/W in a concentration-dependent

183 asure the viscous and elastic moduli and the interfacial tensions of four types of droplets.

184 Finally, interfacial tensions of lipoproteins are higher than in

185 irectly characterize the viscoelasticity and interfacial tensions of nucleoli within transcriptionall

186 Comparison with the liquid-vapor interfacial tensions of the model liquids studied here i

187 The interplay of interfacial tensions on droplets results in a range of s

188 from the demixing point of the liquids, with interfacial tensions on the order of 20 mN m(-1).

189 We demonstrate that an interfacial tension-only model is inadequate for describ

190 red for rapid shape change (for example, low interfacial tension or viscosity) provide pathways for r

191 also reveal an unexpected time dependence of interfacial tension over a period of 48 h for ternary so

192 The ability to tune interfacial tension over at least three orders of magnit

193 Interfacial tension plays an important role in governing

194 en evolution rate, gamma is the liquid-vapor interfacial tension, R is the rod radius, mu is the visc

195 transiently at higher fluid velocities, yet interfacial tension rapidly drives jet breakup into drop

196 increases, results in chain-length-dependent interfacial tension reduction with concomitant chain-len

197 We examined the mechanism of interfacial tension reduction with the alkaline-surfacta

198 ressibility modulus follows Traube's rule of interfacial tension reduction, i.e., for each additional

199 are drawn into the aqueous phase, leading to interfacial tension reduction.

200 ased cell segregation wherein differences in interfacial tension, regulated by actomyosin contractili

201 c technique developed in our lab, Sorting by Interfacial Tension (SIFT), to isolate cancer cell subpo

202 canning nanocalorimetry, and measurements of interfacial tension, size, and zeta potential.

203 Because interfacial tension suppresses short-wavelength fluctuat

204 Various emulsion surface properties such as interfacial tension, surface charge, surface chemistry,

205 formulations were less efficient at lowering interfacial tension than PFOA, FPOS, or FOSA substances

206 higher interface coverage, and hence a lower interfacial tension, than nanoparticle surfactants forme

207 es a mechanical equilibrium characterized by interfacial tension that connects the condensed clusters

208 ormers, AMPs share a common ability to lower interfacial tensions that promote membrane transformatio

209 nifest at the tissue level as differences in interfacial tensions that promote mesenchymal aggregatio

210 membrane potential as a result of changes in interfacial tension, the Lippman effect.

211 luid interfaces affords a route by which the interfacial tension, the packing of the copolymers, and

212 The estimates of dynamic interfacial tension under different strengths of the fie

213 ard competition between chain stretching and interfacial tension under the constraint of filling spac

214 ated and Janus configurations by varying the interfacial tensions using hydrocarbon and fluorinated s

215 conjugates was reduced, leading to increased interfacial tension values for LMPC-TA conjugates withou

216 Roasting process significantly decreased the interfacial tension values of samples down to 1.9 mN/m d

217 e convert our area compressibility data into interfacial tension values to: confirm that Traube's rul

218 ing voltage to the liquid metal controls the interfacial tension via a combination of electrochemistr

219 able emergent properties such as interfaces, interfacial tension, viscoelasticity, network structure,

220 The density, interfacial tension, viscosity, and refractive index of

221 Interfacial tension, water content, and droplet size wer

222 let center of mass and creates a gradient of interfacial tension when reaching the droplet-oil interf

223 Interfacial tension which was affected by the solute con

224 ons which favor dissolution typically reduce interfacial tension, whose gradients are well-known to d

225 Exponentially decreasing interfacial tension with increasing beta-lactoglobulin c

226 Lewis base parameter values (gamma-) and low interfacial tension with water (gammaSL) are more effect