ライフサイエンスコーパス: high pressure

1 cal conditions of high or low temperature or high pressure.

2 ong been used as a method to study solids at high pressure.

3 H distances are possible for materials under high pressure.

4 na via magnetoresistivity measurements under high pressure.

5 uch as high temperature (>200 degrees C) and high pressure.

6 irmed" antiferromagnetic structure under the high pressure.

7 saltic glasses and iron-rich alloys, even at high pressure.

8 n and phase transformation of p-xylene under high pressure.

9 e possibility of synthesizing graphane under high pressure.

10 loyed to interrogate the material in situ at high pressure.

11 lification by reversible exchange (SABRE) at high pressures.

12 sieving must be replaced for each run using high pressures.

13 itions in ABX(3) systems (e.g., MgSiO(3)) at high pressures.

14 rides by a direct reaction of Ce and H(2) at high pressures.

15 t replicates the effect of strain created by high pressures.

16 can differ substantially, they are all under high pressures.

17 mic arrangement of silicate liquids at these high pressures.

18 High-pressure (1.1-15.5 MPa) column and batch experiment

19 High pressures (120 and 240 MPa) and added ethanol resul

20 tory pressure-high driving pressure); and 3) high pressure 17 cm H2O and low pressure 5 cm H2O (low p

21 (space group: R3m), previously stabilized at high pressure (2 GPa) and high temperature (1600 K), is

22 sult from a high degree of mantle melting at high pressures(2) and thus are excellent probes of the c

23 f the following three experimental steps: 1) high pressure 24 cm H2O and low pressure 20 cm H2O (very

24 tory pressure-very low driving pressure); 2) high pressure 24 cm H2O and low pressure 5 cm H2O (low p

25 s has been reported in several systems under high pressure(3-5).

26 high temperatures (up to 150 degrees C) and high pressure (70 MPa).

27 dynamic simulation, we discovered that under high pressure, acetylene molecules react along a specifi

28 The application of high pressure allows control over the unit cell and inte

29 Remarkably, at such an ultra-high pressure, although the ambient pressure volume is s

30 way pressure mode with 1 second of 24 cm H2O high pressure and 2 seconds of 12 cm H2O low pressure fo

31 The high pressure and flow rate in AF4 were reduced to the l

32 ase of CaO(3) by reaction of CaO and O(2) at high pressure and high temperature conditions; ensuing e

33 k ZIF-4, Zn(imidazolate)(2), at simultaneous high pressure and high temperature, up to 8 GPa and 600

34 usly unsuspected transition in molybdenum at high pressure and high temperature, which yields highly

35 We investigated the impact of high pressure and high-temperature annealing on lithium-

36 ed by the brittle Si nanolayer can withstand high pressure and maintain its porous architecture durin

37 se findings unravel the ozonide chemistry at high pressure and offer insights for elucidating promine

38 CH stoichiometry synthesized from benzene at high pressure and room temperature by slow solid-state p

39 he results showed that the selected factors (high pressure and solvent mixture) have a significant in

40 dividual and interactive effect of operating high pressure and solvent polarity (solvent mixture) on

41 beta-GeSe is made at high pressure and temperature and is stable under ambien

42 rface oxides form only when Pt is exposed to high pressure and temperature, highlighting the need to

43 tter in [Formula: see text]O-rich setting at high pressures and temperatures ([Formula: see text]) pl

44 CO(2) is in its supercritical state, and the high pressures and temperatures involved make real-time

45 ces (2% of world energy production), and the high pressures and temperatures make NH(3) production fa

46 ndustrial processes/events that may occur at high pressures and temperatures where this calibration a

47 structurally characterized the two phases at high pressures and temperatures, determined their equati

48 um-sulfur bonds are considerably enhanced at high pressures and that the 5f orbital involvement doubl

49 CO2 component remains soluble in the melt at high pressures and the solution is nearly ideal.

50 from liquid water at room temperature under high-pressure and high external electric field.

51 Properties of liquid silicates under high-pressure and high-temperature conditions are critic

52 hermal synthesis in nothing but H(2) O under high-pressure and high-temperature conditions.

53 The high-pressure and high-temperature structural and chemic

54 the harsh conditions (i.e. high temperature, high pressure, and high salinity) that exist in the subs

55 between the CIP and SIP becomes smoother at high pressure, and the relative stability of the two con

56 nt gas uptake performance under both low and high pressures, and also a high iodine (I(2)) uptake cap

57 We report a high-pressure approach to facile late-stage functionaliz

58 , especially when applied to gas mixtures at high pressure as found in natural fluid inclusions.

59 At high pressure, as intermolecular interactions increase s

60 functionally characterized before and after high pressure-assisted enzymatic digestion.

61 ultrasonic water bath and ultrasonic probe), high pressure-assisted extraction, and freeze-thaw.

62 oying-based composites easily collapse under high pressure, attenuating the porous characteristics.

63 The RUPV was protected with a high-pressure balloon during stent implantation to preve

64 d before or after VIV TAVR by inflation of a high-pressure balloon positioned across the valve ring d

65 roposed treatment modalities are scoring and high-pressure balloons, percutaneous coronary interventi

66 The H(2) vibrational frequency drops at high pressure because of increased coupling between neig

67 denser than coexisting close-packed solid at high pressure because the favored molecular orientation

68 We investigated the high-pressure behavior of polyethylene (CH(2)) by probin

69 - and SACLA XFEL light-sources elucidate the high-pressure behavior of stishovite on the lattice-leve

70 electron microscopy (TEM) to investigate the high-pressure behaviors of CdS nanoparticles as a functi

71 pact of observed changes in epitope regions, high pressure beta-lactoglobulin structure presents a st

72 us digestion and in situ biogas upgrading in high-pressure bioreactors will result in elevated CO(2)

73 tional gradients may be reduced secondary to high pressures, but remodelling may increase perfusion h

74 ethod to study track annealing in situ under high pressure by using synchrotron-based small angle x-r

75 High pressure can drastically alter chemical bonding and

76 High pressure can thus promote the incorporation of larg

77 ncluding high hydrostatic pressure (HHP) and high pressure carbon dioxide (HPCD) were applied to the

78 y related to that of the recently discovered high-pressure chalcohalide Pb(4)S(3)I(2) phase, and inde

79 oits the NP@MOF interface to create a pseudo high-pressure CO(2) microenvironment over the phenolic s

80 Amorphous diamond, formed by high-pressure compression of glassy carbon, is of intere

81 ed sintering-induced morphology change after high-pressure compression.

82 nderstand their biological functioning under high pressure conditions.

83 esistivity and spectroscopy techniques under high-pressure conditions and ab-initio calculations.

84 nly performed under extreme high-temperature/high-pressure conditions and resulted in c-BN NDs with m

85 The use of high-pressure conditions enables thermally unstable, ste

86 s, in general, that organisms thriving under high-pressure conditions in the deep sea, with pressure

87 Direct comparison of classic and high-pressure conditions of the quaternization reaction

88 hydrates (CHs) are ubiquitous in earth under high-pressure conditions, but their existence in the int

89 ssures up to 1 GPa, producing a miniaturized high-pressure container for the crystallization in solut

90 High pressure crystallographic measurements confirm unif

91 ient pressure data for supercooled water and high pressure data for stable water.

92 igh-temperature conditions in a large volume high-pressure device.

93 tified as carbonic acid, was observed in the high-pressure diamond-anvil cell.

94 tion is limited by low rates of diffusion or high pressure drop.

95 humans, where naked DNA is packed under very high pressure due to the repulsion between adjacent laye

96 experiments discovered superhydrides at very high pressures, e.g. FeH(5) at 130 GPa and LaH(10) at 17

97 The approach combines high-pressure electron spin resonance and r.f. susceptib

98 ility behaviour of any binary mixture at the high-pressure environment of planetary interiors, in par

99 s is also known to be a superconductor under high pressure exceeding 10 GPa.

100 To date, high-pressure experimental methods have not been able to

101 the third form of iproniazid, the success of high-pressure experiments in obtaining it, and the abili

102 The recent discovery in high-pressure experiments of compounds stable to 24-26 G

103 Our high-pressure experiments reveal continuous strengthenin

104 ariety of experimental techniques, including high-pressure experiments, we experimentally obtained th

105 The present study investigated the effect of high pressure extraction and maceration, and four extrac

106 High pressure extraction led to higher recoveries of hyd

107 he cumulative effect of solvent polarity and high-pressure extraction on antioxidant compounds of fru

108 To solve these problems, we propose a high-pressure fermentation strategy, coupled with in sit

109 EKEF is a useful adjunct to improve high pressure filtration of foodstuffs.

110 nchTope based on data from high-temperature, high-pressure flow-through experiments.

111 t in food safety, with the increasing use of high-pressure food processing.

112 2D Janus S-W-Se and S-Mo-Se monolayers under high pressures for the first time.

113 l yields, and phytochemical characteristics, high-pressure fractionation was more efficient for obtai

114 High-pressure fractionation was more efficient for obtai

115 r excellent mechanical strength to withstand high pressures, free-standing graph-n-yne is theoretical

116 quipped with cryogenic sample handling and a high-pressure freezing protocol compatible with mass spe

117 field stimulation, then subjected neurons to high-pressure freezing to examine their morphology by el

118 ron microscopy (FIB-SEM) in conjunction with high-pressure freezing, freeze-substitution, TEM, and co

119 However, severing the petiole and applying high-pressure gas could affect air-seeding and the gener

120 urface adsorption of the target component in high-pressure gas mixtures used for underpinning measure

121 n 100 mus before the partial collapse of the high pressure gradient boundary region (called pedestal)

122 m bubble density as a function of volume for high-pressure helium bubbles in plasma-facing tungsten.

123 two complementary diamond synthesis methods-high pressure high temperature (HPHT) growth and chemica

124 The confluence of HTHP (high-pressure high-temperature) capability, minimal samp

125 w-generation stabilizer that is active under high pressure, high temperature, and in saline solutions

126 se diagram reveals four, previously unknown, high-pressure-high-temperature ZIF phases.

127 ing a RMS error of 0.0089 g/cm(3) methane in high pressure/high temperature laboratory and field samp

128 con titanium nitride (SiTiN) precursor under high-pressure/high-temperature conditions in a large vol

129 High pressure homogenization (HPH) is an interesting alt

130 The effect of high pressure homogenization (HPH) on physical and bioac

131 kiwifruit puree (clean label ingredient) and high pressure homogenization on quality changes of cloud

132 ith 5% or 10% rapeseed oil, were obtained by high pressure homogenization, and the concentration of c

133 ogenated canola (CA) and crambe (CR) oils by high-pressure homogenization (HPH).

134 ) dispersions of DHA, were first produced by high-pressure homogenization, prior to being spray dried

135 is manufactured using microfluidization and high-pressure homogenization.

136 The effect of high pressure (HP) and pulsed electric field (PEF) treat

137 In this study, enzyme and high pressure (HP) improved the shell-loosening at diffe

138 High pressure (HP) is a powerful tool for studying these

139 r a deeper understanding of the chemistry of high pressure hydrocarbons, and the importance of better

140 High-pressure immiscibility in the Fe-Si-O system may ex

141 homologous kinases evolved under ambient or high pressure in the deep-sea, we detail transition stat

142 High pressure induces a large shift in the conformationa

143 Kinetic studies using in situ high pressure IR (HPIR) and the reaction progress kineti

144 olves previously perceived contradictions in high-pressure iron and could be integral to explaining i

145 phase transformation of nanoparticles under high pressure is of great scientific interest, as it is

146 s, and interleukin (IL)-1beta in response to high pressure is reported in lab animals and associated

147 puzzling crystal chemistry of this system at high pressures is largely unknown.

148 nce of a chemical reaction is confirmed by a high-pressure kinetic study using infrared spectroscopy,

149 above what is currently available with very high-pressure LC systems and do so without the resolutio

150 Thus, 0.3 GPa sets the high-pressure limit for the possibility to observe HDL f

151 logs for MHPs have so far been restricted to high pressures, limiting detailed studies and applicatio

152 for the first time to extract whereas Ultra High pressure liquid chromatography (UHPLC-DAD) was used

153 ithout the expensive requirement of an ultra-high pressure liquid chromatography and/or mass spectrom

154 ing dynamic light scattering (DLS) and ultra high pressure liquid chromatography-mass spectrometry (U

155 plet injection at the EuXFEL compatible with high pressure liquid delivery of an SFX experiment.

156 nstrated by coinjection with (19)F-CDKi in a high-pressure liquid chromatograph.

157 onodisperse spherical particles for nanoflow high-pressure liquid chromatography (HPLC), current stat

158 rrant simple sugar profile was determined by high-pressure liquid chromatography coupled with refract

159 Consequently, the potential of high-pressure liquid chromatography tandem mass spectrom

160 the optimization of a one dimensional ultra-high-pressure liquid chromatography top-down mass spectr

161 ere analyzed for stability by size-exclusion high-pressure liquid chromatography, pH measurement, osm

162 nucleosides from several of these phages by high-pressure liquid chromatography-mass spectrometry co

163 cid mixture was fractionated and analyzed by high-pressure liquid chromatography-mass spectrometry in

164 asured every 12 hours over a 7-day period by high-pressure liquid chromatography.

165 h liquid jets and can operate under low- and high-pressure liquid injection systems.

166 umor cells from low-pressure lamellipodia to high-pressure lobopodial protrusions during three-dimens

167 es: normal flow-normal pressure, normal flow-high pressure, low flow without RV dysfunction, and low

168 hi phase is the most stable structure in the high-pressure/low-temperature region, located between ic

169 roscopic chemical factors that determine the high-pressure macroscopic thermodynamics of two flexible

170 on of magnetite and the crystallization of a high-pressure magnetite phase deeper than about 600 kilo

171 se, using our newly developed ultrasensitive high-pressure magnetization technique.

172 rbonate liquids by combining simulations and high pressure measurements on a carbonate glass, (K(2)CO

173 High-pressure melting anchors the phase diagram of a mat

174 Here, we use high-pressure metal-silicate partitioning experiments to

175 However, at high pressures metallic curium undergoes a transition fr

176 The high-pressure metallization and electrical transport beh

177 ass balance considerations and N contents of high pressure metamorphic rocks imply massive addition o

178 ously thought, occurring in low-temperature, high-pressure metamorphosed basalts (blueschists) from s

179 )Bu-bdc(2-) = 5-tert-butylisophthalate), for high-pressure methane storage.

180 Recently, high-pressure microfluidic devices etched into glass and

181 plained by tectonic mixing, retrogression of high-pressure minerals, or lack of equilibration of mine

182 The high-pressure monoclinic phase, thermodynamically metast

183 nophase Fe(3)S(4) spinel (greigite), and its high-pressure monoclinic phase, we show that greigite is

184 ow pressure MSM from chicken collarbones, 4) high pressure MSM from chicken carcasses and 5) high pre

185 h pressure MSM from chicken carcasses and 5) high pressure MSM from chicken collarbones.

186 tion from nitrogen involves high-temperature-high-pressure multi-step processes.

187 Here, we report high-pressure muon-spin rotation experiments probing the

188 Although high pressure MW-AD was efficient for cereal digestion,

189 S = 1/2) crossover transition is observed at high pressure near 70 GPa.

190 a synergistic approach between experimental high-pressure NMR relaxation during catalysis and molecu

191 By using relaxation dispersion and high-pressure nuclear magnetic resonance (NMR) spectrosc

192 Here, we present in-situ high-pressure nuclear magnetic resonance data on molecul

193 :26-36, 2018) and consequently the effect of high pressure on the nuclear spin statistics could not b

194 CIT than on the Synapt G2 as expected due to high-pressure operation.

195 A high-pressure optical cell system (HPOC) and a heating-c

196 Traditional powder shaping utilising high pressure or chemical binders collapses porosity or

197 ans, and whether they are due to exposure to high pressure or to the process of decompression.

198 After successful high-pressure percutaneous transluminal angioplasty, par

199 The H(2)CO(3)* eluent is prepared in situ by high pressure permeative introduction of gaseous CO(2) t

200 eased molecular packing, whereas that of the high pressure phase involves an increase in the nearest-

201 y limit of MH-III and the existence of a new high-pressure phase above 40 to 50 GPa, although recentl

202 f the gap reversal, which is consistent with high-pressure phase decomposition, are discovered.

203 s been proposed theoretically to be a common high-pressure phase in ABX(3) systems.

204 The high-pressure phase is characterized by an extended netw

205 gnetic moments until 30 GPa to 40 GPa in the high-pressure phase of iron; however, no magnetic order

206 ctural predictions for the fully polymerized high-pressure phases consisting of highly ordered rods o

207 High-pressure phases derived from feldspars could persis

208 ulations, we demonstrate that some predicted high-pressure phases of elemental Li also host topologic

209 ogen under compression, are lacking for most high-pressure phases, owing to the considerable technica

210 iments to investigate a diverse landscape of high-pressure phenomena.

211 oluminescence, which is further supported by high-pressure photoluminescence experiments.

212 Analysis of combined in situ high-pressure photoluminescence, absorption, and angle-d

213 prime interest in geophysics and fundamental high-pressure physics.

214 High-pressure PL spectra show that the donor level with

215 y be present in the form of the rutile-type, high pressure polymorph stishovite (P4(2)/mnm) and its t

216 up to 27 GPa, we report the discovery of new high-pressure polymorphs of the feldspars anorthite (CaS

217 Herein we apply high-pressure powder X-ray diffraction and molecular dyn

218 tween methane and water dominate at the very high pressure probed here and the tetrahedral topology o

219 n this study, we describe a solvent-mediated high-pressure process to complexate bixin and casein mic

220 d better than the Veratox buffer with fried, high pressure processed, and baked samples.

221 This study analysed the impact of high pressure processing (HHP) on the inhibitory effects

222 f bovine serum albumin and gelatin following high pressure processing at 300 MPa for 15 min at 10 and

223 ive of this work was to assess the impact of high-pressure processing (HPP) on the carotenoid profile

224 plays an important role in determining their high-pressure properties.

225 Our findings demonstrate that high pressure protein crystallography can potentially id

226 , which eliminated the need for an expensive high-pressure pump and chromatography system.

227 The High Pressure Quenched glasses are stable in ambient con

228 The High Pressure Quenched glasses have a distinct structure

229 At high pressures Raman soft modes are observed, as in pure

230 ng single-molecule fluorescence imaging with high-pressure, rapidly switching microfluidics, we revea

231 The high-pressure reaction between Hf and N(2) also leads to

232 Even though high-pressure research on nanomaterials has been widely

233 In 'leucon' sponges with relatively high-pressure resistance due to a complex and narrow can

234 Here, we use high-pressure rocks and enclosed veins to provide direct

235 we combine data from exhumed subduction zone high-pressure rocks and thermodynamic modelling to show

236 s to hydrocrack the hydrocarbon lubricant in high pressure rolling contacts has so far been ignored.

237 ay diffraction provides a measurement of the high-pressure, room temperature Xe and CO(2) sorption is

238 We report evidence for a further high-pressure, room-temperature phase of the CH(4)-D(2)O

239 At high pressure, rotation is hindered in Phase I, such tha

240 Here, we describe implementation of a high-pressure sample chamber with a two-photon scanning

241 At high pressure Sc and Ti become the most electropositive

242 ressure X-ray photoelectron spectroscopy and high pressure scanning tunneling microscopy, as well as

243 nabled particularly by one of the new tools: high-pressure scanning tunneling microscopy.

244 y, utilizing skin as part of the EII sensor, high pressure sensitivity and high signal-to-noise ratio

245 acitive pressure sensors are fabricated with high pressure sensitivity and rapid response to demonstr

246 With a high-pressure sensitivity of 10.79 mV/Pa, a wide working

247 High pressure sensor calibrations were performed in stan

248 gy by a factor close to 3, on account of the high pressure shift of the intrusion transition.

249 is for the stability of quasicrystals during high-pressure shocks and for the interpretation of the p

250 ed characterizations of microstructure under high pressure show that Zr exhibits a grain enlargement

251 In our previous work we have proved that high pressure significantly modifies beta-lactoglobulin

252 es have thus far only been observed in a few high pressure silicate phases.

253 High-pressure silicates making up the main proportion of

254 High-pressure single-crystal X-ray diffraction has been

255 low-dimensional hydrocarbon synthesized via high-pressure, solid-state diradical polymerization of c

256 Under high pressure, some materials form electrides, with vale

257 ed the chemical shift values of the low- and high-pressure states, and thus characterised the locatio

258 It is remarkable that one high-pressure structure (for Pb(4)S(3)I(2)) and two meta

259 e is observed due to the coexisting low- and high-pressure structures.

260 anoclusters, and demonstrates the utility of high pressure studies in nanochemistry.

261 dissipation by MOFs was suggested by static high pressure studies, there is little known about MOFs

262 ed into a 500 um size diamond anvil cell for high-pressure studies.

263 High-pressure study on (BA)(4) AgBiBr(8) sheds light on

264 The remarkable high-pressure superconducting properties observed in the

265 Here by employing in situ high-pressure synchrotron radiation X-ray diffraction, w

266 High pressure synthesis has the potential to open new av

267 The high-pressure synthesis employed here possibly assists t

268 High-pressure synthesis in diamond anvil cells can yield

269 Here, we report the high-pressure synthesis of a hexagonal close-packed phas

270 Here we address the high-pressure synthesis of a new polar and antiferromagn

271 m a prolonged weakening of the North Pacific High-Pressure System.

272 ves were triggered by persistent atmospheric high-pressure systems and anomalously weak wind speeds,

273 difficult because of the extreme conditions (high pressure/temperature) under which many such transit

274 lus outcrop and to Marcellus core samples at high pressures/temperatures (HPT) simulating downhole co

275 hat cubic Mg(2)TiO(4) spinel transforms to a high pressure tetragonal (I4(1)/amd, No.141) phase at 14

276 The isothermal bulk modulus of the high-pressure tetragonal phase is calculated to be 209(2

277 llbore conditions, e.g. high temperature and high pressure that adversely affect the rheology of thes

278 At very high pressure, the electrical conductivity decreases on

279 The effect of high pressure thermal (HPT) processing on the immunoglob

280 nductance mechanosensitive channel MscL, the high-pressure threshold channel.

281 Processing by high-pressure torsion (HPT), which was developed initial

282 High-pressure transitions are thought to modify hydrogen

283 nce the electronic properties of Mn2O3 using high-pressure treatment, benefiting its applications in

284 The effects of high pressure treatments (200, 400, 600 MPa for 5 min) a

285 o the molecule deformation over a surface at high pressures under nondenaturing conditions.

286 the pressure as high as 261.7 GPa, a record-high pressure up to which a known superconducting state

287 )](-) (pydtc, pyrrolidinedithiocarbamate) at high pressures (up to 11 gigapascals).

288 al candidate for a reentrant Yb(2+) state at high pressure, was also studied for comparison.

289 Here we show the use of sequential high-pressure water pyrolysis (HPWP) to replicate petrol

290 oprietary mix of chemicals is injected under high pressure, which later returns to the surface as flo

291 meation barrier that allows blood to flow at high pressure without significant water leak.

292 Here, we integrate high pressure X-ray diffraction and atomistic simulation

293 High-pressure x-ray diffraction data show that CaO(3) cr

294 Herein, synchrotron radiation-based high-pressure X-ray diffraction is used to quantify the

295 uctured dinitride, using in-situ synchrotron high-pressure x-ray diffraction measurements.

296 High-pressure X-ray diffraction, optical absorption, and

297 hase barium chemosensor molecules for use in high pressure xenon gas detectors, synthesized specifica

298 ns a new path toward single ion detection in high pressure xenon gas.

299 nsor that can detect single Ba(2+) ions in a high-pressure xenon gas detector.

300 sensor able to detect single Ba(2+) ions in high-pressure xenon gas detectors for barium-tagging exp