ライフサイエンスコーパス: wet

1 and temperature of the wettest quarter (T.q.wet).

2 134 degrees (oil wet) to 85 degrees (neutral wet).

3 moval at sites with lower MAP and higher T.q.wet.

4 pore deformation and the subsequent membrane wetting.

5 We discovered the clay-rich layer to be wet (a phenomenon never observed before in this region),

6 h PDR, retinopathy of prematurity (ROP), and wet age-related macular degeneration (wet AMD) have been

7 and Roclatan for glaucoma, Brolucizumab for wet age-related macular degeneration (wet AMD), Luxturna

8 Progression to exudative 'wet' age-related macular degeneration (exAMD) is a major

9 Fifteen metabolites in dry-aged and ten in wet-aged beef correlate with the aging time (r > 0.7, <-

10 polar fraction of metabolome in dry-aged and wet-aged beef over the aging time and quantifying the me

11 taste of beef is improved by either dry- or wet-aging or a combination of both.

12 simus dorsi) samples aged in different ways (wet-aging vs. dry-aging) and aging times (0, 7, 14, 21,

13 (+) monocytes in both dry AMD (P < .001) and wet AMD (P < .05) were higher than in age-matched non-AM

14 (sCD163) was elevated only in patients with wet AMD (P < .05).

15 mechanistic role of CD163(+) macrophages in wet AMD pathologies of angiogenesis and leakage of blood

16 VEGF-A antagonists have revolutionized wet AMD treatment.

17 ), and wet age-related macular degeneration (wet AMD) have been found to have elevated levels of Tumo

18 Eye: Investigation of Efficacy and Safety in Wet AMD) trial.

19 ab for wet age-related macular degeneration (wet AMD), Luxturna for retinitis pigmentosa, Dextenza (0

20 tes in the peripheral blood of patients with wet AMD, patients with dry AMD, and in age-matched indiv

21 evealed that anti-VEGF treated patients with wet AMD, who showed no exudative signs on the day of blo

22 e of our existing laboratory processes, both wet and computational, in order to provide inspiration t

23 n dry and hot conditions, and decline toward wet and cool conditions.

24 Wet and dry deposition remove aerosols from the atmosphe

25 all rsEEG traces were comparable between the wet and dry electrode headsets.

26 with a similar spatial distribution for both wet and dry electrode systems.

27 cribe the inactivation of SARS-CoV-2 in both wet and dry format using radiation generated by a commer

28 ees C equally well, but that spores survived wet and dry frost better than cysts, with group 4 spores

29 ive impacts of the magnitude and duration of wet and dry PPT anomalies are needed, with multi-site lo

30 e shows strong potential for the duration of wet and dry PPT anomalies to impact NPP and to interact

31 s of increased frequencies and magnitudes of wet and dry precipitation anomalies are expected to shif

32 ts representing clean to polluted conditions-wet and dry seasons in central Amazonia and Southeastern

33 seasonal changes, frequently with pronounced wet and dry seasons, leading to a highly uneven temporal

34 gimes by increasing the frequency of extreme wet and dry years and the size of individual rainfall ev

35 minimization of liquid residue and the high wet and net material utilization efficiency in forming a

36 ltration-runoff partitioning and recharge in wet and vegetated regions.

37 to thinly documented historical events, the wet and very cold conditions from this massive eruption

38 le under wet conditions; and, it universally wets and adheres to substrates having different polariti

39 Planar Cu foils are also poorly electrolyte-wetted and become dendritic.

40 V-Vis spectroscopy confirmed contribution of wetting and absorption mechanisms in the mucin interacti

41 the associated two-photon absorption of the wetting and barrier layers, have not been investigated y

42 empty trichomes refilled during leaf surface wetting and microscopic investigations revealed that tri

43 On the basis of improved wetting and stabilized interfacial chemistry, such liqui

44 t a minimum of two tundra landforms (dry and wet) and a maximum of 4km(2) spatial scale is necessary

45 unity, compared to the genes associated with wet, and glycine-amended conditions.

46 genes that are uniquely associated with dry, wet, and glycine-amended conditions.

47 wood species that were naturally inoculated, wetted, and held at high humidity for several weeks.

48 pulses, and more negative AIs were found in wet areas, with a threshold delineating the two regimes

49 t responses was greater in dry areas than in wet areas.

50 ments and have also been reported in dry and wet atmospheric deposition.

51 el close to that used for bread making (50%, wet basis).

52 This unusual wetting behavior is contrary to the conventional view (a

53 mulation evidence of a previously unreported wetting behavior, i.e., the rise of multiple Wenzel stat

54 rge spatial scales, with relatively warm and wet (benign, productive) regions supporting greater numb

55 thways to thermochemically convert salty and wet biomass into H(2) are limited.

56 d with a standard analytical procedure using wet-blood chemistry, and an excellent fit was obtained.

57 Additionally, the wet bridge transfer system was used to evaluate surfacta

58 m bcc to hexagonally packed cylinders in the wet-brush regime.

59 Al@Al is fully wetted by a 4 m potassium bis(fluorosulfonyl)imide-dimet

60 tecting the hydrophobic substrate from being wetted by the low-surface-tension feed water.

61 lithium diffusion process and the electrode wetting by the electrolyte.

62 : conformational disorder of the polymer and wetting by the solvent.

63 and RGO), are prepared using simple in-situ wet chemical method and thereafter these NCs have been c

64 (NH(4))(2)Mg(H(2)P(2)O(7))(2)*2H(2)O using a wet chemical route.

65 Combining bioassays, spectroscopy, and wet-chemical analysis, we found that oxidative activity

66 2)Cl(2)) can be prepared on the nanoscale by wet-chemical approaches.

67 In this work, we describe the wet-chemical synthesis of monodisperse nanohelices based

68 Here, we report a one-pot wet-chemical synthesis of well-defined heterophase fcc-2

69 It is shown how wet-chemical synthesis results in an uncontrolled integr

70 ) nanosheets are synthesized using a one-pot wet-chemical synthesis route with and without Re doping.

71 Thermodynamic analyses of wet chemistry data suggest that iron adsorbs on the edge

72 orption experiments, and characterized using wet chemistry methods and X-ray absorption spectroscopy.

73 The FT-MIR results were compared to wet chemistry methods for assessing the concentrations o

74 3 when compared with data obtained using the wet chemistry methods for both the calibration and valid

75 4)O(33) was successfully synthesized using a wet chemistry technique to promote the homogenous mixing

76 Ca(12)Al(14)O(33) synthesized using the same wet chemistry technique.

77 tory setting without the need for additional wet-chemistry and purification steps.

78 nal structure in a graphene liquid cell by a wet-chemistry approach.

79 Traditional wet-chemistry catalyst synthesis often requires complex

80 nano-alloys that are laborious to obtain via wet-chemistry synthesis.

81 Fe loading relative to other catalysts from wet-chemistry synthesis.

82 tine graphene flakes is demonstrated through wet-chemistry testing, optical microscopy, electron micr

83 vides support for climate models for a cool, wet climate on early Venus and could be an attractive re

84 The warm and wet climate persisted even after the flooding ended, but

85 consistent decrease in GPP/SIF from cold-and-wet climates to hot-and-dry climates.

86 mic flourishing of the oasis, facilitated by wet climatic conditions and higher river flows that favo

87 due to wettability alteration towards water-wet conditions and the formation of low apparent-viscosi

88 The gypsum stalactite indicates wet conditions in the cave and humid climate from ~ 200

89 upramolecular polymer, whereas in ambient or wet conditions the polymers are rapidly destabilized.

90 and the surface was modified to exhibit oil-wet conditions through a crude oil aging process.

91 sslinker (Polycup) to impart stability under wet conditions without additional functionalization.

92 Rather, the adsorbed H(2)O molecules, under wet conditions, form thin solvation shells wrapping the

93 s were diminished by nitrogen deficiency and wet conditions.

94 negatively affected by early growing season wet conditions.

95 for the applications of COF materials under wet conditions.

96 period following the eruption and unusually wet conditions.

97 It is slightly swellable under wet conditions; and, it universally wets and adheres to

98 rom soils or water are principal sources for wet-deposited plastics.

99 For Germany, an annual wet deposition flux of 190 mug/m(2) or approximately 68

100 ced seasonality of the TFA concentration and wet deposition flux of collected samples.

101 well as with independent aerosol (0.59) and wet deposition measurements (0.57).

102 consequence of the long-range transport and wet deposition of fly ash from the combustion of coal (l

103 arine environment, information regarding the wet deposition of TFA as well as general data on the spa

104 ed average TFA concentration of all analyzed wet deposition samples were 0.210, 0.703, and 0.335 mug/

105 ion of 51% of oxidized Hg and ~66% of Hg(II) wet deposition.

106 nd dynamics of nanoconfined water, including wetting/dewetting in narrow hydrophobic nanopores.

107 ic diversity showed a large decrease along a wet-dry climatic gradient.

108 e revealed the presence of precession-driven wet-dry cycles atop a general aridification trend, thoug

109 This work shows that wet-dry cycling can alter the phase behavior and protoce

110 Wet-dry cycling on the early Earth is thought to have fa

111 Interaction of wet-dry extremes and SWT depth modulated tree responses

112 d that fires have been expanding through the wet-dry transition season and northward to savanna-fores

113 ize that wetter and hotter conditions in the wet-dry tropics in the future will increase SigmaF(aq) a

114 e, yet hydrologically dynamic regions of the wet-dry tropics where our result indicating a significan

115 hways can be particularly significant in the wet-dry tropics, where fire plays a fundamental part in

116 ion, such as histological lung injury score, wet/dry ratio, and oxygenation index, were evaluated as

117 t can form instant tough adhesion on various wet dynamic tissues and can be benignly detached from th

118 NH(3) is sampled in a cylindrical wet effluent diffusion denuder (CWEDD) and analyzed onli

119 activity, we show that 'dry' electronic and 'wet' electrochemical characteristics align within a gene

120 n offers an alternative tool to conventional wet electrode EEG systems.

121 of dry electrode recordings is comparable to wet electrode recordings in the clinical context.

122 e with 19 dry electrodes and another with 19 wet electrodes.

123 ing is achieved through improved electrolyte wetting, employing an aluminum-powder-coated aluminum fo

124 vides longer shelf-life for the CL gels in a wet environment and sustainable drug release.

125 Counterintuitively, we find that while wet environments eliminate the risk of critical EWL, the

126 Given that most species are adapted to ever-wet environments, it has been hypothesized that lycophyt

127 Yet, extreme wet episodes, which are becoming as severe and frequent

128 Anisotropic wet etching of sapphire through micro-patterned triangul

129 ass iMFP, fabricated using photolithography, wet etching, and polishing, shows comparable performance

130 ure are fabricated via using lithography and wet etching.

131 rgy cost of producing anhydrous ethanol from wet ethanol ($1.46/GJ).

132 s annualized capital costs for conversion of wet ethanol to fungible blendstocks are estimated at $2.

133 scribed here results in 1-step conversion of wet ethanol vapor (40 wt% in water) to hydrocarbons and

134 Extremely dry and wet events accompanied with hot days have been more freq

135 o date, and well matches past historical dry/wet events.

136 reatly reduce the effort in finding them via wet experiments at both time and resource scales, and fu

137 (nearly identical) as obtained from thermal wetting experiments.

138 Dry and wet extremes decreased growth and increased tree mortali

139 or the WYs of interest, the median-estimated wet FGD bromide discharges are modeled to represent a si

140 evaluates the role of coal-fired power plant wet flue gas desulfurization (FGD)-associated bromide lo

141 g for the TIP4P/2005 water model to complete wetting for the polarizable AMOEBA14 model.

142 g degrees of hydration, ranging from partial wetting for the TIP4P/2005 water model to complete wetti

143 gradient of increasing aridity from the cool-wet forest to the hot-dry Sahel, from south to north in

144 oncentrations and emissions in a Neotropical wet forest.

145 C decomposition rate decreased from warm and wet forests to cold and dry forests, while Q(10-MAT) (st

146 ree dry forests with MAP < 1,250 mm and four wet forests with MAP > 1,400 mm).

147 ll increase under warmer climate in tropical wet forests, and precipitation patterns will define the

148 ity and biomass increase with temperature in wet forests, but decrease with temperature where water b

149 In wet forests, the same reduction in densities of apex soi

150 are not transient, the diversity of tropical wet forests, which may rely on negative density dependen

151 oitation by lower trophic levels compared to wet forests.

152 losses lagging behind the downward-advancing wetting front by ~30 years, suggesting that even deep SI

153 ntly reduce both methane and VOCs in oil and wet gas basins, such as the Eagle Ford.

154 Prototypical uncontrolled wet gas wells can have approximately half of their emiss

155 ting CO(2) and NH(3) within the pores of the wet gel which prevents pore collapse during drying.

156 ich must remove liquid from the pores of the wet gel while maintaining the solid network.

157 Leaf wetting generally led to decreased photosynthesis, parti

158 Here, we use wet geochemistry, spectroscopy, and electron microscopy

159 e and flavor) process that occurs in a stone wet-grinder.

160 nturies, represented mainly as a change from wet habitat Sphagnum spp. to dry habitat S. fuscum.

161 Protein isolates were prepared from wet heat processed (APIp) and unprocessed alfalfa seeds

162 (increased particle size); while subsequent wet heating induced partial unfolding and de-aggregation

163 Dry and subsequent wet heating were used to glycate soy proteins with dextr

164 then to 0.62 mmol/g upon dry and subsequent wet heating; this non-monotonic evolution is probably du

165 ly when the leaf surface with stomata became wet; however, there was significant variation across spe

166 Warm and wet hydroclimate conditions are found during warm states

167 achieved through droplet evaporation on oil-wetted hydrophilic surfaces.

168 ZrO(2) (x = 0, 3, 5, 7 wt%) were prepared by wet impregnation method and then were tested for syngas

169 posites were prepared by sol-gel followed by wet-impregnation methods.

170 ter through the membrane, can cause membrane wetting in membrane distillation, and can lead to the ph

171 , dimensionless number that encapsulates the wetting instability governing the LFP.

172 Tackling membrane wetting is an ongoing challenge for large-scale applicat

173 This wetting is driven by a bulk instability introduced by me

174 aces and evacuate crevices, the extent of de-wetting is unclear when ubiquitous van der Waals interac

175 rix remains difficult due to the reason that wetting is usually unfavorable in the carbon/metal syste

176 ace is primed to let a hydrophilic precursor wet it, and then polymers of different layers are interl

177 the way for developing next-generation anti-wetting Janus membranes for robust membrane distillation

178 Current wet lab techniques used for this purpose, such as gene k

179 n human papillomaviruses (PVs) from targeted wet-lab approaches has traditionally used PCR-based meth

180 are challenging and time-consuming for most wet-lab biologists.

181 quences, including one that was validated by wet-lab experiments.

182 As high-throughput wet-lab settings are often costly and face various chall

183 (or not) to be quantitatively similar to the wet-lab validation targets, which are elevated plasma AL

184 this is due to expensive and time-consuming wet-laboratory experiments, poor initial hit compounds a

185 At present, it requires ~8 d of wet-laboratory work, 15 d of mass spectrometry measureme

186 No evidence for an often-assumed thin-brine wetting layer at the calcite-petroleum interface is obse

187 observed on both the GaAs substrate and the wetting layer by two-photon excitation, which is account

188 erved that the water to protein ratio in the wetting layer is substantially larger compared to simple

189 gatively charged interface, or a (diverging) wetting layer when approaching liquid-liquid phase separ

190 enerated carrier dynamics in the quantum dot-wetting layer-GaAs system.

191 re often accompanied by rain that results in wet leaf surfaces.

192 d, especially the abrupt decrease in the QCM wet mass with the particle coverage and the overtone num

193 e pomace, ranging between 20% and 30% of the wet matrix; however, their oligosaccharide composition h

194 grees = 33-37 degrees ) and high-performance wet-milling (-6 degrees ).

195 as a fiber-rich fraction of quinoa from its wet-milling process) to bologna-type sausage.

196 e transition of the martian climate from the wet Noachian era to the dry Hesperian (4.1-3.0 Gya) like

197 results, in order to estimate river depth in wet nodes.

198 takeaway is that the incomplete electrolyte wetting of collectors results in early onset of SEI inst

199 asured the effects of diffuse light and leaf wetting on photosynthesis in canopy species from a tropi

200 In the current study, we collected wet-only and bulk rainfall from four precipitation chemi

201 The wet-only collectors were estimated to capture ~70% of th

202 Wet-only mf deposition was 70 mf m(-2) day(-1) compared

203 sification model, which was used to identify wet or dry nodes over the domain.

204 scularization (CNV), a hallmark of the human wet, or neovascular age-related macular degeneration (AM

205 for the design of a nanopore which promotes wetting over dewetting or vice versa.

206 or under very weak stabilizing selection in wet paddy conditions (with median standardized selection

207 de the tips to retain reagents as solutions (wetted paper mode) or as solids (dried paper mode) to pe

208 ility or surface charge, determines the anti-wetting performance of the composite Janus membranes.

209 old and dry climate and generated a warm and wet period.

210 As extreme wet periods are projected to increase and at least 36% o

211 arrhea incidence, whereas rainfall following wet periods can dilute pathogen concentrations in surfac

212 verse association for extreme rain following wet periods, albeit nonsignificant, with one of four rel

213 vere droughts but also of concurrent extreme wet periods, and how topographic affiliation (to shallow

214 tively coupled plasma mass spectrometry in a wet plasma mode without using neither hydride generation

215 rly identical surface oxide, the electrolyte wets poorly (theta(CA) = 52 degrees ).

216 edium into the coffee beans during simulated wet processing using four media (M) (M1: contained dehul

217 This study applied four forms of wet-processing in six different altitude strata, aiming

218 Taking advantage of the different wetting properties of hydrophilic and hydrophobic areas

219 pulating the surface energy, and thereby the wetting properties of solids, has promise for various ph

220 Here we report a phenomenon whereby the wetting properties of vermiculite laminates are controll

221 l diversity of both film and liquid, surface-wetting properties, and complex geometric patterns of so

222 Although water is predicted to de-wet purely repulsive surfaces and evacuate crevices, the

223 GB(95) , particularly in transitional and/or wet regions in tropics.

224 me, demonstrates the origin of the excellent wetting resistance of the composite Janus membranes.

225 More deposited layers yield higher wetting resistance.

226 experiments demonstrate that molten K fully wets rGO@3D-Cu after 6 s, but does not wet unfunctionali

227 y the flow of oil, water and CO(2) in an oil-wet rock at subsurface conditions of high temperature an

228 controls on divalent silicate reactivity in wet scCO(2) could be advantageous for maximizing permeab

229 les submitted in November, at the end of the wet season (28.3%).

230 Migration of all species peaked during the wet season every year across localities, suggesting regu

231 tial rooting depth decreased with increasing wet season length, mean annual rainfall had no systemati

232 precipitation, instead, experience increased wet season precipitation.

233 g 45 nests after a 4-year period with larger wet season rainfall and 30 nests after a 4-year period w

234 30 nests after a 4-year period with smaller wet season rainfall.

235 radiation, and low precipitation during the wet season were driving factors.

236 Peak CH(4) fluxes were greater during the wet season when the water table was high and temperature

237 A decreasing trend of isoprene during the wet season, most likely due to forest biomass loss, and

238 gmaF(aq) significantly offset NEP during the wet season, with a disproportionate contribution by sing

239 d E. coli levels were the highest during the wet season.

240 ts imply that flood risks may amplify in the wet season.

241 is, which is mostly driven by temperature or wet-season onset, late-season photosynthesis can be limi

242 atic seasonality and drought in both dry and wet seasons appear to be ecological filters that select

243 (Varanus panoptes), taking advantage of four wet seasons with contrasting rainfall amounts.

244 ed by transitions between pronounced dry and wet seasons, affecting food security for two-thirds of t

245 Larrea exhibited extreme anisohydry under wet soil conditions corresponding to periods of high pro

246 under ambient-atmosphere conditions and with wet solvent.

247 assembly triggers for relatively biomimetic wet spinning.

248 one is insufficient to trigger assembly in a wet-spinning process, and must be combined with salting-

249 erties, we generated and mechanically tested wet-spun collagen ACLP composite fibers, finding that AC

250 ed in lower than anticipated inactivation on wet SS at small DUV doses, and deviation from the Weibul

251 restimated inactivation by small-dose DUV on wet SS.

252 t, the movement of its contact line, and the wetting state of the thin film surrounding the droplet.

253 shape of the closed loops, such topological wetting states can always arise due to the topological i

254 a rough or structured surface, two distinct wetting states commonly observed are either the Wenzel s

255 he water droplet can exhibit multiple Wenzel wetting states with the apparent contact angles >0 degre

256 tinct multiple Wenzel states as "topological wetting states" because their existence can be attribute

257 drawbacks including frequent recalibration, wet storage of the glass membrane, difficulty in miniatu

258 In the wet stream, ammonia and nitrogen are the main products a

259 HONO mixing ratios driven by condensation to wet surfaces in the AC unit.

260 erparts are superhydrophilic (i.e., complete wetting surfaces with the hallmark of zero contact angle

261 ilico analyses of the primers and probes and wet testing.

262 lier water flux decline and induced membrane wetting that was not observed in silica scaling.

263 nds that bind bitartrate to Cu, but does not wet the bitartrate rows.

264 For fluids that wet the surface (small intrinsic contact angle), the exp

265 served are either the Wenzel state (droplets wet the surface without showing air pockets beneath the

266 te contact method, where a thin layer of oil wets the investigated substrate.

267 The toluene droplet wetting the ultramicroelectrode effectively creates a mi

268 cells, which over the course of days became wetted through deliquescence.

269 After it is adhered to wet tissues, the bioadhesive becomes a tough hydrogel wi

270 and integration of implantable devices onto wet tissues.

271 opical South America (2,025 inventories from wet to arid biomes), and a new, large-scale phylogenetic

272 range of precipitation amounts, from extreme wet to dry conditions.

273 Woody productivity and biomass decrease from wet to dry forests and with elevation.

274 average contact angle from 134 degrees (oil wet) to 85 degrees (neutral wet).

275 duced acute lung injury, as assessed by lung wet-to-dry weight ratio, BAL protein levels, BAL inflamm

276 high speed, low visibility, low temperature, wet track).

277 ne surface due to polymer residues and harsh wet-transfer conditions.

278 -valence (patchy) particles and identified a wetting transition for this complex system.

279 o obtain insight into the mechanism behind a wetting transition of a protein solution.

280 ry foothills (500 m above sea level) to cold wet treeline (3250 m asl) in California's central Sierra

281 endent feedbacks on seedling demography in a wet tropical forest in Puerto Rico.

282 riation in K(S) were highest in the warm and wet tropical regions, and lower in cold and dry regions,

283 fully wets rGO@3D-Cu after 6 s, but does not wet unfunctionalized 3D-Cu.

284 ata, we tested whether plastics deposited in wet versus dry conditions have distinct atmospheric life

285 limit of detection [<LOD] to 1670.10 ng/g of wet weight [WW]).

286 ers in mothers ranged from 897 to 13620 ng/g wet weight and were associated with altered adipose tiss

287 gh concentrations of progesterone (>19 ng/g, wet weight), recognised as an indicator of pregnancy in

288 kg wet weight; change: 0.53 +/- 0.21 mmol/kg wet weight, P = 0.01).

289 ons were between 65 000 and 830 000 ng g(-1) wet weight, possibly the highest burden recorded in terr

290 high concentrations (1.6-12 and 7.8-40 ng/g wet weight, respectively) in 36% of the females approach

291 +/- 0.30 compared with 2.40 +/- 0.33 mmol/kg wet weight; change: 0.53 +/- 0.21 mmol/kg wet weight, P

292 Before lipid adjustment, wet-weight levels of all four PBDE congeners were highes

293 34% (95% CI: - 2.4 to 84%, p = 0.07) higher wet-weight levels of BDE-47 than residents living in the

294 ntrations are stabilized, whereas California wetting will largely emerge only after GHG concentration

295 cupational contact dermatitis, mainly due to wet work.

296 presented a 30-fold increase compared to the wet-year average.

297 reater increase of ecosystem productivity in wet years compared to the decline in dry years, and nega

298 with slow patch infill scenarios compared to wet years with fast patch infill scenarios.

299 xceed historical magnitudes, or occur during wet years, before responses saturate.

300 ity in dry years compared to the increase in wet years.