ライフサイエンスコーパス: evaporation

1 me pesticide loss (e.g., due to leaching and evaporation).

2 preventing wetting transition during liquid evaporation.

3 e oxidation product can be easily removed by evaporation.

4 ng transition mechanisms triggered by liquid evaporation.

5 modes, and depinning mechanism during liquid evaporation.

6 of the medium is slowly devoid of water via evaporation.

7 le formation, surface wettability and liquid evaporation.

8 preventing the collapse of pores during DMF evaporation.

9 an open problem in kinetics of fuel droplets evaporation.

10 ells and allow plant uptake of CO2 and water evaporation.

11 nded water molecules, facilitating the water evaporation.

12 nocrystal sedimentation and eventual solvent evaporation.

13 scent polymers by capillarity-driven solvent evaporation.

14 A nanoparticles prepared by emulsion-solvent evaporation.

15 which could indicate a resistance to aerosol evaporation.

16 act on the balance between precipitation and evaporation.

17 tion, infiltration, leachate collection, and evaporation.

18 and overlaying an immiscible liquid prevents evaporation.

19 by reducing cell respiration rate and water evaporation.

20 ropolyanions in their aqueous solutions upon evaporation.

21 ric field induced hydrated ion emission, and evaporation.

22 tween adjacent silver nanorods upon solution evaporation.

23 g between the vapor and liquid phases during evaporation.

24 ing rain, indicating a strong effect of soil evaporation.

25 tals in self-assembly on film during solvent evaporation.

26 upled with increasing mean precipitation and evaporation.

27 ult of the stresses associated with confined evaporation.

28 range of 50 nm to allow field ionization and evaporation.

29 m in width and 30 nm in height after solvent evaporation.

30 for the decrease in droplet size from water evaporation.

31 ock copolymer materials assembled by solvent evaporation.

32 le sheath provides a significant minority of evaporation (15% in darkness and 18% in high light), tha

33 lose small amounts of water to urination and evaporation [2].

34 the basic physics of hydrophobically induced evaporation, a comprehensive understanding of the substr

35 m, MOFLO 2.0, to map the distribution of net evaporation across leaf tissues in relation to anatomy a

36 long with providing such benefits as reduced evaporation and algae growth, it can lower PV operating

37 Explicit expressions for the evaporation and condensation coefficients are defined in

38 with MD simulations can be achieved with the evaporation and condensation coefficients both close to

39 quation (BKE) for mass/heat transfer between evaporation and condensation surfaces are analyzed by co

40 in a gap of many mean free paths between the evaporation and condensation surfaces are obtained and c

41 energy calculations provide the barriers to evaporation and confirm our previous theoretical predict

42 The extracts were concentrated by rotary-evaporation and derivatized; no clean-up was necessary.

43 ion and compensation, and the decreased soil evaporation and E/ET.

44 shrinkage involves a combination of solvent evaporation and ejection of excess charge, primarily hyd

45 on with acidified methanol, concentration by evaporation and filtration of the final extract prior to

46 carbon electrodes (GCE) followed by solvent evaporation and further electrodeposition of RuNPs (50 p

47 structures through processes such as solvent evaporation and interfacial assembly.

48 uman skin, they are capable of slowing water evaporation and keeping the tissue hydrated for extended

49 Due to extremely high rates of evaporation and low precipitation in the Persian Gulf, d

50 The co-crystals were prepared by solvent evaporation and mechanochemical synthesis.

51 ves because low soil moisture decreases both evaporation and plant transpiration and increases local

52 regulated by sea ice through its control on evaporation and precipitation.

53 y solvent extraction/solvent-assisted flavor evaporation and predominant aroma compounds identified b

54 Time-consuming solvent evaporation and reconstitution steps were eliminated suc

55 The growth steps involve the evaporation and reduction of MoO3 solid precursors to su

56 er is resilient because of a balance between evaporation and reinforcement of fluid that permeated ou

57 ontaining droplets shrink in size from water evaporation and remain airborne for many minutes.

58 egligible heating, do not suffer significant evaporation and since the system occupies a small volume

59 offering synergetic high rates in both water evaporation and steam collection, are reported.

60 l phosphate under steady-state conditions of evaporation and stream inflow because calcium is sequest

61 adual self-dislodging of droplets cooled via evaporation and sublimation (low environmental pressure)

62 urface zone influences the kinetics of water evaporation and the surface temperature while drying.

63 orption, the maximum water storage, the soil evaporation and total wind erosion, the amount of sedime

64 t removal, whereas the loss of water through evaporation and transpiration is the most important fact

65 allinity is maintained to the point of field evaporation, and characterization of individual ionizati

66 Phase separation occurs during evaporation, and in the process creates surface tension

67 ls from the hydrocarbons most susceptible to evaporation, and photo-oxidized spills were also matched

68 e gas phase on their surface, driving liquid evaporation, and producing a network structure different

69 Additionally, energy efficiency and water evaporation are not influenced by salt accumulation than

70 ed suggest that SOA yields and enthalpies of evaporation are substantially higher, and products less

71 efined reaction volumes with minimized fluid evaporation as well as highly sensitive thermoelectric s

72 tion of tellurium thin films through thermal evaporation at cryogenic temperatures for fabrication of

73 Lanthanide (Dy + Tb) using electron beam co-evaporation at room temperature.

74 rd convective flow triggered by fast solvent evaporation at the edge of the meniscus ink imparts the

75 nsion-driven transport of vapor mass and the evaporation at the liquid-vapor interface.

76 profile which reflects the hindering of the evaporation at the rim of the droplet by the nonvolatile

77 significant reductions in the precipitation-evaporation balance of the southern tropical Andes with

78 more resistive than their exfoliated and co-evaporation based CVD counterparts, the decrease in resi

79 Evaporation-based solutions are of particular interest f

80 re covered with a skin that not only hinders evaporation but also maintains its rate at a nearly cons

81 The NTMI2 treatment reduced soil evaporation by 9.0-17.3% and the proportion of evaporati

82 ntribution of gravity to the rate of droplet evaporation by utilizing Green's second identity.

83 ium across the liquid-vapor interface during evaporation, can lead to the erroneous predictions from

84 ting composite PCL-rGO films through solvent evaporation casting that were subsequently fed into the

85 Building on previous models of evaporation, Cavusoglu et al. show that the power availa

86 anges in mean and seasonal precipitation and evaporation changes using CMIP5 model future climate pro

87 otentially influencing reaction rates (e.g., evaporation, charge, and size).

88 Water evaporation concerns all land-living organisms, as ambie

89 reactive environment and identify classical evaporation-condensation as the mechanism governing thei

90 nt and sinter Zn nanoparticle facilitated by evaporation-condensation in confined domains.

91 ctors on bioresorbable polymer substrates by evaporation-condensation-mediated laser printing and sin

92 Four HBr solutions were prepared by evaporation/condensation in order to obtain in-house ref

93 arify how kinetics and thermodynamics affect evaporation/condensation process at the surface of fuel

94 ant for studying of multiphase flows such as evaporation/condensation process which doesn't always ob

95 n-alkane droplets is established during the evaporation/condensation process.

96 nergy, bond strength, velocity, gravity, and evaporation/condensation.

97 iotic Earth, generated periodically by water evaporation, could have facilitated nucleic acid replica

98 during atmospheric transport by condensation-evaporation cycles which induce large pH fluctuations.

99 ic composition of the H(2) O at the sites of evaporation ( deltaw-e18 ) and at the site of exchange (

100 (P-HCl) method is simpler, avoiding solvent evaporation, dissolution and partition in a separating f

101 Decelerating the solvent evaporation does not amend the superlattice symmetry, bu

102 Here we observe evaporation-driven aggregation of natural and synthesize

103 Second, we discovered that the evaporation-driven microscopic flow combined with the st

104 de with the anode material being consumed by evaporation due to the arc heating.

105 to the microwells to compensate for limited evaporation during sample incubation.

106 s at the surface of the film formed by their evaporation during the thermal annealing process has bee

107 d miniscale-LLE (msLLE), with automated full evaporation dynamic headspace extraction (FEDHS) was dev

108 thod utilizes the water surface to alter the evaporation dynamics of solution to enlarge the grain si

109 Here we investigate evaporation dynamics, morphology, and deposition pattern

110 s methods to understand how thermal and mass evaporation effects are controlled kinetically/thermodyn

111 s demonstrate our nascent ability to convert evaporation energy into work, yet there is little unders

112 te nanostructured colored films upon solvent evaporation, even in the presence of templating agents.

113 During a long-term evaporation experiment with a 15 wt % NaCl solution, the

114 ave learned in using them for scattering and evaporation experiments.

115 g structures as voids open and the different evaporation fields of the surrounding atoms.

116 istical rate theory (SRT) expression for the evaporation flux and applying a limit to it in which the

117 trate a fundamental relationship between the evaporation flux and driving potential in a dimensionles

118 ansport approach combined with solvent-vapor evaporation for the first time.

119 nges in local hydrology (e.g., precipitation/evaporation, freshwater inputs) and global ice volume.

120 differentiated in all cities (1) summertime evaporation from fuel and/or solvent and (2) wintertime

121 As solvent evaporation from gels is a concern for various applicati

122 ontaneously on different surfaces upon water evaporation from micellar solutions of triblock copolyme

123 We find that natural evaporation from open water surfaces could provide power

124 esponding to solid argon is used to simulate evaporation from the hot side, nonequilibrium vapor flow

125 received attention for its benefits reducing evaporation from the soil surface early in the season.

126 dues allowed for quantification of the metal evaporation from the three nanomaterials.

127 nergy absorbed at the Earth's surface drives evaporation, fueling the water cycle that affects variou

128 n or are formed by clustering during droplet evaporation has been debated.

129 ase-change heat transfer such as boiling and evaporation has been widely exploited in various water-e

130 Interestingly, dew-water evaporation has shown potential to contribute to the gas

131 ope; decreasing precipitation and increasing evaporation have led to decreasing floods in medium and

132 as design guidelines for achieving efficient evaporation in applications such as water purification,

133 te concentrations (>1 molal) can form during evaporation in the absence of inflows.

134 From ~ 100 CE to ~ 600 CE, evaporation in the cave increased in response to regiona

135 raction, including rapid water transport and evaporation in the mesoporous wood, high light absorptio

136 Evaporation increased due to FI, resulting in increased

137 Here, a novel strategy based on evaporation-induced assembly to enable directional ion t

138 A solvent-evaporation-induced crystallization method providing acc

139 Evaporation-induced increase in ionic concentration is r

140 tion and growth of superlattice, in which an evaporation-induced local gradient of NC concentration c

141 hannels of phone images to overcome a strong evaporation-induced optical artifact in heated glass fib

142 layers between solid surfaces upon confined evaporation-induced self-assembly (C-EISA).

143 artificial spider silk produced by the water-evaporation-induced self-assembly of hydrogel fibre made

144 h seasonal and annual mean precipitation and evaporation influence patterns of water availability imp

145 lly to investigate substance transfer due to evaporation into air.

146 The mechanism of evaporation involves surface bubbles growing/coalescing

147 e TU-metal chloride complex formed after DMF evaporation is critical to prevent volatilization of met

148 We demonstrate that particle morphology and evaporation is dependent on whether SOA from limonene is

149 ling cell avoids any sweat contamination and evaporation issues while supplying a passive sweat flow

150 These findings emphasize that evaporation kinetics play a role in modulating the survi

151 erature and residence time were used with an evaporation-kinetics model to extract parameter values.

152 veal two distinct modes of transpiration: an evaporation-limited regime and a flow-limited regime.

153 ignal optimization at the start of the total evaporation measurement procedure was found to be a resu

154 CTX and OCT were conjugated using a solvent evaporation method and the conjugated CTX-OCT was then l

155 GPE) were synthesized by an adapted emulsion-evaporation method and their physico-chemical and functi

156 The films were produced via a thermal evaporation method or a facile drop-casting approach ont

157 sions prepared by emulsification and solvent evaporation method were 68.8+/-0.3nm and 80.7+/-0.8%, re

158 ) were prepared by a single emulsion solvent evaporation method with 72.8% encapsulation of VD3.

159 were prepared by the double emulsion-solvent evaporation method with or without gelatin or by the sel

160 ater-in-oil-in-water double emulsion solvent evaporation method with polyethyleneimine (PEI) as a por

161 drug loaded micelles (DDM) using the solvent evaporation method.

162 sing an oil-in-water single emulsion solvent evaporation method.

163 ly-d,l-lactide (PLA) polymer by the emulsion-evaporation method.

164 g single oil in water (o/w) emulsion solvent evaporation method.

165 e sustainable alternative to current thermal evaporation methods for zero liquid discharge of ultrahi

166 According to the ion evaporation model (IEM) ions undergo electrostatically d

167 d by Na(+) ejection, consistent with the ion evaporation model (IEM).

168 lly validated by a level-set-based APT field evaporation model.

169 o explain the droplet contact angles, liquid evaporation modes, and depinning mechanism during liquid

170 ubstrates fabricated using the oblique angle evaporation (OAV) technique and their response under las

171 ts corroborate earlier predictions that most evaporation occurs from the epidermis at low light and m

172 med by clustering inside droplets as solvent evaporation occurs.

173 s assisted by thermal annealing and the slow evaporation of 1,8-diiodooctane, which we suggest, acts

174 The evaporation of a liquid drop on a solid substrate is a r

175 In situ evaporation of aerosol particles suggests that alpha-pin

176 low supersaturation level, triggered by the evaporation of an extremely thin precursor layer, reduce

177 Unwanted evaporation of bioassay liquids was circumvented by empl

178 After evaporation of CHCl3, the enriched phase was analyzed.

179 formation, and decreases, caused by enhanced evaporation of cloud water, partially cancel each other

180 hlorine and silicon, plays a key role in the evaporation of Cu and Zn at temperatures above 700 degre

181 ay be a consequence of strong volatility and evaporation of limonene increasing with temperature.

182 he formation of different patterns after the evaporation of liquid droplets on a solid surface.

183 Solvent evaporation of low concentration polymer solutions drop-

184 vation is the latter effect does not require evaporation of material, which can significantly enhance

185 Furthermore, slow evaporation of methanol solutions of 3 produced crystals

186 rientational ordering is achieved by a rapid evaporation of mixed solvents during the electrode fabri

187 ide nanorod (ZnO/Ni NR) structures by e-beam evaporation of Ni and the subsequent annealing of the Zn

188 e constraints on the role of dilution-driven evaporation of OA and subsequent radical-driven oxidatio

189 ction at 25 degrees C and observe negligible evaporation of organic aerosol via dilution.

190 ulforhodamine B) from porous media following evaporation of porewater.

191 m from 4-aminopyrazolyloxy acetic acid after evaporation of solvent.

192 Here we show that the evaporation of such ternary mixtures can trigger a phase

193 The evaporation of suspension droplets is the underlying mec

194 Dissociation and evaporation of the amine ligands in 4-ethylpyridine, tri

195 ol and levitate on a vapor film generated by evaporation of the bath.

196 which these proteins unfold before or during evaporation of the electrospray droplet and ionization o

197 Extraction took 5 min, no cleanup or evaporation of the extracts was needed and the method, b

198 To prevent in-vacuum evaporation of the liquid content of the small glandular

199 he mechanical forces in the weaving process, evaporation of the liquid electrolyte and partially shad

200 d with the sample aerosol generated by rapid evaporation of the sample, and it is shown to enhance th

201 ammonium nitrate was greatly accelerated by evaporation of the solution suggesting an important role

202 aying technique, which facilitates the rapid evaporation of the solvent and the subsequent deposition

203 h carbohydrate-content food obtained by boil evaporation of the sugar cane juice.

204 overcome problems in their determination, an evaporation of the wine matrix was performed.

205 nteractions between water and acids hindered evaporation of water from most of lactose solutions.

206 other treatments (without significance), the evaporation of water in the fallow period also decreased

207 The evaporation of water induced by confinement between hydr

208 ces that convert energy from evaporation.The evaporation of water represents an alternative source of

209 After evaporation of water, the oxidation products can be dire

210 arious applications, we also studied solvent evaporation of wetting and non-wetting liquids dispersed

211 e deposition can be achieved through droplet evaporation on oil-wetted hydrophilic surfaces.

212 osable electrodes were fabricated by thermal evaporation on polyethylene terephthalate substrates cov

213 transported upward by capillary flow due to evaporation onto the sand surface, where it was rapidly

214 kenaf/lignin agar followed by either vacuum evaporation or acid precipitation.

215 with LC-MS/MS and no further re-extraction, evaporation or cleanup procedures were necessary.

216 Slow solvent evaporation or cooling of nanocrystal solutions (over ho

217 rolling the assembly process through solvent evaporation or destabilization or through DNA-guided cry

218 olecular core 1 than do photo-ionization and evaporation or future supernova explosions.

219 This paper reports the characterization and evaporation performance of a nature-inspired synthetic l

220 of detection for melamine using a two stage evaporation procedure was 1 x 10(-6) mol dm(-3).

221 Importantly, the nature of the thermal evaporation process enables the fabrication of Se(0.32)

222 ons, a new approach based on modeling of the evaporation process was developed to determine vapor pre

223 wo TADF materials are deposited either by an evaporation-process or by a solution-process, both of th

224 2tDMG used as the emitter in evaporation-processed OLEDs achieves a high external qua

225 The corresponding evaporation-processed OLEDs also reach a reasonably high

226 Solar-driven interfacial evaporation provides a promising method for sustainable

227 partitioning between transpiration and soil evaporation (R(2) = 0.43).

228 nology gaps still exist for achieving a fast evaporation rate and high quality of water combined with

229 sipation, the PPy origami improves the water evaporation rate by at least 71% to 2.12 kg m(-2) h(-1)

230 Importantly, the analyte evaporation rate can control the TDGD-MS quantitative ca

231 d the ionization region humidity and analyte evaporation rate in TDGD-MS.

232 The evaporation rate increased with increasing light intensi

233 izing the Helmholtz free energy and then the evaporation rate is computed by solving Laplace's equati

234 C and that there is an interplay between the evaporation rate of 1,8-diiodooctane and the rate of dom

235 Solar-driven water evaporation rate of 2.63 kg m(-2) h(-1), with energy eff

236 We then explored the evaporation rate of droplets consisting of culture media

237 systems and their simultaneous influences on evaporation rate of fuel droplets in multicomponent syst

238 e hybrid hydrogel evaporators achieve a high evaporation rate under one sun (1 kW m(-2) ) at 3.2 kg m

239 We deduce a universal scaling law for the evaporation rate valid for any shape and demonstrate tha

240 concentration and solubility, solvent type, evaporation rate, seed mediation and thermal treatment),

241 o a nine-orders-of-magnitude increase in the evaporation rate, with the corresponding characteristic

242 ents through a liquid - vapour interface and evaporation rate.

243 of hydrocarbons at the interface affect the evaporation rate.

244 This may explain the low evaporation rates and high deliquescence of these salt s

245 er aerosol mass loading is shown to slow the evaporation rates of deposited compounds.

246 TDGD-MS quantitative capability because high evaporation rates result in significant ion suppression.

247 oincidence with high electricity prices, and evaporation rates.

248 under the influence of gravity, the rate of evaporation remains almost unchanged, as if no gravitati

249 Solar-driven water evaporation represents an environmentally benign method

250 ndensation nuclei, and water condensation or evaporation restructure them to more compact aggregates,

251 DC) polymeric nanoparticles (NPs) by solvent evaporation, resulting in a mean particle size of 125.6

252 ches are considered, while assuming that the evaporation results from the purely diffusive transport

253 ere extracted using solvent-assisted flavour evaporation (SAFE) and headspace solid-phase microextrac

254 were extracted using solvent assisted flavor evaporation (SAFE) and monitored by one and two-dimensio

255 ere extracted using solvent-assisted flavour evaporation (SAFE) and were mildly concentrated; extract

256 traction (SPME) and solvent-assisted flavour evaporation (SAFE) coupled to GC/QTOF were compared for

257 ), were isolated by Solvent-Assisted Flavour Evaporation (SAFE).

258 ere extracted using solvent-assisted flavour evaporation (SAFE); then, extracts were analysed by one-

259 Upon solar evaporation, salt concentration gradients are formed bet

260 Emerging solar desalination by interfacial evaporation shows great potential in response to global

261 isotopic composition, whereas for pure-phase evaporation, significant inverse isotope effects are con

262 pical North Pacific SST warming through wind-evaporation-SST effect, and in response to this warming,

263 er including salt accumulation and long-term evaporation stability, which warrant further investigati

264 solution is passed, without any intervening evaporation step.

265 We developed a clean, low-pressure evaporation/sublimation system to remove water from samp

266 hnologies ranging from battery electrodes to evaporation surfaces.

267 nce and long-term stability of current solar evaporation systems.

268 Increased tear evaporation, tear hyperosmolarity, increased ocular surf

269 was first entrapped in PLGA core by solvent evaporation technique followed by coating with cationic

270 This method employs the full evaporation technique via a static headspace sampler, fo

271 giosin) and paclitaxel] using single solvent evaporation technique with a blend of FDA-approved poly

272 The atmospheric pressure and 1000 degrees C evaporation temperature resulted in smaller diameters, l

273 Bacterial uptake, evaporation tests, release studies and NP stability afte

274 terials and devices that convert energy from evaporation.The evaporation of water represents an alter

275 ndamental side, as they are often subject to evaporation, these droplets are a beautiful and complex

276 and molecular dynamics simulation studies of evaporation, this review will show that the HK relation

277 ments improved the signal behavior for total evaporation TIMS measurements of uranium.

278 tails the liberation of proteins via solvent evaporation to dryness.

279 aporation by 9.0-17.3% and the proportion of evaporation to evapotranspiration (E/ET) by 8.6-17.5%, c

280 e we study the energy available from natural evaporation to predict the potential of this ubiquitous

281 that minimizes sample heating and eliminates evaporation to show that it is indeed possible to drive

282 that range from crystallization, melting and evaporation to the formation of clouds and the initiatio

283 Our MD simulations of evaporation toward a nonreflective absorbing boundary sh

284 less form, which unifies kinetically limited evaporation under different working conditions.

285 el using aqueous solutions that are prone to evaporation under noncontrolled humidity levels.

286 cipitation variation, while 5 show decreased evaporation variation coupled with increasing mean preci

287 on special sample retainers and a subsequent evaporation was developed to quantify light elements (Z

288 By employing two stages of evaporation, we increase the phase-space density of the

289 solid-surface transformation during solvent evaporation were analyzed, and an interparticle material

290 Heating and evaporation were determined as the most important proces

291 ial emission, vehicular exhaust, and solvent evaporation were three major pollution origins.

292 free energy barriers, and mechanism of water evaporation when confined between model hydrophobic mate

293 realized and elucidated kinetically limited evaporation where the molecular gas dynamics close to th

294 fluidic PCR is bubble generation and reagent evaporation, which can cause malfunctions.

295 mation of a hot-super-Earth desert caused by evaporation will add an important constraint on simulati

296 ound 15 solar radii will undergo substantial evaporation with expected mass loss rates comparable to

297 Demonstration of efficient water evaporation with heat localization in nanoparticle solut

298 B-co-LA)] polymeric nanoparticles by solvent evaporation, with the mean particle size of 122.0 +/- 2.

299 e desirable water retention, absorption, and evaporation within hydrogels.

300 The sites of evaporation within leaves are unknown, but they have dra