ライフサイエンスコーパス: low-pressure

1 channels, which absorb CO2 and I2 vapors at low pressure.

2 ored while allowing fluid flow at reasonable low pressure.

3 ely leaves CO(2) trapped in the nanopores at low pressure.

4 adsorb significant amounts of CO(2) even at low pressure.

5 sult in good bonding at low temperatures and low pressure.

6 hock front, with values up to twice those at low pressure.

7 icrom-diameter orifice into an inlet held at low pressure.

8 s were significantly larger when grown under low pressure.

9 tive removal of textile dyes from water at a low pressure.

10 for a wide variety of reactors, typically at low pressure.

11 ar-infrared cavity ring-down spectroscopy at low pressure.

12 duction devices are required that operate at low pressures.

13 e of 5.7 wt % at 45 bar with a steep rise at low pressures.

14 lete dissociation of the baroreflex limbs at low pressures.

15 coupling of catalytic and thermal action at low pressures.

16 but also at relatively high temperatures and low pressures.

17 ) copolymers that readily dissolve in CO2 at low pressures.

18 pressures to a hyperbranched polyethylene at low pressures.

19 78 to 1.33; P=0.89), and for low versus very low pressure, 0.93 (95% CI, 0.71 to 1.23; P=0.62).

20 d out at low temperature (100 degrees C) and low pressure (1 atm).

21 howing, that as the temperature is raised at low pressure (1 x 10(-10) mbar), so the rate-determining

22 s significant CO adsorption capacity at very low pressures (1.45 mmol/g at just 100 mubar), but, impo

23 20 psi], low pressure [5 to 10 psi], or very low pressure [1 to 2 psi]) and one of two irrigation sol

24 0.70 to 1.20; P=0.53), for high versus very low pressure, 1.02 (95% CI, 0.78 to 1.33; P=0.89), and f

25 of secondary alkyl bromides that proceeds at low pressure (2 atm CO) under mild conditions.

26 (1) minor sorption effects in micropores at low pressures; (2) capillary condensation followed by we

27 grown hypobarically to assess the effects of low pressure (21-24 kilopascals) on growth and mitochond

28 kinetics allows for efficient adsorption at low pressure (3.15 mmol/g at 480 ppm).

29 (92%) at high catalyst loading (1 mol %) and low pressure (30 psi).

30 rigation pressures (high pressure [>20 psi], low pressure [5 to 10 psi], or very low pressure [1 to 2

31 conditions of low temperature (0 degrees C), low pressure (7 mbar), and a CO(2)-enriched anoxic atmos

32 formed with small amounts of analytes and at low pressure, 80-130 atm, typically below the range of o

33 By permeating (at low pressure) a solution containing a model organic cont

34 ntal noise at low temperatures and extremely low pressures (about ten-thousandth of a pico-Torr).

35 Fundamental insight into how low pressure adsorption properties are affected by chemi

36 -level insight into interesting experimental low pressure adsorption trends in a series of pillared M

37 This prompted us to examine low-pressure adsorption isotherms for a wide range of sa

38 Low-pressure adsorption of carbon dioxide and nitrogen w

39 ependent method, allowed us to conclude that low-pressure adsorption was appreciably stronger for sam

40 dynamic diameter in instruments that utilize low-pressure aerodynamic lens inlets is to dry the parti

41 ional groups induce the greatest increase in low pressure affinity through polarization of the CO2 mo

42 ined directly from drift times measured in a low-pressure, ambient temperature drift cell with radio-

43 measured for the 20 common amino acids using low-pressure, ambient-temperature ion mobility experimen

44 tribution, application of these materials to low-pressure ammonia adsorption, and comparison with ana

45 This catalytic process proceeds under low pressure and mild conditions using a simple cobalt c

46 ification of Ung and Ndk through multicolumn low pressure and nickel-nitrilotriacetic acid affinity c

47 A 2CH4:3H2 inclusion compound forms at low pressure and remains stable up to 215 GPa.

48 tly lower than that of amorphous alpha-CD at low pressure and short time (0.4-0.8 MPa and 4-24 h), bu

49 hydrogenation of unsaturated hydrocarbons at low pressure and temperature.

50 ated to exhibit exceptional uptake of CO2 at low pressures and ambient temperature.

51 ion (ANG) in porous materials, at relatively low pressures and ambient temperatures, as a solution to

52 content, while the mass density increases at low pressures and decreases at high pressures.

53 range from (248.15 to 273.15) K starting at low pressures and increasing in pressure towards the dew

54 these signals has a sigmoidal dependency at low pressures and maximized at 0.1 atm C(2)H(2) with a s

55 high temperatures (~1100-1200 degrees C) and low pressures and readily disproportionates or polymeriz

56 H(2)O:H(2) ratio (2:1) as the C(0) phase at low pressures and similar enthalpy (we name this phase I

57 over, the implementation of external lasers, low pressures and/or low temperatures prevents miniaturi

58 dans) were all capable of growth under cold, low-pressure, anoxic conditions, thus extending the low-

59 At low temperatures, the low-pressure antiferromagnetic phases below 8 GPa where

60 plexed and requires only voltage control and low pressures (approximately 15 psi) for operation.

61 (2) adsorption in MOFs at high pressures and low pressures are summarized to be pore volumes of MOFs,

62 entify the superfluid phase closest to Tc at low pressure as the polar state, a phase that is not see

63 s of rotational atherectomy (RA) followed by low-pressure balloon dilatation (percutaneous translumin

64 In all vessels, low-pressure balloon dilation to 8 atm was performed, an

65 In these patients, 72 vessels responded to low-pressure balloon dilation.

66 pulmonary artery stenosis not responsive to low-pressure balloon is more effective than HPB therapy

67 Here we report a low-pressure bead packing technique for the robust integ

68 orted polymeric nitrogen solid, including at low pressure (below 20 GPa).

69 licity of the compounds can be maintained at low pressure, below about 100 GPa in Fe2MnAl and 50 GPa

70 s treated with Ag NPs were collected using a low pressure Berner impactor and analyzed with total ref

71 r the removal of hydrogen sulfide (H2S) from low pressure biogas, the need arose to broaden the opera

72 ndolizidines can be prepared selectively, at low pressure, by simply adjusting the acidity of the med

73 air is used as the chamber gas, and further, low pressure can improve growth under conditions of poor

74 have limitations such as costly consumables, low pressure capabilities, limited pressure monitoring,

75 We attribute the fact that at low pressures carbamic acid is the dominating species in

76 epresentative of an intermediate between the low-pressure carbonates and the predicted ultra-high pre

77 ze-selected Cu4 clusters are the most active low-pressure catalyst for catalytic CO2 conversion to CH

78 ported, and in the second step, a relatively low-pressure catalytic hydrogenation (50 psi of hydrogen

79 Striking differences between IRMPD in the low pressure cell and CID in the high pressure cell were

80 t nominally 5 x 10(-3) Torr and the second a low pressure cell operated at nominally 3 x 10(-4) Torr.

81 gnificant photodissociation; however, in the low pressure cell peptide cations were efficiently disso

82 ns could be resolved by mass analysis in the low pressure cell that enabled effective top down protei

83 hoton dissociation (IRMPD) activation in the low-pressure cell.

84 sub-monolayer h-BN film on wound Cu foil by low pressure chemical vapor deposition (LPCVD) method.

85 Monolayer SCG flakes were derived from low pressure chemical vapor deposition (LPCVD) method.

86 , counter and reference electrodes) grown by low pressure chemical vapor deposition (LPCVD) system wi

87 ions of up to 0.5 mm on a side were grown by low-pressure chemical vapor deposition in copper-foil en

88 k, an analytical flow system able to perform low pressure chromatography with amperometric detection

89 sequences from nonbinding sequences using a low-pressure chromatography system and salt gradient elu

90 esent a systematic approach to understanding low pressure CO2 affinity in isostructural metal-organic

91 onal groups result in little increase to the low pressure CO2 affinity.

92 Modest warming could be provided by even a low-pressure CO2 atmosphere if it was supplemented with

93 ite to those obtained under high-temperature/low-pressure conditions (-64% enantiomeric excess versus

94 wintertime feature characterized by frequent low-pressure conditions that is influenced by tropical P

95 T2) either reduced to 15 cm H2O in the three low-pressure control groups (Cx) or increased to 25 cm H

96 -13) A level, changes in resistivity at very low pressure could be monitored.

97 n advantage in these studies compared to its low-pressure counterpart, owing to soft introduction of

98 Eight high-volume low-pressure cuffs of cylindrical or tapered shape, made

99 The high-volume low-pressure cuffs' outer diameter, length, material, an

100 artitioning, than estimated by extrapolating low-pressure data, and thus change the understanding of

101 -end expiratory pressure and reduced time at low pressure (decreased T(low)) reduced alveolar microst

102 and their impact on surface fO2 We show that low-pressure degassing resulted in reduction of the fO2

103 Using a constant low-pressure delivery system, the new microfilter platfo

104 step towards the development of small-scale low-pressure devices for CO2 reduction to methanol.

105 While the low-pressure devices rely on planar or tubular membranes

106 s a critical role in the low temperature and low pressure diamond formation.

107 esented here includes sulfur conversion in a low-pressure discharge cell and laser-induced fluorescen

108 (CSA) of the relaxed EGJ was measured during low-pressure distention using a modified barostat techni

109 A normal urinary bladder stores urine at low pressure, does not leak, and empties completely by n

110 In addition to ion separation, the low-pressure drift tube can be used as an ion fragmentat

111 A new instrument that couples a low-pressure drift tube with a linear ion trap mass spec

112 damental ion-molecule chemistry occurring in low-pressure drift tubes is needed to exploit selectivit

113 um thickness and 50 mm thickness would offer low pressure drop and efficient carbon capture performan

114 tion efficiency (mass- and number-based) and low pressure drop requirements for gasoline particulate

115 2))] and are thermodynamically reversible at low pressures due to low vibrational entropies of the pr

116 , 10%], the more time the lung is exposed to low pressure during the release phase, which decreases e

117 By comparison, reducing the time at low pressure (EEFR to PEFR ratio of 75%) in the APRV gro

118 Type II low-pressure endoleaks (n = 37) showed a 5.4% (95% CI: 4

119 undergo intubation with 1 of 2 high-volume, low-pressure endotracheal tubes, similar except for a si

120 However, how clathrate hydrates can form in low-pressure environments, such as in cold interstellar

121 passive evaporation, air-vented evaporation, low pressure evaporation, distillation).

122 We developed a clean, low-pressure evaporation/sublimation system to remove wa

123 relative time scales of high-pressure versus low-pressure events.

124 ssure, anoxic conditions, thus extending the low-pressure extreme at which life can function.

125 na Test Dust (ATD) were investigated using a low pressure flow reactor (1 - 10 Torr) combined with a

126 for the postcombustion capture of CO(2) from low-pressure flue gas streams.

127 ith high efficiency and transmitting them to low pressures for increased sensitivity in mass spectrom

128 ion channels to proceed simultaneously under low-pressure FVP conditions.

129 ed (QTCC) batteries are nonconductive in the low-pressure gastrointestinal environment yet conduct wi

130 It was inferred that the low pressure generated inside the oven during the vacuum

131 d perfluorinated halides at 40 degrees C, in low-pressure glass tubes and in a variety of solvents, i

132 Low-pressure Glaucoma Treatment Study patients with >/=5

133 Low-Pressure Glaucoma Treatment Study patients with at l

134 In this cohort of Low-Pressure Glaucoma Treatment Study patients, migraine

135 ECENT FINDINGS: One of the major findings of Low-Pressure Glaucoma Treatment study was that patients

136 sk for reaching a progression outcome in the Low-pressure Glaucoma Treatment Study.

137 ith WDR36 role in etiology of both high- and low-pressure glaucoma.

138 subjects, 11 with high-pressure and six with low-pressure glaucoma.

139 gh-pressure group, 103 of 809 (12.7%) in the low-pressure group, and 111 of 812 (13.7%) in the very-l

140 re group, and 111 of 812 (13.7%) in the very-low-pressure group.

141 Low-pressure H2 adsorption and neutron powder diffractio

142 In conclusion, a 40-day series of 80 low-pressure HBOTs caused an increase in contused hippoc

143 he terms intracranial hypotension, CSF leak, low pressure headache, and CSF hypovolemia.

144 e necessary to avoid rhinorrhea or otorrhea, low-pressure headaches, and meningitis, known complicati

145 andium(III) oxide in an electric arc under a low pressure helium atmosphere with an added flow of air

146 The low-pressure high-temperature homoepitaxial growth of se

147 ulk modulus and bulk sound velocity than the low-pressure, high-spin state; the bulk modulus jumps by

148 Tridymite, a low-pressure, high-temperature (>870 degrees C) SiO2 pol

149 This low-pressure/high-temperature (LPHT) annealing enhances

150 within the wall of an inflated high-volume, low-pressure (HVLP) cuff.

151 Low-pressure hydrodynamic flow during CZE allowed for fl

152 atic brain injury to evaluate the ability of low-pressure hyperbaric oxygen therapy (HBOT) to improve

153 fically to hepatocytes in vivo after simple, low-pressure i.v. injection.

154 The slope dQs/dPj at low pressures, i.e. below yield pressure, represents the

155 Ice 0 controls the homogeneous nucleation of low-pressure ices, acting as a precursor to crystallizat

156 MS exhibits advantages over the conventional low pressure ID-CIMS and flow tube AP-CIMS, improving th

157 e conventional technique, namely, Electrical Low Pressure Impaction (ELPI) for 4000 shots.

158 dition, particles were collected on a Berner low pressure impactor (BLPI) for elemental analysis usin

159 last two stages of a single-jet eight-stage low-pressure impactor for periods of a few minutes.

160 ons in size ranges roughly equivalent to the low-pressure impactor stages were measured with a mobili

161 omparable to existing commercially available low pressure IMS platforms and an ion mobility peak capa

162 microporous supports and then cultured under low pressure in the presence or absence of RTA.

163 nished growth at ambient pressure, growth at low pressure in the same oxygen concentration was enhanc

164 al simplicity is a direct consequence of the low pressures in circumstellar outflows and the correspo

165 Low-pressure injections (approximately 50 mbar) are comm

166 r variations in persistent, quasi-stationary low-pressure intrusions into the subtropics of the CNP,

167 pressure, a finding that indicates that very low pressure is an acceptable, low-cost alternative for

168 pment and growth of mungbean seedlings under low pressure is unimpaired whether oxygen or air is used

169 walls increases the heat of H2 adsorption at low pressure, it may be detrimental to the overall adsor

170 .5 (mean +/- S.E.M.) over the conductance at low pressures (just above atmospheric pressure).

171 pore throat size, which is overestimated by low-pressure laboratory tests.

172 The crude extract was first separated by low pressure liquid chromatography (LPLC) and then furth

173 ocation motion, which was first measured for low pressure, low strain rate conditions decades ago.

174 g desalination technology, which operates at low pressure, low temperature, requires little infrastru

175 of major organs are observed from long-term, low-pressure, low-volume tail-vein administrations.

176 ts demonstrated resistance to monochromatic, low-pressure (LP) UV irradiation at 254 nm.

177 le pneumatic valving system that operates at low pressures (< 10 psi).

178 At low pressures (<10 psi), elevated indicator bacteria wer

179 hows a significant positive volume change at low pressures (<200 bar) suggesting the presence of a hi

180 rporeal membrane oxygenation support permits low pressure lung ventilation, avoiding barotrauma to lu

181 The low-volume, low-pressure (LVLP) cuff does not have these folds yet a

182 Low-viscosity formulations permit low-pressure matrix injection (40 psi) and a turnaround

183 isions in the interstellar medium although a low-pressure mechanism of formation cannot be ruled out.

184 ar regulatory regions is affected by loading low pressure mechanoreceptors at the SVC-RAJ, a manipula

185 ge in Pacific plate motion exposes high- and low-pressure melt products as geographically distinct vo

186 e melt reacts with peridotite, dominates the low-pressure melt region beneath Loa-track volcanism, yi

187 eads to lateral separation between high- and low-pressure melt source regions; second, the recent azi

188 We predict the correct low-pressure melting T, and at high-pressure we show tha

189 anic matter (NOM) is an important foulant to low-pressure membranes (LPMs) employed in drinking water

190 consisting of a knitted reaction coil and a low-pressure mercury lamp.

191 green fluorescent protein (GFP) reporter and low-pressure microprojectile bombardment were used to qu

192 ds eluting from GC are converted to HBr in a low-pressure microwave induced helium plasma with trace

193 n inexpensive dry etch technology based on a low-pressure microwave plasma generated in a countertop

194 , with its intrinsic myogenic tone, from the low-pressure, minimally pulsatile flow of the venous sys

195 d separation and efficient ion collection at low pressure minimize losses in the FAIMS step.

196 A computer-controlled low-pressure mixer was used to generate solvent gradient

197 cation % (a metastable phase) were grown by low-pressure MOCVD.

198 ), small angle neutron scattering (SANS) and low-pressure N2 adsorption techniques.

199 tion of small angle X-ray scattering (SAXS), low-pressure N2 and CO2 adsorption (LPGA) and high-press

200 on of small-angle neutron scattering (SANS), low-pressure N2 physisorption (LPNP), and mercury inject

201 The examination of low-pressure nitrogen adsorption isotherms for FDU-1 sam

202 Low-pressure nitrogen gas was then purged through the se

203 The reaction is high-yielding under a low pressure of ethylene, and regioselectivity is genera

204 Low pressures of both helium and xenon were effective ne

205 erall process is efficient and only requires low pressures of hydrogen gas (5 bar).

206 efficiency of our DKR was optimized by using low pressures of hydrogen gas to decrease the rate of hy

207 The reaction of NO-Fe(TPP) with low pressures of NO gas proceeds through three distinct

208 independently from each other while exerting low pressure on the surface.

209 closed vascular network and lymph through a low-pressure, open vascular network.

210 and sample capacity of buffer exchange under low-pressure operation (40 psi), parameters such as the

211 e helium nanodroplets as they pass through a low pressure oven.

212 eading to anomalous cyclonic circulation and low pressure over the WTP region.

213 gative control group and was ventilated with low pressures (peak inspiratory pressure = 12 cm H2O, ra

214 easing overlap of the 1pi(g)* orbital in the low-pressure phases, leading to electron delocalization

215 the enigmatic relationship between these two low-pressure phases, we examined their formation on a Pt

216 result is that the MIF for O3 formation is a low-pressure phenomenon and, moreover, that it decreases

217 Low-pressure plasma also increased gamma-aminobutyric ac

218 Treatment of brown rice in low-pressure plasma increases the germination percentage

219 he main finding of this study indicates that low-pressure plasma is effective at enhancing the growth

220 Brown rice was exposed to low-pressure plasma ranging from 1 to 3kV for 10min.

221 lattices can be tailored through exposure to low-pressure plasma.

222 mat for on-line size exclusion processing in low-pressure, portable microfluidic devices.

223 0% loss of hydraulic conductivity), seasonal low pressure potential (P(min)), xylem conductive effici

224 r with other useful chemicals, in a one-step low-pressure process.

225 during frying which could be affected during low-pressure processing.

226 otungstic acid) that enables the coupling of low-pressure production of oxygen via water oxidation to

227 t clear if they can switch between high- and low-pressure protrusions like primary fibroblasts.

228 n of silica supported amine materials in the low pressure range (0-0.1 bar) is critical for understan

229 cy of these afferents was saturated within a low pressure range of distension.

230 d the adsorption equilibrium constant in the low-pressure range.

231 of (CH3)2COO with SO2, suggesting the use of low pressure rate may underestimate the impact of this r

232 The results indicate that, even in the low pressure regime (100 mTorr to 3 Torr), water molecul

233 rom approximately 5 to 20, especially in the low-pressure regime.

234 Poststenotic dilatation (PSD) occurs in a low-pressure region where recirculation eddies oscillate

235 steepness of the adsorption isotherm in the low-pressure region.

236 (downwelling zones) and out of bed forms in low-pressure regions (upwelling zones).

237 at high pressures can be extrapolated to the low-pressure regions and vice versa for solid materials.

238 This distinction is manifested in dominant low-pressure regions generated in the fluid surrounding

239 ase treatment the slope d 8d s/dPj, which at low pressures represents synovial hydraulic conductance,

240 The low pressure required for IRMPD (< or = 10(-5) Torr) is

241 change the abnormal bladder into a continent low-pressure reservoir.

242 siness, which result in quite high and quite low pressures, respectively.

243 concentrated by ultrafiltration followed by low-pressure reverse-phase chromatography and purified b

244 Our results demonstrate a potential of low pressure-room temperature synthesis of superhard mat

245 n subjected to high-energy collisions in the low-pressure S-Q region to cleave strong backbone bonds.

246 This leads to a low-pressure selectivity for this material that increase

247 The combination of the low-pressure separation with the ion trapping capabiliti

248 the displacement of the pit membrane to the low pressure side of the pit chamber, was found to be po

249 sts multiple solid inclusions containing the low-pressure silica polymorph cristobalite along with al

250 e pressure by SIFSIX-1-Cu, and unprecedented low-pressure SO2 capacity is obtained in SIFSIX-2-Cu-i (

251 lhalide (MH), high pressure sodium (HPS), or low pressure sodium (LPS) lamps reached maturity in 70 d

252 lative to sphalerite below 1020 degrees C at low pressure, sphalerite transforms to wurtzite at 225 d

253 In the low-pressure spin-singlet regime, the onset of magnetism

254 MD fractions were prepared in a series of low-pressure stages where rosemary essential oil was the

255 Low-pressure sterile reflux into previously normal kidne

256 e; pressure support ventilation 5-12 cm H2O (low pressure support ventilation); pressure support vent

257 ressure support ventilation, -1.5% (10.9) at low pressure support ventilation, +2.3% (9.5) during spo

258 f the circumpolar vortex and of the Aleutian Low-pressure system, supporting the hypothesized PNA lin

259 erved to disappear from surface waters after low-pressure systems affected the area.

260 Because no ionospheric response to low-pressure systems without lightning is detected, we c

261 ere analyzed: low flow (LF, n=21), high flow/low pressure (systolic pulmonary pressure/systemic press

262 ing durations of expiratory release (time at low pressure [T(low)]) were tested.

263 ing of the higher density amorphous solid at low pressures takes place in steps, transitioning to the

264 exceptional capacity for CO(2) adsorption at low pressures, taking up 2.0 mmol/g (8.1 wt %) at 0.39 m

265 umin excretion was reduced by 3.77% with the low-pressure target and increased by 2.43% with the stan

266 DOCO and OD species, we observed unambiguous low-pressure termolecular dependence of the reaction rat

267 nversely to alter Ca(2+) event frequency; at low pressures the consequence is activation of EC IK(Ca)

268 At low pressures, the oligomer without added Mg(2+) only pa

269 ibit substantially different reactivity than low-pressure threefold coordinated carbonates, as well a

270 anical gear pump was used to pump solvent at low pressure through a circular orifice.

271 results in a material that can uptake CO2 at low pressures through a chemisorption mechanism.

272 ominated by hydroxyls and water molecules at low pressure to extended structures at high pressure.

273 ared multiphoton dissociation (IRMPD) in the low-pressure trap of a dual-cell quadrupole linear ion t

274 a Synapt G2 HDMS system which incorporates a low pressure traveling wave ion mobility separator.

275 ow that wild-type animals are insensitive to low-pressure ultrasound and require gas-filled microbubb

276 Here, we demonstrate the use of low-pressure ultrasound as a non-invasive trigger to act

277 yl-3-methylbenzamide (DEET) and caffeine, by low pressure ultraviolet (UV) light and simulated sunlig

278 m chamber during laboratory experiments, the low pressure under which they sublime (10(-9) mbar), and

279 Our results show that at low pressures up to 15 GPa, the carbon dioxide speciatio

280 At low pressure (up to a few gigapascals) the solubility of

281 A low pressure (up to around 10 torr) of a gas can be acco

282 iagnosis, which continues to be defined by a low pressure urethra.

283 medium pressure UV (MPUV) and monochromatic low pressure UV (LPUV) disinfection technologies.

284 3/H2O2, powdered activated carbon (PAC), and low pressure UV light with and without TiO2 was operated

285 ither the shape of the relationship, nor the low-pressure value at which flow regulation was substant

286 At low pressures (well below the onset of unfolding) the pr

287 ive stress, and all cells lyse at relatively low pressure when grown in confinement.

288 tilated with a progressively shorter time at low pressure, which increased the ratio of the end-expir

289 n of pressure, enabling the device to detect low pressures with ultra-high sensitivity.

290 ds can be distilled at 200-300 degrees C and low pressure, with concomitant recovery of significant a

291 that many ionic liquids can be distilled at low pressure without decomposition.

292 pressure-driven lithospheric flow in which a low-pressure zone is equivalent to the suction of convec