ライフサイエンスコーパス: aqueous phase

1 utanol organic phase versus 0.099 day(-1) in aqueous phase).

2 phase into the solid and from the solid into aqueous phase.

3 n nanoparticles from organic solvent into an aqueous phase.

4 rosol following oxidation in the atmospheric aqueous phase.

5 croparticles subsequently re-dispersed in an aqueous phase.

6 rmation of aluminum-sulfate complexes in the aqueous phase.

7 c-enriched phase and an electrolyte-enriched aqueous phase.

8 he formation of radicals in the bulk aerosol aqueous phase.

9 surfactant (Tween 80) were titrated into 80% aqueous phase.

10 rgy for SWCNT colloids in a polymer-modified aqueous phase.

11 s can be generated by changing the pH of the aqueous phase.

12 e materials for scavenging mobile Pu from an aqueous phase.

13 pecies depends on pH-pKa relationship in the aqueous phase.

14 reduced by UO2, with Mn(II) returning to the aqueous phase.

15 st that is capable of producing (1)O2 in the aqueous phase.

16 es are homogeneously distributed in the bulk aqueous phase.

17 as carbons 1, 2, 11, and 12 point toward the aqueous phase.

18 solubilized and reprecipitated Fe/Cr in the aqueous phase.

19 a stoichiometric thiol reducing agent in the aqueous phase.

20 N-acetylcysteine as a reducing agent in the aqueous phase.

21 at TG molecules are more accessible from the aqueous phase.

22 sing the 0.22 mum filters used to define the aqueous phase.

23 ne, defines a route for H(+) transfer to the aqueous phase.

24 n metal ion catalysis (TMI-catalysis) in the aqueous phase.

25 ampering straightforward separation from the aqueous phase.

26 sive VOC uptake within a nonbioavailable non aqueous phase.

27 end-functionalized oligomeric gelator in the aqueous phase.

28 ubbles and/or to the higher viscosity of the aqueous phase.

29 excluded and entered a newly formed, excess aqueous phase.

30 less of the polymersome concentration in the aqueous phase.

31 der photolytic aging by UVA radiation in the aqueous phase.

32 ilic blocks are solvated and extend into the aqueous phase.

33 e partitioning of organic compounds into the aqueous phase.

34 onversion luminescence is as high as 21.3 in aqueous phase.

35 -containing kerosene solution into an acidic aqueous phase.

36 d for organic matter speciation in the cloud aqueous phase.

37 the same order as that of a triple helix in aqueous phase.

38 detector for quantifying the analyte in the aqueous phase.

39 ally impact the chemistry of the atmospheric aqueous phase.

40 ocessing of biomass-burning emissions in the aqueous phase.

41 not hydrophilic enough to transfer into the aqueous phase.

42 on loss electron transfer (SPLET) in gas and aqueous phases.

43 approaching crude oil droplets in different aqueous phases.

44 he solvent of the DAS system consists of two aqueous phases.

45 ic conditions: (1) colloids suspended in the aqueous phase, (2) colloids attached to the glass beads

46 ompared to the same reaction with TCE in the aqueous phase (2e(-) per mole of Fe(0)).

47 e solid ((57)Fe) and from the solid into the aqueous phase ((56)Fe).

48 An aqueous phase additive, ammonium fluoride, was used to i

49 Aqueous phase advanced oxidation processes (AOPs) produc

50 intermediates and byproducts produced during aqueous-phase advanced oxidation processes (AOPs) for va

51 ates and byproducts that are produced during aqueous-phase advanced oxidation processes (AOPs).

52 ce of such inorganic-organic interactions in aqueous phase aerosol chemistry.

53 hemical box model that couples gas-phase and aqueous-phase aerosol chemistry, along with recent labor

54 The composition of the aqueous phase affected the lutein ester incorporation as

55 ange 200-1000 atomic mass units (amu) in the aqueous phase after irradiation but were absent in dark

56 overy and enrichment of LPL classes from the aqueous phase after solvent extraction, a new method for

57 The tropospheric aqueous-phase aging of guaiacol (2-methoxyphenol, GUA),

58 nts such that many basic residues are in the aqueous phase, all three Trp residues adopt interfacial

59 ained with the HP-beta-CD/ANE complex in the aqueous phase and ANE in the organic phase.

60 nstants describing chemical reactions in the aqueous phase and at solid-water interface relies on inv

61 : (1) uncharged species will dominate in the aqueous phase and be subject to degradation and transpor

62 the Rh(I) complex and, therefore, leaves the aqueous phase and becomes a gaseous hyperpolarized molec

63 he shear rates depend on the velocity of the aqueous phase and can be adjusted by varying the input p

64 ns between polyetherdiamine additives in the aqueous phase and carboxylated perfluorocarbon surfactan

65 e processes include simple diffusion via the aqueous phase and facilitated diffusion mediated by scav

66 of well-studied reactions that take place in aqueous phase and for which a comprehensive kinetic anal

67 llonite and kaolinite) reduce Cr(VI) both in aqueous phase and in the presence of dissolved organic c

68 a transmembrane (TM) alpha-helix between the aqueous phase and lipid bilayer underlies the stability

69 partitioning of small molecules between the aqueous phase and nanoparticles; data suggests that inte

70 al a general rule governing CNT behaviors in aqueous phase and provide an extremely simple way to ach

71 pophilic compounds autoxidize rapidly in the aqueous phase and that preferential partitioning of the

72 interface (SWI) partitioned into the mobile aqueous phase and the AWI as the receding water film thi

73 terial, the uptake and desorption times, the aqueous phase and the desorption volumes.

74 pid dispersions were their solubility in the aqueous phase and their crystallization temperature in r

75 es (NPs) can associate with toxicants in the aqueous phase and these associations can influence the e

76 rposes: to concentrate hydrocarbons from the aqueous phase and to exclude water along with other inte

77 he formed oligomers quickly settled from the aqueous phase and were not accumulated on the reaction s

78 the water, whereby Zn uptake occurs via the aqueous phase and/or the ingestion of sediment particles

79 V1 and capsaicin starting from the cytosolic aqueous phase, and capsaicin remained stable in the majo

80 g catalytic hydrothermal gasification of the aqueous phase, and catalytic hydrotreatment of the HTL o

81 ials is crucial for such applications in the aqueous phase, and in particular, for porous matrixes wi

82 se the cell exposure to the chemicals in the aqueous phase, and partitioning into soil organic matter

83 xed by minerals, partition between solid and aqueous phases, and cause toxicity at high concentration

84 indicates that reactions in the atmospheric aqueous phase are important contributors to aerosol form

85 beam aberrations due to the presence of the aqueous phase are small enough not to limit TER signal d

86 ribution of bacterial cells in solid and the aqueous phases as a function of microbial species, growt

87 low temperature and partially "buoy" to the aqueous phase at higher temperature with the thinning of

88 where the assembly phase-separates from the aqueous phase at higher temperatures.

89 e reductive hydrolysis of aromatic ethers in aqueous phase at relatively mild temperatures and pressu

90 hod to measure rate of dechlorination in the aqueous phase at very low PCB concentrations.

91 nd is abundant in both the gas phase and the aqueous phase (atmospheric aerosols, fog, and clouds) in

92 The aqueous phase bacterial lysate was isolated in an array

93 l, diffusion coefficients in the membrane or aqueous phase bear no influence on the peak potentials a

94 nt showed separation of starch in the bottom aqueous phase but is an additional step in extraction.

95 potential of TG is lower in the vicinity of aqueous phase but the free-energy barrier for the transl

96 n-alkanes (C9-C40) from oil slicks into the aqueous phase, but facilitated sorption of more oil comp

97 n, all animals acquired Cs directly from the aqueous phase, but this accounted for only 1.2-2.5% of t

98 ms per liter) by extraction from GVL into an aqueous phase by addition of NaCl or liquid CO2.

99 orption and can be easily separated from the aqueous phase by applying a magnetic field.

100 phase by receptor 3 may be released into the aqueous phase by contacting the loaded nitrobenzene phas

101 detection of three daughter products in the aqueous phase by LC/MS.

102 ate and Ca, K, Na, and Mg were determined in aqueous phase by means of inductively coupled plasma opt

103 n the removal of organic pollutants from the aqueous phase by mesoporous silica.

104 ion of dioxygen was monitored in situ in the aqueous phase by using a Clark-type oxygen sensor.

105 However, the true concentration in the aqueous phase can be substantially different from the no

106 een droplets of the reaction mixture and the aqueous phase, causes them to divide.

107 In the former series, the pH of the aqueous phase changed from basic to acidic during the co

108 ms, and, if metals associate with NPs in the aqueous phase, changes in bioavailability and toxicology

109 nisms that mostly underrepresented important aqueous-phase chemical processes.

110 Herein, we report on a first direct aqueous-phase chemical synthesis route to NIR PLNPs and

111 open the gates to study complex processes in aqueous phase chemistry and the interactions of water wi

112 SOA formation, reaffirming the importance of aqueous phase chemistry in IEPOX SOA production.

113 It is now known that aqueous phase chemistry is important in the formation of

114 ed model studies confirmed the importance of aqueous-phase chemistry for the fate of DMS and its oxid

115 A novel two-aqueous-phase CO2 capture system, namely the dual alkali

116 e irreversible escape of the proton into the aqueous phase competes more effectively with the hydrati

117 dependent on the adsorption time and on the aqueous phase concentration of HEWL.

118 averaged limit of detection of 0.37 mug/mL (aqueous phase concentration).

119 Reductions in PFAA aqueous phase concentrations were also supported by decr

120 Surfactant doses corresponded to aqueous-phase concentrations below the critical micelle

121 Label-free studies carried out under aqueous phase conditions quantify the number of Mg(2+) i

122 oluble dyes in droplets having six different aqueous phase conditions.

123 sorbents, while the bromine leached into the aqueous phase considerably.

124 ning of lanthanides and actinides between an aqueous phase containing a polyaminopolycarboxylate comp

125 The system contains an interface between an aqueous phase containing Au NPs and an oil phase contain

126 As the aqueous phase conversion of glyoxal is of wide interest

127 Nominal concentrations in the aqueous phase corresponding to an effect (or biological

128 xylethyl)phosphine as co-antioxidants in the aqueous phase could regenerate the tellurobistocopherols

129 ions: in Region I, the CO2 solubility in the aqueous phase decreases monotonically in response to inc

130 Mass balance, epimerization, and aqueous-phase degradation (i.e., hydrolysis) were charac

131 ites catalytically active in zeolites during aqueous phase dehydration of alcohols were studied on th

132 ed in the nanopores of zeolite HBEA catalyse aqueous phase dehydration of cyclohexanol at a rate sign

133 fated O-linked glycans were recovered in the aqueous phase, demonstrating the feasibility of in-depth

134 Experiments extracting Rhodanmine B from an aqueous phase (DI water) to an organic phase (1-octanol)

135 ulk thermodynamics and the energetics of the aqueous phase drive cryptomelane formation from birnessi

136 To investigate the importance of aqueous-phase electrophilic substitution of 3-methylcate

137 ed by proton transfer (SET-PT) mechanisms in aqueous phase, employing the Density Functional Theory (

138 ds were more prone to oxidation, whether the aqueous phase encapsulated iron or not.

139 n interface between the nanoparticle and the aqueous phase, enhancing solubility and offering multipl

140 Abiotic fuel-blends/aqueous-phase equilibration experiments revealed that th

141 del was augmented to account for several gas/aqueous-phase equilibria and aqueous-phase processes, in

142 products were determined by analysis of the aqueous phase, equilibrium and reaction path modeling, a

143 cantly promoted by iron encapsulation in the aqueous phase, even at 25 degrees C.

144 due to the rapidness of hIAPP conversion in aqueous phase, exactly which hIAPP species is responsibl

145 the direction of convective flow across the aqueous phase/Fe(III)-oxide microbial mat interface usin

146 erties of the electrical double layer in the aqueous phase film and surface functional groups between

147 oned from the surrounding gas phase into the aqueous phase for detection.

148 rolled delivery this species to the external aqueous phase for local substrate patterning.

149 ntially to the organic phase rather than the aqueous phase for the studied aerosol scenarios, partial

150 of carbon nanotubes (CNTs) in two immiscible aqueous phases formed by the addition of polyethylene gl

151 /6-311++G(d,p) levels of theory in vacuo and aqueous phases) formulated tautomerization for RS-stereo

152 constants to quantum mechanically calculated aqueous phase free energies of activation.

153 ped and compared for the characterization of aqueous phases from pyrolysis of lignocellulosic biomass

154 try indicated that a trimer was the dominant aqueous-phase glutaraldehyde species.

155 d H(+) (HClO4, 0.0001-0.01 M) present in the aqueous phase had negligible effects, but larger quantit

156 Aqueous-phase Heck coupling methodology was developed fo

157 hase-vapour interface compared with the bulk aqueous phase.Heterogeneous oxidation of bromide in atmo

158 ion parameters (e.g., volume of the internal aqueous phase, homogenization time and the percentages o

159 due was predicted to slowly partition to the aqueous phase, implying long-term desorption from contam

160 The 6:2 FtSaAm was depleted from the aqueous phase in all but one soil, which is attributed t

161 (C9-C18) were partitioned in MOS than in the aqueous phase in the presence of the dispersant.

162 Benzene concentration was quantified in the aqueous phase in the presence of the other BTEX compound

163 y contribute to the occurrence of nitrite in aqueous phases in contact with the atmosphere.

164 rmation is used to investigate the effect of aqueous-phase (in clouds and particles) chemical process

165 s in the presence of capsaicin placed in the aqueous phase, in the lipid, or docked to the protein.

166 ration, the solubility of the gas mixture in aqueous phase increases with increasing H(2)S content an

167 The aqueous phase inside the thylakoid known as the thylakoi

168 ing that receptor 1 could extract KF from an aqueous phase into nitrobenzene, overcoming the high hyd

169 nt had occurred in both directions: from the aqueous phase into the solid and from the solid into aqu

170 e falls below a threshold value of 0.04, the aqueous phase is considered colorless, indicating that t

171 lectroactive redox species in the continuous aqueous phase is hindered by a droplet blocking collisio

172 hermodynamic activity of the chemical in the aqueous phase is identical in the presence and absence o

173 Acid-base neutralization reaction in the aqueous phase is thermodynamically favorable and kinetic

174 mation of polar contaminants with DOM in the aqueous phase is thus a disregarded pathway along which

175 The mixing of the organic and aqueous phases is confined under a quasi-2D geometry.

176 t treatment of DMS chemistry in both gas and aqueous phases is essential to improve the accuracy of m

177 In the aqueous phase, LCF self-assembles to form 3D micro/nano

178 e ethanol preferentially partitions into the aqueous phase leading to an internal over-pressure.

179 In the absence of pro-oxidant ions in the aqueous phase, lipid oxidation of the W/O emulsions was

180 by equilibrium speciation of mercury in the aqueous phase (<0.2 mum) and was possibly caused by the

181 oncentrations are consistent with documented aqueous-phase mechanistic relationships leading up to ox

182 n apolar hydrophobic phase (n-decane) and an aqueous phase mimics the biological pathway for lateral

183 Pb concentrations, Pb concentrations in the aqueous phase never amount to more than 0.01% of the tot

184 The concentrations of 70 PFASs in the aqueous phase of anaerobic model landfill reactors fille

185 Moreover, the presence of HP-ss-CD in the aqueous phase of CDL protected them during freeze-drying

186 he evaporation of HgCl(2) particles from the aqueous phase of gypsum slurry in the OUT-FGD gas and th

187 henol extraction with ethyl acetate from the aqueous phase of hydrothermally treated alperujo at 160

188 The non-aqueous phase of sap was studied and a total seven selec

189 ed because the DBPs were concentrated in the aqueous phase of the cheeses.

190 The aqueous phase of the extract underwent direct injection

191 al sensor nanoparticles are dispersed in the aqueous phase of the microfluidic droplets for culturing

192 een the completely immiscible extractant and aqueous phases of the bioreactor.

193 y separate into immiscible but predominantly aqueous phases-offer thermodynamically stable steps in d

194 Relative contributions of aqueous phase .OH, .Cl, .Cl2(-), HOCl/OCl(-), and Cl2 we

195 The effect of an aqueous phase on phenol hydrogenation over Pt and Ni cat

196 nd products, and highlight the challenges of aqueous phase operation and catalyst evaluation, in addi

197 either a fluorescent dye in the encapsulated aqueous phase, or hydroxypyrene in the membrane, rapidly

198 catalysis by hydronium ions is ubiquitous in aqueous-phase organic reactions.

199 ability when deionized water was used as the aqueous phase (original pH); however, at pH=7.5, emulsio

200 Aqueous-phase oxidation of cis-pinonic acid (CPA) by hyd

201 peroxide (Fenton's reaction) and subsequent aqueous-phase oxidation of organic species in solution.

202 We benchmark our reactor using an aqueous-phase oxidation reaction: iron-catalyzed hydroxy

203 Although the decarboxylation of aqueous phase PA through UV excitation has been studied

204 wever, large uncertainties remain in the gas/aqueous-phase partitioning of oxalic acid, MVK, and MACR

205 OC values suggest enhanced solubility in the aqueous phase, perhaps due to dissolved or colloidal org

206 s (i.e. tannins structure and concentration, aqueous phase pH, and ionic strength) were identified an

207 s in water, and disassemble by tuning of the aqueous phase pH.

208 osphere are most likely independent from the aqueous-phase pH.

209 olyoxometalates and usually self-assemble in aqueous-phase, pH-controlled condensation reactions.

210 The aqueous phase photochemistry of a series of amphiphilic

211 We herein report the first instance of aqueous-phase photosensitization of semiconductor photoc

212 s mainly dependent on the fraction of "free" aqueous phase present in the cheese, closely which is li

213 d water may hamper their full utilization in aqueous phase processes, such as those involved in bioma

214 Aqueous-phase processes significantly reduce the yield o

215 for several gas/aqueous-phase equilibria and aqueous-phase processes, including the formation of oxal

216 amples was studied to gain insights into the aqueous-phase processing of organic compounds within clo

217 ueous injection) and 80 mM of nitrate in the aqueous phase produced 16.5 +/- 4.4% of additional ROIP

218 iphase DMS chemistry mechanism, the Chemical Aqueous Phase Radical Mechanism DMS Module 1.0, was deve

219 (LFERs) that predict the rate constants for aqueous phase radical reactions.

220 ed to other environmental processes in which aqueous phase radical-involved reactions occur.

221 ced iron photochemistry scheme, the chemical aqueous-phase radical mechanism (CAPRAM 3.0i) has been u

222 all possible sink reactions with atmospheric aqueous-phase radicals, such as (*)OH, NO3(*), and SO4(*

223 surfaces act as a gateway to absorption and aqueous-phase reaction of gases in the atmosphere.

224 this factor represents OA formed through the aqueous-phase reaction of isoprene epoxydiols.

225 In particular, aqueous phase reactions between small organic molecules

226 of model secondary organic aerosol formed by aqueous phase reactions between the alpha-dicarbonyls gl

227 oethene (TCE) to benign end-products through aqueous phase reactions.

228 t of the relative importance of gas-phase vs aqueous-phase reactions of (*)OH with many atmospheric c

229 and portable PEMFC applications has been on aqueous-phase reforming of methanol (APRM).

230 xidized fatty acid moiety protrudes into the aqueous phase, rendering it accessible for receptor reco

231 resulted in immediate As mobilization to the aqueous phase, reprecipitation of As-iron ferrihydrite,

232 erdiamine additive (Jeffamine ED-900) to the aqueous phase, researchers can avoid synthetic methods i

233 l As was present as As(III) in the solid and aqueous phase, respectively.

234 We also find that the interior aqueous phase reversibly decreases the axial thermal con

235 Here, we report an aqueous phase route to the synthesis of pentacle gold-co

236 A 12 mL aqueous phase sample was heated at 50 degrees C for 10 m

237 Study results show that crayfish and aqueous phase samples collected within the Mega-site had

238 psychoactive cathinones and tryptamines from aqueous phase samples was evaluated.

239 The dominant source minerals for aqueous-phase Se are pyrite and sphalerite.

240 We have examined aqueous-phase secondary organic aerosol (SOA) and organo

241 flux between compartments of the ecosystems (aqueous phase, sediments, biota) when assessing the impa

242 ately from the total emulsion as well as the aqueous phase separated by centrifugation, and quantific

243 ination of alkyl radicals in the atmospheric aqueous phase should hence be treated with great care.

244 lemental analyses (ICP-MS) of both solid and aqueous phases show that precipitation of large masses o

245 WPC-pectin-maltodextrin along with 5% inner aqueous phase showed a high stability and low release of

246 ase than the high emissions case due to more aqueous-phase SO2 oxidation.

247 sulfonyl)imide ([hmim][Tf(2)N]), was used as aqueous phase substituent.

248 c compounds between environmentally relevant aqueous phases, such as seawater or aqueous aerosol, and

249 In the presence of a bulk aqueous phase, supercritical CO2 forms a nonwetting drop

250 The present work builds on an aqueous-phase surface-science approach using four well-d

251 robust methodology for the aggregation-free aqueous-phase synthesis of hierarchically complex metal-

252 x may be not limiting in the highly buffered aqueous phases that are common among environmental MFCs.

253 In the aqueous phase, the metabolome of liver and white muscle

254 Removal of the aqueous phase then results in robust, conductive, porous

255 sforming CH4 to CH3 OH at 50-95 degrees C in aqueous phase through partial oxidation of CH4 with H2 O

256 ow that protons transfer reversibly from the aqueous phase through the graphene to the other side whe

257 e increases the interfacial contact with the aqueous phase to achieve purification of target nucleic

258 lue color is completely transferred from the aqueous phase to the chloroform phase, is proposed as ti

259 nsfer nonvolatile analytes directly from the aqueous phase to the gas phase for mass spectrometric an

260 hway from the electrochemically negative (n) aqueous phase to the n-side quinone binding site of the

261 multaneously trace Fe atom movement from the aqueous phase to the solid ((57)Fe) and from the solid i

262 cence data from shrimp extracts (organic and aqueous phases) to create classification schemes for two

263 Proteins and synthetic polymers that undergo aqueous phase transitions mediate self-assembly in natur

264 nd ketone photoproducts were observed in the aqueous phase under oil exposed to simulated sunlight by

265 ned almost equally between the detergent and aqueous phases upon Triton X-114 phase separation, demon

266 In aqueous phase, uranyl and HA were observed to build clos

267 and the carbon dioxide is separated from the aqueous phase using a gas-permeable membrane.

268 ixtures were also directly visualized in the aqueous phase using a novel enhanced darkfield transmiss

269 is method fullerenes were extracted from the aqueous phase using solid-phase extraction (SPE), with s

270 rophobic magnetic nanoparticles (MNPs) to an aqueous phase using tetrahydrofuran, NaOH and 3,4-dihydr

271 and mechanisms of reactions occurring at the aqueous phase-vapour interface compared with the bulk aq

272 plest n-side proton pathway extends from the aqueous phase via Asp20 and Arg207 (cytochrome b6 subuni

273 he droplets (Ld) is highly correlated to the aqueous-phase viscosity (muaq) at high ratios of aqueous

274 The aqueous phase was collected after irradiation and deriva

275 tics of sodium release from the cheese to an aqueous phase was correlated with the mobility of sodium

276 minoids that partitioned into the micelle in aqueous phase was determined.

277 Thiol consumption in the aqueous phase was monitored and found to be inversely re

278 A transient toxicity in the aqueous phase was observed in the case of the moderately

279 the reaction, while in the latter series the aqueous phase was on the acidic side of the pH scale thr

280 h thick emulsion were observed when the used aqueous phase was re-utilized for another AEE process.

281 The aqueous phase was subjected to anion-exchange and cation

282 ability of PCs to scavenge free radicals in aqueous phase was the conformation.

283 Lutein concentration in the aqueous phase was the most important factor in determini

284 hat equilibrium between CO(2) in the gas and aqueous phases was not attained during carbonation, yet

285 charged colloids initially suspended in the aqueous phase were deposited at the solid-water interfac

286 photoproduct mass spectra observed from the aqueous phase were determined to be consistent with dica

287 Changes in As speciation in the aqueous phase were monitored continuously.

288 hemical speciation of the solid/adsorbed and aqueous phases were dominated by NOM associated thiol co

289 ganic phase compared to Fe(II) oxides in the aqueous phase, which accounted for differences in the TC

290 oxygen atoms in manganite exchange with the aqueous phase, which is close to the estimated surface o

291 processes enhanced Sb mobilization into the aqueous phase, while As was instead repartitioned to a s

292 ptible residues, which are oriented into the aqueous phase, while hydrophobic susceptible residues re

293 glycans were selectively recovered from the aqueous phase, while neutral and sialylated glycans rema

294 y of polymerized carbon nanodots (P-CNDs) in aqueous phase with an enhanced quantum yield of 23.71%,

295 Replacing aqueous phase with more stable and practically nonvolati

296 on extraction of Ni(II) ions from the oil to aqueous phase with N,N'-bis(4-methoxysalicylidene) ethyl

297 us medium, and (4) colloids suspended in the aqueous phase with the presence of a static air bubble.

298 l radicals showed radicals are formed in the aqueous phase with the same rate independent of the lipi

299 dioxide (CO2) dissolution into a continuous aqueous phase with the use of metallic nickel (Ni) nanop

300 a continuous polyethylene glycol (PEG)-rich aqueous phase, with coalescence inhibited by adsorbed ~1