ライフサイエンスコーパス: inlet

1 tubing through which solution flows into the inlet.

2 ered by grounding line retreat into Hercules Inlet.

3 sampling and capture of the vapor on the PTV inlet.

4 le introduction through the split/splittless inlet.

5 of the mass spectrometer (MS) vacuum at the inlet.

6 pounds is possible using a direct sample gas inlet.

7 grees C to form NO2 or NO in a heated quartz inlet.

8 provided by means of a standard microfluidic inlet.

9 ion of matrix interferences at the capillary inlet.

10 the aerosol flow through the nebulizing gas inlet.

11 ionization (ESI)-MS with a heated capillary inlet.

12 ip and directed toward the mass spectrometer inlet.

13 e polymerase chain reaction, near the column inlet.

14 ression step and can only be achieved at the inlet.

15 /- 0.05 per mille, 1 SD, n = 16) at the free inlet.

16 hemical Analysis of Aerosol Online" (CHARON) inlet.

17 ss (36%) of labile GOMTK from the denuder or inlet.

18 lets and ions and directing it toward the MS inlet.

19 ter passing through a temperature controlled inlet.

20 ion that killer whales remained in Admiralty Inlet.

21 in layer of homogeneous porous medium to its inlet.

22 adjust the fluid column height at the fluid inlets.

23 h both front-end LC equipment and typical MS inlets.

24 surface-adsorbed acids on sampling lines and inlets.

25 (top-loading) inlets and parallel (in-line) inlets.

26 flow rate ratio of the microfluidic chamber inlets.

27 t] = 7) via satellite telemetry in Admiralty Inlet, a large fjord in the Eastern Canadian Arctic.

28 coupling along the redox gradient in Saanich Inlet-a seasonally anoxic fjord with biogeochemistry ana

29 ion geometry (at 180 degrees relative to the inlet) ablates the matrix/analyte sample deposited on th

30 bed column, a bed height, feed flow rate and inlet acrylamide concentration of 20 cm, 1 mL/min, and 1

31 e markedly reduced by swift depopulation and inlet air filtration.

32 OLE/SA ratio 1:1.6 and inlet air temperature 135 degrees C were the optimal con

33 sulation was carried out in a spray-drier at inlet air temperature of 160 degrees C.

34 lected ion monitoring, utilizing a multimode inlet allowed for lower injection temperatures to allow

35 normally closed membrane valves that have an inlet, an outlet, and a membrane-pressurization chamber

36 emical Analysis of Aerosol Online") particle inlet and a proton-transfer-reaction time-of-flight mass

37 An orthogonal ion injection inlet and a repeller plate electrode was used to direct

38 The GC, equipped with a gas inlet and a valve that transfers the H2S to a thermal co

39 mass spectrometer (PTR-TOF) using a new gas inlet and an innovative reaction chamber design.

40 ce to face with a thin spacer and feature an inlet and an outlet port.

41 rface of the metal plate are directed to the inlet and analyzed by a mass spectrometer.

42 bacteria-containing anolyte into the anodic inlet and another drop of potassium ferricyanide for cat

43 etention of larger particles near the column inlet and elution of smaller particles occurred during c

44 , and, by interacting with the enzyme at the inlet and exit of the transmembrane proton channel, in p

45 terized by low QD deposition near the column inlet and increasing solid-phase concentrations along th

46 table for coupling DART with ETV as a sample inlet and ionization platform for time-of-flight MS, (2)

47 ssion were sucked into the mass spectrometer inlet and mass spectra were recorded.

48 ltivalve manifold selects Hg at the analyzer inlet and outlet based on specific criteria (location, t

49 for injection or sampling are located at the inlet and outlet of the cell chamber.

50 The inlet and outlet of the DFC were coupled with a Tekran M

51 asured as a function of particle size at the inlet and outlet of the scrubber.

52 process, and metal nuts were brazed onto the inlet and outlet ports allowing for column interfacing w

53 s also appears driven by differences between inlet and outlet pressure, as well as venting and leakin

54 aden structures with 2 chambers and a vessel inlet and outlet.

55 een gas and condensed phases at the scrubber inlet and outlet.

56 m inside diameter, 70 cm long) for the probe inlet and outlet.

57 onlinear effects), and has a very accessible inlet and outlet.

58 ms at minimizing the pressure losses between inlet and outlet.

59 yer with two reference electrodes located at inlet and outlet.

60 e pelvises had transverse oval appearance in inlet and size of the female pelvis.

61 hereas such interfaces are limited to device inlets and outlets in traditional closed-channel microfl

62 tions of blood flow in vessels with multiple inlets and outlets, constructed using an angiogenesis mo

63 mps, tubing, etc.-are vertical (top-loading) inlets and parallel (in-line) inlets.

64 ith high proximity between their respiration inlets and potential emission sources, such as bedding m

65 ng xurography technique and consisted of two inlets and single outlet.

66 Ungauged lateral inlets and sparse GW data limited the study, and argue f

67 ive communities (Grise Fiord, Kugaaruk, Pond Inlet, and Pangnirtung), where the population was <2000

68 solation membrane is placed at the reactor's inlet, and paraffin-encapsulated reagents are prestored

69 g sample solutions in close proximity to the inlet aperture of a heated mass spectrometer inlet tube.

70 alyte in a suitable matrix be exposed to the inlet aperture of an atmospheric pressure ionization mas

71 ing the entrance of the atmospheric pressure inlet aperture with a customized cone that is sealed wit

72 essure differential at the mass spectrometer inlet aperture.

73 However, the knickpoints in Bute Inlet appear internally generated.

74 tions directly at the building surface (wall inlet) are significantly enhanced (mean 3.8 +/- 1.8 ng/m

75 ciated groups, and the third associated with inlet areas.

76 The occurrence of the inlet assemblage in the western and eastern ends of the

77 drogen gas was directly injected into the GC inlet at 0.5 min intervals, using a home-built electroma

78 around the ion source and mass spectrometer inlet at atmospheric pressure.

79 After closure of the umbilical inlet at birth, portal vessels undergo a transition from

80 while cooling a short segment of the column inlet at subambient temperatures, solutes are concentrat

81 ic wastewater characteristics sampled at the inlet basin of a sewage treatment plant (STP).

82 of 15 Chinook salmon populations in the Cook Inlet basin, southcentral Alaska, using a hierarchical B

83 Facilitated by the use of inlet beam-type activation (i.e., trapHCD) for productio

84 oved by increasing gas conductance of the MS inlet by 4.3-fold.

85 rom the container into the mass spectrometer inlet by the pressure differential at the mass spectrome

86 indicating that the LS was carried to the MS inlet by the spray that emerged from the cone.

87 marine channel along its full length in Bute Inlet, Canada.

88 Furthermore, careful selection of the inlet capillary dimensions allowed to eliminate the firs

89 een a home-built pneumatic nebulizer and the inlet capillary of an Orbitrap mass spectrometer.

90 ion signal was observed upon heating of the inlet capillary.

91 idic platforms incorporate three independent inlet channels and a microfluidic chamber with an monoli

92 flow centerline and velocity fluctuations in inlet channels, leading to artificial widening of DI ver

93 in a 1 L min(-1) air current with a variable inlet concentration in the range of tens of ppmv without

94 ed 50 gN m(-3) h(-1) with 100% removal at an inlet concentration of 404 ppm(v) and a gas residence ti

95 decreased bacterial gene targets to building inlet concentrations within 30 min.

96 Inlet conditions were established to prevent issues with

97 50-70% total phosphorus removal, under most inlet conditions.

98 A continuous atmospheric inlet consisting of a stainless steel capillary and DC i

99 hich correlates with the nozzle's asymmetric inlet corner profile.

100 carried out in a tapered capillary with the inlet cross-section three times larger than the cross-se

101 This inlet design shows promising results with respect to the

102 erated with two different thermal desorption inlets, designed to characterize the gas and aerosol com

103 Plug base flow requires stronger inlet disturbance for transition.

104 When inlet disturbance is located in the core region, helical

105 When inlet disturbance is near the wall, certain quasi-spanwi

106 ventricles, 2 intracardiac devices, 1 double inlet-double outlet RV).

107 umn studies demonstrated that changes in the inlet end plate configuration designed to ensure uniform

108 Electrospray ionization inlet (ESII) combines positive aspects of electrospray i

109 split-ratio flow splitter was tested with an inlet flow of 15 mL/min (0.9 L/h), producing a sampling

110 To extend the upper limit of inlet flow rate, a 14:1 split-ratio flow splitter was te

111 Moreover, the optimization of the inlet flow ratio resulted in a minimized dilution factor

112 Inlet flow speed and desorption temperature are optimize

113 The calculation of the split ratio of the inlet flow to the two outlets is challenging because of

114 sition at each generation, compared to other inlet flow waveforms, predicted significantly higher pro

115 We present results utilizing a Filter Inlet for Gases and AEROsol coupled to a chemical ioniza

116 A filter inlet for gases and aerosols coupled to a high-resolutio

117 rption (F-TD) techniques, such as the filter inlet for gases and aerosols, are widely employed to inv

118 nts an expedient highly efficient separation inlet for MS, capable of separating isobaric oligosaccha

119 nced sample preparation, rapid online hot GC inlet gas phase sample derivatization, fast GC low therm

120 al split mass flow rate is determined by the inlet gas temperature and the overall heat-transfer coef

121 that heat recovery increases dramatically as inlet gas temperature rises and outlet gas temperature f

122 transfer coefficient, particularly at higher inlet gas temperatures.

123 lity of their estimates for well-to-refinery inlet gate (WTR) GHG emissions.

124 using an optimized protocol considering swab-inlet geometry, tip-sample angles and distances, rotatio

125 from the mitochondrial matrix via the proton inlet half channel proceeds via a Grotthus mechanism, an

126 Moreover, the fraction of THg as MeHg at the inlet has not changed despite decadal decreases in atmos

127 at SS and TP concentrations at the reservoir inlet have declined under most discharges in recent deca

128 We found that the inlet hydrogen atoms in the hydrogen passivation serve a

129 this study we show that mangroves in desert inlets in the coasts of the Baja California have been ac

130 s of the bay is consistent with a history of inlets in these areas, even though prior to Hurricane Sa

131 ance between the sample surface and the cell inlet, in a dynamic manner.

132 introduced into the biosensor via the sample inlet into the focusing region, and then toward the sens

133 es a new ionization method, droplet assisted inlet ionization (DAII), where aqueous droplets are prod

134 t observed with SAII and this electrosprayed inlet ionization (ESII) method are very similar for weak

135 ospray ionization (ESI) and solvent assisted inlet ionization (SAII) provides higher ion abundances o

136 and nonpolar compounds, and solvent assisted inlet ionization capable of ionizing larger molecules li

137 81)Br obtained for these solutions with dual-inlet IRMS measurements on CH3Br gas.

138 with online EA-Cr/HTC-IRMS and offline dual-inlet IRMS.

139 The inflow at the inlet is duplicated from a fully developed flow generate

140 cule reactions, no preseparation or membrane inlet is necessary when the compounds of interest are di

141 ization inlet method, with MAIV, heating the inlet is not necessary.

142 in the region between the glass slide and MS inlet, leading to generation of reagent ions for chemica

143 n mass spectrometer (CIMS) equipped with an "inlet-less" NO3(-) ion source.

144 Besides, the empty bed residence time and inlet load range of biofilter were set to 20 s and 21.23

145 ped a stand-alone system based on a membrane inlet mass spectrometer (MIMS) for measuring dissolved g

146 A membrane inlet mass spectrometer is mounted onto an all-electric

147 ment using [(18)O]-labeled O2 and a membrane inlet mass spectrometer to characterize Chlamydomonas re

148 2 s), the CF-MIMS (Continuous Flow Membrane Inlet Mass Spectrometer) is an innovative tool allowing

149 romatograph (GC) and an atmospheric pressure inlet mass spectrometer, was constructed.

150 the ionization region of an ambient pressure inlet mass spectrometer.

151 uilt thin-layer cell connected to a membrane inlet mass spectrometer.

152 Membrane inlet mass spectrometry (MIMS) uses diffusion across a p

153 We performed membrane inlet mass spectrometry analysis to show that D. armatus

154 Employing membrane-inlet mass spectrometry and [Formula: see text], we now

155 nterplay between PSII and CrCAH3 by membrane inlet mass spectrometry and x-ray crystallography.

156 Via membrane inlet mass spectrometry gas exchange, chlorophyll a fluo

157 aphy and (18)O exchange measured by membrane inlet mass spectrometry have been used to investigate st

158 Membrane inlet mass spectrometry measurements showed that CrCAH3

159 Membrane-inlet mass spectrometry measurements suggest that at lea

160 ombination of EPR and time-resolved membrane inlet mass spectrometry that the binding of ammonia pert

161 paper describes the application of membrane inlet mass spectrometry to determine the oxygen isotope

162 Here, we used membrane inlet mass spectrometry to measure the temperature respo

163 Using membrane-inlet mass spectrometry we demonstrate that acts as a mo

164 Using membrane inlet mass spectrometry, (18)O2 isotope, and various inh

165 mbrane contractors (gas-equilibrium membrane-inlet mass spectrometry, GE-MIMS).

166 compared to 3 m from the building wall (free inlet) (mean 1.5 +/- 0.4 ng/m(3)).

167 eviously reported matrix assisted ionization inlet method, with MAIV, heating the inlet is not necess

168 bined with MS) and compact portable membrane inlet MS (MIMS) have been employed for the first time to

169 d a microstructure examination under various inlet nutrient concentration levels.

170 version distribution were cryotrapped at the inlet of a (4)D column, on which achiral separation allo

171 gnificant enrichment of H(+) occurs near the inlet of a charged solid-state nanopore, appreciably red

172 the radially spread pulses of ions into the inlet of a commercial MS platform (Micromass QToF2).

173 esses, the location being close to the water inlet of a drinking water supply company and their possi

174 -phase microextraction (SPME) fiber, and the inlet of a high-resolution mass spectrometer is describe

175 an ion-selective electrode installed at the inlet of a sewage treatment plant, showed a distinctive

176 The reduced pressure at the inlet of an atmospheric pressure ionization mass spectro

177 tly form a spray that is directed toward the inlet of an ion-trap mass spectrometer.

178 the laser of the Raman spectroscope and the inlet of mass spectrometer.

179 ed urine samples were then introduced to the inlet of paper microfluidic channel, which flowed throug

180 rce and square wave force are applied at the inlet of the channel.

181 anism-containing wastewater is added into an inlet of the closed battery stack and it is transported

182 on of two independent droplet streams at the inlet of the Hele-Shaw channel from unfused daughter dro

183 to the inlet of the mass spectrometer used for analysis.

184 ies, ejected droplets are aspirated into the inlet of the mass spectrometer, resulting in the facile

185 nization source and the atmospheric pressure inlet of the mass spectrometer, the aerosol is exposed t

186 r beam aligned with the atmospheric pressure inlet of the mass spectrometer.

187 to lead to polymer membrane formation at the inlet of the micropipes thanks to capillarity.

188 directly connected to the extended capillary inlet of the MS, high ion transfer efficiency to the vac

189 were observed with distance from the center inlet of the reactor in all experiments.

190 mated from flow and pressure measured at the inlet of the tracheal tube and expressed as resistance (

191 n pumping yellow and blue solutions into the inlets of a Y-shaped device, and measuring the extent of

192 as abnormal bird mortality started near air inlets of the infected houses.

193 inor fully reversible reconfiguration of gas-inlets of the ion source.

194 f moisture expected with the use of membrane inlets or headspace sampling of surface or ground waters

195 n once the ions reach the vicinity of the MS inlet orifice.

196 parallel concentrators connected to a single inlet/outlet and applying it to parallel concentration a

197 patterns directly on glass, the drilling of inlet/outlet ports in glass covers, and the bonding of t

198 topia in the cervical esophagus, also termed inlet patch (IP), varies substantially, ranging from 0.1

199 osest to the c-ring probably line the proton inlet path to an essential carboxyl group in the c-subun

200 w during transition the energy norms of such inlet perturbations grow exponentially rather than algeb

201 ative to VJM, HS-2, and HS-10 with symmetric inlet ports, especially when the secondary liquid flow r

202 muaq) at high ratios of aqueous-inlet to oil-inlet pressure (AIP/OIP), yielding a linear relationship

203 Effects of filtration coefficient, the inlet pressure and Jeffrey fluid parameters on the flow

204 chieve arbitrary patterns by controlling the inlet pressure of the actuating fluid.

205 methanol and water, and operated under high inlet pressure using the retention time method.

206 BRICA as functions of augmenting vacuum (air inlet) pressure, perfusion (volumetric flow) rate, and t

207 eric solid analysis probe (ASAP), and direct inlet probe-atmospheric pressure chemical ionization (DI

208 and flips the epiglottis over the laryngeal inlet, protecting against penetration and aspiration of

209 EMT, BT, and TM with asymmetric inlets provided better mixing performances relative to V

210 This inlet provides extremely rapid mass detection as well as

211 distance of 7 +/- 1 mm to the spectrometer's inlet, providing estimates for the free volume in LD-Fmu

212 rganic nitrogen (SPIN) coupled to a membrane inlet quadrupole mass spectrometer (MIMS) was developed

213 led substrates combined with online membrane inlet quadrupole mass spectrometry (MIMS).

214 enter the mass spectrometer through a heated inlet, rapid vaporization leads to the formation of mole

215 e continuously injected through two separate inlets, resulting in transverse-mixing induced precipita

216 sing multiplexed solvent assisted ionization inlet (SAII) mass spectrometry (MS).

217 By further miniaturizing the probe inlet, sampling with 200 ms resolution at 30 nL/min (pul

218 areas are at risk from human intervention by inlet sand mining, construction of groins and jetties th

219 ithin a 400-m stretch of natural, unmodified inlet shoreline).

220 from flats, and installation of seawalls on inlet shorelines that induce erosion of flats.

221 lectrophoresis platform composed of a single-inlet, single-outlet microchannel powered solely by volt

222 including in those experiments in which the inlet solution was first filtered via 0.45 mum.

223 ery from experiments using 0.45 mum filtered inlet solutions was only about 0.1%, and colloids of >0.

224 line tidal creek in the estuary at Murrell's Inlet, South Carolina and characterized with respect to

225 fluxes of THg and MeHg have decreased in the inlet stream and lake water apparently in response to de

226 The isotopic fingerprint of GEM at the wall inlet suggests that GEM emission from the aluminum build

227 Despite filtering office inlet supplies to remove outdoor particles, gas-phase pr

228 sampling and analysis, consists of a dynamic inlet system coupled with a fast, miniaturized gas chrom

229 ty spectrometry (CD-IMS) with a novel sample inlet system was designed and constructed as a detector

230 In this work, a multichannel pulsed-valve inlet system was developed for the rapid consecutive int

231 ies due to the aerodynamic particle focusing inlet system which reduces the gas phase species by a fa

232 itored mass spectrometrically via a membrane inlet system, and formaldehyde and formic acid were dete

233 In combination with an optimized inlet system, the high time and mass resolution of PTR-T

234 ontinuous flow apparatus or through a pulsed inlet system.

235 patible with a wide range of chromatographic inlet systems, performs with an average, absolute bias o

236 ial source of biogenic emissions near to air inlet systems.

237 Due to the high flow rate and different inlets, TAPI data were systematically lower than the UNR

238 ot water, 40% ethanol, C18 purified), drying inlet temperature (130, 150, 170 degrees C) and amount o

239 tation of the thermometer ion using DAII was inlet temperature dependent and similar in magnitude to

240 However, higher inlet temperature is required for high-mass analytes, fo

241 c/maltodextrin (GA/MD) at 1/5 (w/w), and air inlet temperature of 184 degrees C.

242 gth or width of a channel by mismatching the inlet temperature of the tubes.

243 n be produced by modulating the flow rate or inlet temperature of the water passing through the tubes

244 Laser ablation from vacuum requires lower inlet temperature relative to laser ablation at atmosphe

245 sodium nitrate (NaNO(3)) was observed at the inlet temperature used for complete dissociation of HNO(

246 treated by UHPH (300 MPa and 75 degrees C of inlet temperature) were studied in comparison to UHT-ste

247 The pigment matrix, inlet temperature, and carrier amount had biggest impact

248 equency, atmospheric pressure (AP) to vacuum inlet temperature, and mass analyzer ion trap conditions

249 es C) and treated at 300 MPa at 80 degrees C inlet temperature.

250 s continuously processed by UHPH at 300 MPa (inlet temperature: 23-25 degrees C).

251 ilk was treated at 200 MPa combined with two inlet temperatures (55 or 75 degrees C) and treated at 3

252 00 and 300 MPa in combination with different inlet temperatures (Tin) (55, 65 and 75 degrees C) on th

253 tivity similar to that of ESI but, at higher inlet temperatures, appears to have the attributes of bo

254 n was addressed by using a novel slot shaped inlet that exhibited desolvation properties identical to

255 At the inlet, the M-values for all particle sizes in blood were

256 erse, posterior sagittal diameters of pelvic inlet, the plane of greatest diameter, the plane of leas

257 orbed onto the solid surface near the column inlet, thereby preventing QD attachment, whereas in the

258 s channel whereby solution is pulled from an inlet, through a channel, and into the steadily increasi

259 central channel of the h-FAPA is used as the inlet to a mass spectrometer.

260 g two different distances from the capillary inlet to a single detector.

261 e viscosity (muaq) at high ratios of aqueous-inlet to oil-inlet pressure (AIP/OIP), yielding a linear

262 ally the Deans' switch is used to switch one inlet to one of two outlets, by means of two auxiliary f

263 distance between the emitter and the heated inlet to the mass spectrometer and the voltage applied t

264 drophobic membrane, which also serves as the inlet to the mass spectrometer.

265 ways decreased with distance from the stream inlet to the swamp.

266 arallel detection channels and heated quartz inlets to convert particulate organic nitrate (pON) (at

267 -filled pipette tips as fluid columns at the inlets, to introduce low speed flows to the flow focusin

268 lter filled with EAF-slag removed 37% of the inlet total P, whereas the filter filled with BOF-slag r

269 lter filled with BOF-slag removed 62% of the inlet total P.

270 spectrometer coupled with a heated flow tube inlet (TPD-CIMS) with kinetic model calculations.

271 sterior including three conjugates of pelvic inlet, transverse, posterior sagittal diameters of pelvi

272 harge separation in solution, and the hot MS inlet tube and the high velocity of gas through the tube

273 n of volatile or nonvolatile analyte into an inlet tube cooled with dry ice linking atmospheric press

274 Mass spectrometers in which a heated inlet tube is not available can be used for ionization u

275 olution is directly introduced into a heated inlet tube linking atmospheric pressure and the initial

276 lary, used with SAII, inserted into a heated inlet tube of an Orbitrap Exactive mass spectrometer (MS

277 At a low inlet tube temperature, ESII has an ionization selectivi

278 inlet aperture of a heated mass spectrometer inlet tube.

279 observed by heating rather than cooling the inlet tube.

280 nities, NPs tend to accumulate mostly at the inlet tumor vessels leaving the inner and outer vasculat

281 oxetic acid-enhanced MR images with the dual-inlet two-compartment uptake model presents a new and pr

282 de the entire torch, i.e., from the injector inlet up to the ionization and reaching the sampler.

283 The most common inlets-used to connect the microfluidic chip to pumps, t

284 The new inlet using center-sampling through a critical orifice r

285 This suction opens the inlet valve and is required for filling in the presence

286 transient drop in pressure downstream of the inlet valve following contraction.

287 Regardless of inlet VAM concentrations, methane was captured at almost

288 without sinusoidal fluctuations between the inlet velocities.

289 nd fluid flow that entered through a central inlet vessel, branched into an extensive capillary bed,

290 though prior to Hurricane Sandy in 2012, no inlet was present in the eastern bay in almost 200 years

291 ould be explained by the geochemistry of the inlet water.

292 /- 0.10 per mille, 1 SD, n = 16) at the wall inlet were different from ambient GEM delta(202)Hg (0.76

293 The most relevant parameters of a multimode inlet were optimized to increase the injection volume up

294 rent types of electrospray ionization source inlets were converted to LSIV sources by equipping the e

295 d use), as well as increased time in coastal inlets, were important determinants of increased PCB con

296 urfaces, which were most pronounced near the inlet where larger diffusive boundary layers formed arou

297 ly caused by the hydrodynamics at the column inlet which produced a concentrated AgNP flux to the sol

298 of cephalopelvic mismatch possess a rounder inlet, which is beneficial for obstetrics.

299 through the combination of a customized F-TD inlet with chemical ionization mass spectrometry (CIMS)

300 he DART ion source and the mass spectrometer inlet, with the entire observed mass spectral fingerprin