ライフサイエンスコーパス: liquid

1 ng scattering within multi-channel Luttinger liquid.

2 freezing the liquid; heating can shrink the liquid.

3 ntially slower in the SILMs than in the bulk liquid.

4 romodecyl)-3-methylimidazolium bromide ionic liquid.

5 ces are extremely repellent to virtually all liquids.

6 s up a new approach to prepare porous carbon liquids.

7 intermolecular forces, and dynamics of ionic liquids.

8 uids, but has not been observed for metallic liquids.

9 y of repeated choices between bundles of two liquids.

10 ructural randomization time of neat BmimNTf2 liquid (870 +/- 20 ps) measured with optical heterodyne-

11 oparticle superlattices were prepared at the liquid-air interface, including several arrangements tha

12 se, and hemicellulose-derived oligomers into liquid alkanes with high efficiency and yield.Bio-oil is

13 isms, developing analytical methods for both liquid and gas phases, and integrating different units t

14 i(3-N-pyrrolpropyl)imidazolium bromine ionic liquid and neuron specific enolase (NSE).

15 x fields and stably levitate a wide range of liquid and solid objects.

16 Water has distinctive liquid and solid properties: It is highly cohesive.

17 r different classes of contaminants for both liquid and solid tea samples.

18 explains both the equilibrium of supercooled liquid and the thermal hysteresis observed in experiment

19 nding, along the long axis, whereas it has a liquid and viscous behavior in the transverse direction.

20 ned, non-spherical evaporating drops of pure liquids and binary mixtures.

21 ework, enabling predictions for a variety of liquids and bubble sizes.

22 ses with strong fluctuations, including spin liquids and spin ices.

23 c polymer can reversibly switch between its "liquid" and "solid" properties in response to the rate o

24 novel active pharmaceutical ingredient-ionic liquid (API-IL) concept, which suggests using traditiona

25 Porous liquids are a newly developed porous material that combi

26 Ionic liquids are composed of equal quantities of positive and

27 n excellent fit for the experimental data of liquid argon, for a range of thermodynamic conditions, a

28 systems-level description of airway surface liquid (ASL) homeostasis could accelerate development of

29 y platform that transitioned in <5min from a liquid at room temperature to a hydrogel at body tempera

30 te to study unconventional superfluids, spin liquids, Berezinskii-Kosterlitz-Thouless phase transitio

31 cterization of EVs which can be employed for liquid biopsy clinically as well as for the study of int

32 This "liquid biopsy" is quicker and more easily repeated than

33 in cancer prognosis offering a non-invasive "liquid biopsy".

34 nd other diseases, diagnostics using in vivo liquid biopsy, and drug delivery methods.

35 ure induced transition is known for covalent liquids, but has not been observed for metallic liquids.

36 d for non-enzymatic glucose sensing in ionic liquids by cyclic voltammetry and chronoamperometry.

37 ron-scale droplets isolated by an immiscible liquid can provide miniaturised reaction vessels which c

38 Here, we employ in situ liquid-cell transmission electron microscopy (LCTEM) to

39 Three different liquid chromatographic columns were designed and 3D prin

40 Here, we used liquid chromatographic tandem mass spectrometry to map p

41 The hydrophilic interaction liquid chromatography (HILIC) coupled to a negative-ion

42 High performance liquid chromatography (HPLC) was employed for the measur

43 nts, and indirectly through high-performance liquid chromatography (HPLC)-fluorescence detection of B

44 s measured as plasma PLP by high-performance liquid chromatography (HPLC).

45 measured by immobilized artificial membrane liquid chromatography (IAM-LC) and by micellar liquid ch

46 port on the online coupling of FcRn affinity liquid chromatography (LC) with electrospray ionization

47 creased demand for universal methods such as liquid chromatography (LC)-mass spectrometry (MS) for th

48 ample preparation and compound separation by liquid chromatography (LC).

49 quid chromatography (IAM-LC) and by micellar liquid chromatography (MLC) employing sodium dodecyl sul

50 an analytical method using ultra performance liquid chromatography (UPLC)/negative electrospray ioniz

51 Ultra-Performance Liquid Chromatography analyses indicate that MLG in brow

52 mobility spectrometry (FAIMS) combined with liquid chromatography and mass spectrometry (LC-FAIMS-MS

53 eeks 4 and 12 using a commercially available liquid chromatography and tandem mass spectrometry assay

54 omparable to reversed-phase high performance liquid chromatography chosen as reference method.

55 Using liquid chromatography coupled to high-resolution accurat

56 specific method using ultra-high performance liquid chromatography coupled to tandem mass spectrometr

57 biodistribution of EDHB were analyzed using liquid chromatography coupled to tandem mass spectrometr

58 ocalibrated by their (14)C-isotopologues via liquid chromatography coupled with radioactivity detecti

59 eved, using optimized solvent extraction and liquid chromatography coupled with tandem mass spectrome

60 s were extracted three times and analyzed by liquid chromatography high resolution mass or time-of-fl

61 necarboxylic acid (3-QCA), was identified by liquid chromatography high resolution tandem mass spectr

62 We analyzed samples by ultraperformance liquid chromatography ion mobility-mass spectrometry.

63 Resonance spectroscopy and Ultra-Performance Liquid Chromatography Mass Spectrometry.

64 A rapid high-performance liquid chromatography method with a C18 reverse-phase fu

65 ation and comparison with the results of the liquid chromatography method, where a linear correlation

66 examined samples using the ultra-performance liquid chromatography photodiode detector-quadrupole/tim

67 ate with 4-HBZA followed by high-performance liquid chromatography purification.

68 bridged hybrid phenyl ultra-high-performance liquid chromatography stationary phase allowed fast sepa

69 lm solid phase microextraction (TF-SPME) and liquid chromatography tandem mass spectrometry (LC-MS/MS

70 Liquid chromatography tandem mass spectrometry (LC-MS/MS

71 extraction coupled to ultra-high-performance liquid chromatography tandem mass spectrometry (MAE-SPE-

72 Analysis by liquid chromatography tandem mass spectrometry identifie

73 esticides was conducted via high performance liquid chromatography with diode-array detection (HPLC-D

74 or peptide mapping is based on reverse phase liquid chromatography with mass spectrometry.

75 traction (DLLME) coupled to high performance liquid chromatography with ultraviolet detector (HPLC-UV

76 Extracted components were separated by liquid chromatography, whereby the selected ethylene-bri

77 High performance liquid chromatography-diode array detection- tandem mass

78 ion of gas chromatography-mass spectrometry, liquid chromatography-fluorescence, and mass spectrometr

79 Using a suspect screening workflow based on liquid chromatography-high resolution (Orbitrap) mass sp

80 o extract and analyze isotopic patterns from liquid chromatography-mass spectrometry (LC-MS) and gas

81 d solid-phase extraction (MISPE) followed by liquid chromatography-mass spectrometry (LC-MS) for biom

82 enriched PAHSAs enabled the development of a liquid chromatography-mass spectrometry (LC-MS) method t

83 In spite of the liquid chromatography-mass spectrometry (LC-MS)-based de

84 this study, we used low- and high-resolution liquid chromatography-mass spectrometry (LC/MS) techniqu

85 first time a metabolomics approach based on liquid chromatography-mass spectrometry for revealing su

86 files were analyzed by ultrahigh-performance liquid chromatography-mass spectrometry over a period of

87 tablish that BONCAT can be coupled to tandem liquid chromatography-mass spectrometry to identify and

88 Samples were analyzed using liquid chromatography-mass spectrometry-based metabolomi

89 ity and compare well to results from NMR and liquid chromatography-mass spectrometry.

90 by partial resistance to restriction and by liquid chromatography-mass spectrometry.

91 tensin analysis was performed using a unique liquid chromatography-mass spectrometry/mass spectroscop

92 lactolipid measurements were performed using liquid chromatography-multiple reaction monitoring/mass

93 children with the use of an ultraperformance liquid chromatography-photodiode array.

94 Samples were analyzed by means of liquid chromatography-quadrupole time-of-flight mass spe

95 rate mass measurement using ultraperformance liquid chromatography-quadrupole-time-of-flight-mass spe

96 ble pesticides; (ii) hydrophilic interaction liquid chromatography-tandem mass spectrometry (HILIC-MS

97 entic water, we developed a high-performance liquid chromatography-tandem mass spectrometry (HPLC-MS/

98 were digested with trypsin and analyzed with liquid chromatography-tandem mass spectrometry (LC-MS/MS

99 lly used to calibrate (13)C6-metabolites via liquid chromatography-tandem mass spectrometry (LC-MS/MS

100 Sensitive liquid chromatography-tandem mass spectrometry (LC-MS/MS

101 eatures or known activity were identified by liquid chromatography-tandem mass spectrometry (LC-MS/MS

102 chromatography-mass spectrometry (GC-MS) and liquid chromatography-tandem mass spectrometry (LC-MS/MS

103 polar pesticides, and; (iii) reversed-phase liquid chromatography-tandem mass spectrometry (UHPLC-MS

104 Liquid chromatography-tandem mass spectrometry analysis

105 -dimensional gel electrophoresis followed by liquid chromatography-tandem mass spectrometry, in order

106 ing state for metabolomics analysis by using liquid chromatography-tandem mass spectrometry.

107 18)F-FCP was verified using high-performance liquid chromatography.

108 ma of a rhesus monkey using high-performance liquid chromatography.

109 h 80% (v/v) aqueous methanol and purified by liquid chromatography.

110 rometry, and nonvolatile organic analysis by liquid chromatography/mass spectrometry.

111 y available fluorometric-enzymatic assay and liquid chromatography/mass spectrometry.

112 tures of these glycans were revealed through liquid chromatography/tandem mass spectrometry (LC/MS-MS

113 ovide a set of quantitative high-performance liquid-chromatography (HPLC) approaches to determine CSF

114 Untargeted liquid-chromatography-mass spectrometry (LC-MS)-based me

115 hatidylcholine were measured with the use of liquid-chromatography-stable-isotope dilution-multiple-r

116 ations that involve the use of both gas- and liquid-chromatography.

117 a 100 times lower release rate compared with liquid cis-1,3-dichloropropene under the same test condi

118 c domains are organized into phase-separated liquid compartments.

119 eins to create a stable and highly energetic liquid composed of aluminium nanoparticles and ferritin

120 ning challenges, particularly the ability of liquid condensates to both facilitate and respond to bio

121 ple, three-dimensional (3D) printing, of all-liquid constructs.

122 -effective optofluidic platform, integrating liquid-core PDMS waveguides, that allows the accurate me

123 A multi-layer liquid crystal (LC) spatial light modulator offers a lar

124 es with built-in laser target projection and liquid crystal display shutters for alternate occlusion

125 delivery strategy based on a supramolecular liquid crystal formed by peptide amphiphiles (PAs) that

126 ed for the first time to reconstruct the air-liquid crystal interface of a nematic material, namely,

127 li, which can even be used to manipulate the liquid crystal organisation in time.

128 such as scars, pleats, folds, blisters, and liquid crystal ripples.

129 Being a liquid crystal, the host material can be ordered at many

130 lasticity at the interface of beads with the liquid crystal.

131 In contrast, the liquid-crystal phase in supercooled n-butanol is found t

132 P and (2)H solid-state NMR spectra show that liquid crystalline 1,2-dimyristoyl-sn-glycero-3-phosphoc

133 Above and below the lipid gel-liquid crystalline temperature, partitioning is exotherm

134 ned from a mixed state to a coexistence of a liquid-crystalline and a gel, or a liquid-ordered and a

135 to the novel materials presented herein its liquid-crystalline behaviour is rather different, indica

136 nthophyll esters, prevailing in a presumably liquid-crystalline state within the nano-scaled chromopl

137 Properties unique to liquid crystals likely enable long-range signal transduc

138 The amorphous blue phase III of cholesteric liquid crystals, also known as the "blue fog," are among

139 imensional orientation fields in cholesteric liquid crystals.

140 an drive uniform motion of baby skyrmions in liquid crystals.

141 cts in molecular orientation widely found in liquid crystals.

142 terpart which can be realized as a defect in liquid crystals.

143 for controlled deformation and patterning of liquid crystals.

144 s is poorly understood, and, unlike that for liquid culture, there is not a standard broadly used mat

145 However, it has been shown that liquid-culture-grown Arabidopsis can take up and store p

146 us cubic structure by amphiphilic poly(ionic liquid) diblock copolymers, poly(acrylic acid)-block-pol

147 (NASH) by feeding a high polyunsaturated fat liquid diet to female glutathione-S-transferase 4-4 (Gst

148 4(-/-)/Ppara(-/-) double-knockout (dKO) mice liquid diets containing corn oil resulted in a percentag

149 the different lipid membranes (DOPC for the liquid disordered phase and DPPC for the gel phase), and

150 talline and a gel, or a liquid-ordered and a liquid-disordered phase.

151 lvent evaporation of wetting and non-wetting liquids dispersed in the sponge.

152 Moreover, regarding a liquid droplet on hydrophobic or superhydrophobic surfac

153 These data reveal a liquid droplet phase of actin, demixed from the surround

154 Liquid droplets dispensed on two juxtaposed branches are

155 formation of germ granules to coalesce into liquid droplets.

156 first developed to determine conditions for liquid drops to start moving away from the corner of two

157 ity, and identify chemical products at solid-liquid electrochemical interfaces.

158 olar and wind power by storing the energy in liquid electrolytes.

159 treatment plants, (iv) long-term gaseous and liquid emissions from landfills, (v) waste being recycle

160 urine spot workup by conjugate cleavage and liquid extraction (DUSglucE).

161 ed to investigate the effects of pressurized liquid extraction (PLE) parameters on the recovery of ph

162 he autosampler system for spatially resolved liquid extraction surface sampling exemplified by the an

163 th the quantitative application of ED-XRF to liquid extracts coming from samples belonging to cultura

164 s than 6 min whereas the equivalent marketed liquid filled nifedipine capsule took 3 times longer to

165 itative analysis of aroma-active terpenes in liquid food matrices.

166 While foraging in liquid food, larvae are observed to align themselves and

167 high moisture foods (aw approximately 1) and liquid foods (aw approximately 1).

168 edicting the ethanol concentration in cooked liquid foods.

169 Wettability is the affinity of a liquid for a solid surface.

170 We introduce an open-source software, LIQUID, for semi-automated processing and visualization

171 the investigation of water in its metastable liquid form.

172 has this study-investigated mucoadhesion of liquid formulations in the oral cavity but it is also th

173 saccharides with predominant xylotriose into liquid fraction which expressed 1.03+/-0.01 (mumolAAE/g)

174 ion of CO2 to ethanol, a clean and renewable liquid fuel with high heating value, is an attractive st

175 ases or states of matter (for instance solid/liquid/gas phases) have different symmetries, the phase

176 simultaneously exploits the pH dependency of liquid-gated graphene-based transistors and the change i

177 insulator transition induced in VO2 by ionic liquid gating is due to oxygen vacancy formation rather

178 controllable formation of the 2DEG via ionic liquid gating, thereby forming a nonvolatile switch.

179 Structured liquids, generated by the interfacial formation, assembl

180 Liquid-handling robots have many applications for biotec

181 can melt the solid rather than freezing the liquid; heating can shrink the liquid.

182 not support analytical tools with customized liquid holding geometries, specifically paper-based micr

183 The neat ionic liquid (IL) [C2mim][OAc] is not just capable of dissolvi

184 he incorporation of different kinds of ionic liquid (IL) can increase the electrode sensing current t

185 ecyl)phosphonium decanoate phosphonium ionic liquid (IL) was applied for the extraction of Se(IV)-amm

186 Ionic liquids (ILs) have recently been developed as a novel cl

187 n defined as "Ioliomics", studies of ions in liquids in modern chemistry, biology, and medicine.

188 hinders the widespread application of ionic liquids in technological applications.

189 particles, behaving as "billiard balls" in a liquid, in analogy with regular packings of macroscopic

190 The analytical method applied was direct liquid injection into an atmospheric pressure chemical i

191 septal epithelial cells were grown at an air-liquid interface (ALI) and subjected to light mechanical

192 , and function of TJs were determined in air-liquid interface (ALI) cultures of control and asthmatic

193 In human airway epithelium air-liquid interface (HAE-ALI) cultures, HBoV1 infection ini

194 Air-liquid interface cultures of primary nasal epithelial ce

195 les move either away from or towards the gas-liquid interface depending on their surface charge.

196 ay epithelial cells (BEAS-2B) through an air-liquid interface exposure.

197 l organization of the molecules at the solid/liquid interface was investigated by means of scanning t

198 e the liquid-vapor interface meets the solid-liquid interface.

199 ry epithelial cells (EREC), grown at the air-liquid interface.

200 Ion exchange at charged solid-liquid interfaces is central to a broad range of chemica

201 tanding remain regarding freezing near vapor-liquid interfaces, with earlier experimental studies bei

202 ous phase transition between two supercooled liquids, involving a change in the packing of atomic clu

203 To this liquid is added the third polymer component, which repre

204 ns used in this new approach are relevant to liquid laundry formulations, whereby enzymes require pro

205 glassy states of high- (HDL) and low-density liquid (LDL) in the metastable part of the phase diagram

206 e of a new class of concentrated metal-amine liquid, Li-NH3 -MeNH2 , is presented in which the mixed

207 e the continuum equations governing viscous, liquid-like granular flow.

208 ontrol the organization and dynamics of such liquid-like organelles.

209 temperatures that demarcate the passage from liquid-like to solid-like consistency at subzero tempera

210 tion of water clusters from "solid-like" to "liquid-like" structures.

211 uces a novel methodology based on dispersive liquid-liquid microextraction (DLLME) coupled to high pe

212 A highly sensitive vortex assisted liquid-liquid microextraction (VA-LLME) method was devel

213 Liquid-liquid phase separation (LLPS) of RNA-binding pro

214 from reactor coils, syringes, pumps, in-line liquid-liquid separators, drying columns, back-pressure

215 possibility of linking polyamorphism with a liquid-liquid transition that could take place in the no

216 d CNC-surfactants, are formed rapidly at the liquid/liquid interface, assemble into a monolayer, and,

217 jamming of nanoparticle (NP)-surfactants at liquid/liquid interfaces, maintain all the desirable cha

218 as highest in shallow-fried potatoes with PS liquid margarine (64.44mg per portion food plus residual

219 iwalled carbon nanotube and conducting ionic liquid matrix to achieve high sensitivity (2.4 +/- 0.24

220 n an entrapped TPE molecule is released to a liquid medium due to the dissolution of the nanocrystal,

221 central phase and is encompassed by two free liquid membranes (FLMs) and two extraction solutions.

222 reate a liquid metal marble that comprises a liquid metal core and a solid metal shell, whereby the m

223 achieved at a macrosized droplet to create a liquid metal marble that comprises a liquid metal core a

224 ombines soft silicone elastomer printing and liquid metal processing on a single high-precision 3D st

225 However, current liquid-metal-based strain sensors are incapable of resol

226 Liquid metallic hydrogen (LMH) is the most abundant form

227 Liquid metals are compelling materials for these applica

228 In contrast to Hg, liquid metals based on gallium have low toxicity and ess

229 Liquid-microjunction surface sampling (LMJ-SS) is an amb

230 Compound 2 is only stable at cryogenic (liquid N2) temperatures, and frozen solutions as well as

231 of processing (freezing at -196 degrees C in liquid N2, FN sample; freeze-drying at -50 degrees C and

232 and find a stable photo-induced chiral spin liquid near the equilibrium state.

233 lease of the required hydrogen from a stable liquid offering one way of ensuring its safe storage and

234 most importance to explain their behavior in liquid oil structuring.

235 efined incident FI as a report of at least 1 liquid or solid FI episode per month during 4 years of f

236 Many bacteria swim through liquids or crawl on surfaces by rotating long appendages

237 h exhibit ion mobilities as high as those in liquids or molten salts, have been employed as solid-sta

238 ence of a liquid-crystalline and a gel, or a liquid-ordered and a liquid-disordered phase.

239 revealed SM and Chol driven micrometer-sized liquid-ordered domains.

240 -driven, advective transport of the combined liquid over the third wettable track.

241 uide, allowing accurate, frequency-dependent liquid parameters to be extracted.

242 n averaged measurement through the solid and liquid parts.

243 esulting dry matter was extracted with solid-liquid percolation equipment using non-toxic and eco-fri

244 We propose that a dense liquid phase (containing 4-7 H2O per CaCO3 unit) forms i

245 with key advantages over strategies based on liquid phase (fusion) sintering that requires both oxide

246 ed on these rigid features, for both gas and liquid phase applications.

247 These species remain stable in the liquid phase at room temperature but convert to gels upo

248 useful technological tool for the control of liquid phase deposition of 2D materials.

249 us feedstock solutions using electrochemical liquid phase epitaxy (ec-LPE) at low temperatures (T </=

250 Here we demonstrate a liquid phase of actin filaments in the presence of the p

251 lt suggests that pressure causes a liquid-to-liquid phase transition in this metallic alloy supercool

252 rate constants, and VTST in the solid phase, liquid phase, and enzymes.

253 amorphous nanoclusters within the metal-rich liquid phase, followed by crystallization of these amorp

254 ttachment kinetics of atomic clusters in the liquid phase, melting is instead barrier-less and limite

255 ectrolyte, solid catalyst, and gas-phase and liquid-phase reactants and products.

256 a variety of structures that are soluble in liquid phases and therefore amenable to homogeneous cata

257 composition into solute-rich and solute-poor liquid phases, nucleation of amorphous nanoclusters with

258 itions where they exhibit coexistence of two liquid phases.

259 Hall scattering rates, which is a non-Fermi liquid phenomenon known as lifetime separation.

260 chemical composition of the polymeric ionic liquid (PIL) and a polyacrylate (PA) SPME sorbent coatin

261 ritical carbon dioxide (SFE-CO2) pressurised liquid (PLE) and enzyme-assisted extractions (EAE).

262 anomalies-water's solid (ice) floats on its liquid; pressure can melt the solid rather than freezing

263 n conditions were 24% ethanol, 1:40 solid-to-liquid ratio and 29 degrees C (P<0.0001).

264 Nanoscale protein ionic liquids represent multifunctional solvent systems that a

265 to 1000 nm by measuring the capillary-driven liquid rise.

266 ication of 5microg.kg(-1) for both solid and liquid samples was achieved, except for unprepared infan

267 vices devoted to the detection of gaseous or liquid samples, according to the corresponding transduct

268 e channel, leading to reduced airway surface liquid secretion.

269 us combination of horizontal catalytic vapor-liquid-solid growth and vertical facet-selective noncata

270 viscosity of the tissue that diverges at the liquid-solid transition, suggesting the possibility of e

271 e interfaces of transient polymer solids and liquid solutions.

272 using traditional drugs in the form of ionic liquid species.

273 Liquid-state, one-dimension (31)P nuclear magnetic reson

274 scientists have debated whether supercooled liquids stop flowing below a glass transition temperatur

275 the environment of the solvated electron and liquid structure to be precisely interrogated.

276 ng with other features of glass-forming (GF) liquids such as collective atomic motion in the form of

277 (iii) dried spot obtained from deposition of liquid suspensions.

278 In the physical chemistry of polar liquids, systems that evade mean field order have, in co

279 thesized by coupling mitoxantrone with ionic liquid tags, and cytotoxic behavior of the designed conj

280 processes as the most cost-effective gas-to-liquid technologies.

281 For a strong liquid, the activation energy for eta changes little wit

282 , and the development of a topological Fermi-liquid theory beyond the Landau Fermi-liquid theory.

283 Fermi-liquid theory beyond the Landau Fermi-liquid theory.

284 onse surface experiments showed that a 10g/l liquid to solid ratio, 58% acetone, and 12h extraction t

285 nanoarchitectures can be well stabilized in liquids to afford permanent porosity, and thus opens up

286 s associated with frequently needing sips of liquids to facilitate swallowing (75%).

287 This result suggests that pressure causes a liquid-to-liquid phase transition in this metallic alloy

288 The sulfur with solid-liquid two-phase exhibits a reversible capacity of 1,327

289 trated that the biofilm flows like a viscous liquid under high flow velocities applied within millise

290 mL puff of an e-cigarette deposited 0.019% e-liquid (v/v) in a controlled environment.

291 then captured by the contact angle where the liquid-vapor interface meets the solid-liquid interface.

292 oxydiol)-derived SOA (IEPOX SOA) and aerosol liquid water and pH observed during the 2013 Southern Ox

293 low enough to make possible the presence of liquid water on their surfaces.

294 olumn cloud droplet number concentration and liquid water path (LWP), which further leads to a reduct

295 n limited supply compared with the oceans of liquid water.

296 d lethal cellular collapse in the absence of liquid water?

297 etween carbon networks and polymerized ionic liquids, we demonstrate that carbon-based porous nanoarc

298 in all the desirable characteristics of each liquid, while providing a spatially structured framework

299 do not fit well, and small capillary length liquids, whose sessile droplets sag by gravity.

300 the bijel far from the demixing point of the liquids, with interfacial tensions on the order of 20 mN