ライフサイエンスコーパス: temperature

1 expanded than the corresponding one at high temperature.

2 id at room temperature to a hydrogel at body temperature.

3 ed by Raman sideband cooling to decrease the temperature.

4 ne Lewis acids in quantitative yield at room temperature.

5 how magnetoelectric coupling effects at room temperature.

6 ext]m thick) "supramolecular fibers" at room temperature.

7 nt and the isomerization occurred at ambient temperature.

8 molecular weight with increasing extraction temperature.

9 undergoes one, the Ph-based apFr depends on temperature.

10 at high temperature was higher than at room temperature.

11 cid levels occurred as a function of storage temperature.

12 e-dimensional topological insulators at room temperature.

13 ing heart rate, arterial pressures, and body temperature.

14 nd 6 surface thermocouples to reflect tissue temperature.

15 K and its value increased by decreasing the temperature.

16 ion continues to slow gradually down to zero temperature.

17 lting morphologies of the 3D quasicrystal at temperature.

18 fter more than two months of storage at room temperature.

19 labels for DEER distance measurement at room temperature.

20 structural order parameters as a function of temperature.

21 se lateral variations in the back-arc mantle temperature.

22 t quantum interference signatures up to room temperature.

23 ocesses were as high as 119 h(-1) at ambient temperature.

24 nd produce desired electrical output at room temperature.

25 groups underwent C-N bond formation at room temperature.

26 and donor infection severity, as measured by temperature.

27 te a shift of the peak in the kappa to lower temperature.

28 t night sleep onset, in response to elevated temperatures.

29 asured in as-grown Bi2O2Se nanoflakes at low temperatures.

30 rms to account for the kinetics at all other temperatures.

31 rmation of ice crystals at or below freezing temperatures.

32 ention, and migration velocity at a range of temperatures.

33 o nearly 2 degrees C warmer than present-day temperatures.

34 Au279S84 geometry was established from a low-temperature 120 K sc-XRD study at 0.90 A resolution.

35 quare kilometers to areas of low sea surface temperatures (14.5 degrees C-17.5 degrees C) and high ch

36 MHz), moisture content (4.2-19.6% w.b.) and temperature (20-90 degrees C).

37 The strip worked optimally at pH 7.0, temperature 25 degrees C and 6min of incubation time.

38 The ECs are antigenically stable at temperatures above the conversion temperature of wild-ty

39 rates that seeding induces nucleation at low temperatures accelerating the crystallization process.

40 ee abundance were positively correlated with temperature across the study area.

41 The observed differences in low-temperature adaptation between B. pertussis and B. bronc

42 heir shell walls that cannot be explained by temperature alone.

43 niline our optimized reaction (i.e. solvent, temperature and catalyst study) affords excellent yields

44 microtubes is investigated by analyzing the temperature and excitation power dependent emission spec

45 ic organolead hydride was synthesized at low temperature and features a hydride (1)H NMR signal (in s

46 The increase of temperature and heat exposure period decreased the prote

47 mine COFs has been characterized at variable temperature and humidity, using electrochemical impedanc

48 Through careful optimization of vaporization temperature and nebulizer gas pressure it was possible t

49 (ii) to validate our approach as function of temperature and of pressure, as both are equally importa

50 aggressive conditions involving extremes of temperature and pH.

51 Pre-earthquake mean maximum monthly temperature and post-earthquake mean monthly pressure we

52 The influence of broad-scale gradients (e.g. temperature and precipitation) in structuring tropical e

53 By regulating the thermal-pyrolysis temperature and ratio of reactants, the maximum emission

54 model (GAM) to examine how future changes in temperature and salinity could affect the distribution a

55 released less zinc ions (Zn(2+)) at greater temperature and salinity, toxicity of ZnO-NPs to T. pseu

56 ssential for seed dormancy imposition by low temperature and that the exclusion of oxygen and water f

57 perated with continuous current mode at room temperature and the shortest wavelength reaches 284 nm.

58 the resistance first decreases linearly with temperature and then passes through the minimum that mar

59 approach may contribute in the choice of the temperature and time to be employed in the juice process

60 nditions, such as infrared power, drying air temperature and velocity, on quality of strawberry were

61 behavior with no-hysteresis over the entire temperature and water activity range considered here.

62 tropy, are directly related to the reference temperature and Z-value commonly used for kinetic analys

63 granules with relatively low gelatinization temperatures and amylose content.

64 oxantrone conjugate was oil at physiological temperatures and demonstrated high aqueous solubility.

65 ies the relationship between ambient surface temperatures and EGU air emissions (CO2, SO2, and NOX) u

66 s of increased disturbance activity, warming temperatures and increased moisture stress on plants.

67 nverted InAs/GaSb quantum-well system at low temperatures and low electron-hole densities.

68 with the nominal orthorhombic phase at room temperature, and is both induced by and stabilized with

69 allowing Phys to dynamically measure light, temperature, and possibly time.

70 exes are considered photoluminescent at room temperature, and their rapid excited-state deactivation

71 Lower temperatures, and especially larger degrees of seasonal

72 ater for agriculture because drought, rising temperatures, and expanding human populations are increa

73 of heat from landfills, to predict landfill temperatures, and to understand the relative importance

74 By exploring superlattice period-, temperature- and field-dependent evolution of these stru

75 n refractory elements are promising for high-temperature application but generally fail by early crac

76 Warmer temperatures are accelerating the phenology of organisms

77 summer afternoons when NO levels are low and temperatures are elevated.

78 Cool ambient temperatures are major cues determining flowering time i

79 Cryogenic temperatures are usually required to observe these oscil

80 e change is causing warmer and more variable temperatures as well as physical flux in natural populat

81 in this case corresponding to the threshold temperature associated with an infected wound.

82 Annealing at the glass transition temperature at ambient pressure reverses structural chan

83 event after an extraordinary increase in air temperature at the end of 2015.

84 -doped zinc oxide (AZO) was deposited by low-temperature atomic layer deposition (ALD) as the transpa

85 Both the high-temperature average crystal structure and the low-temper

86 influence of Tm(3+) or Ho(3+) ion on optical temperature behavior of Y2O3:Er(3+) microtubes is invest

87 r two is irreversible and enhanced at higher temperatures, behaviors indicative of active recruitment

88 Process I is seen at temperatures below the bulk solvent Tg, has low activati

89 ieve unprecedented control of the transition temperature (between ferromagnetic and paramagnetic stat

90 Changes-over-time temperature, blood pressure, and heart rate outcomes wer

91 that are irreversible under conventional low temperature bond-forming conditions have been underexplo

92 es remain stable in the liquid phase at room temperature but convert to gels upon heating.

93 on can be manipulated reversibly around room temperature by appropriate design of the electrostatic a

94 Here, we tested the influence of temperature by determining the X-ray structure of Aqy1 a

95 for the practical production of Si at lower temperatures can be applied to other molten salt systems

96 ater oxidation resistance and hence a higher temperature capability to be used.

97 during feed manufacture, the high pelleting temperatures challenge wild-type xylanases.

98 A nanoblend was remarkably more sensitive to temperature change, than classical vesicles.

99 not be ignored when assessing the impact of temperature change.

100 ectric fields, both EC entropy and adiabatic temperature changes increase quadratically initially, fo

101 Our results suggest that temperature compensation of photosynthetic rates constra

102 This maximum is related to favoring temperature conditions that caused the simulated biting

103 ires both oxide-free metal surfaces and high temperature conditions.

104 adipose tissue (BAT) independent of ambient temperature conditions.

105 ruits that were not pollinated under control temperature conditions.

106 = 6) underwent discrete atrial ablation in a temperature control mode (60 degrees C/50 W) until there

107 To allow temperature-controlled irrigated ablation, a novel irrig

108 on in flowering time under different ambient temperatures correlated with relative expression levels

109 tly, we find that the preferred accumulation temperature corresponds to optimal growth in the presenc

110 One such cue is floral temperature, created by captured sunlight or plant therm

111 sordered superconductors - ranging from high-temperature cuprates to ultrathin superconducting films

112 s mirrored in multiple observational surface temperature datasets.

113 ng for continuous air temperature, dew-point temperature, day of week, holidays, and time trends.

114 Measurements of temperature dependence from 40 to 320 K demonstrate a sh

115 with decreasing temperature, similar to the temperature dependence of a semiconductor.

116 hotosynthetic rates constrains the long-term temperature dependence of GPP, and highlights the import

117 As the temperature dependence of oxygen consumption depends on

118 Modelling of the temperature dependence of the DBMP-binding energy and em

119 A reentrant temperature dependence of the normal state resistance of

120 resistance often referred to as the N-shaped temperature dependence, is omnipresent in disordered sup

121 Ea =4.8 kcal mol(-1) and with only a shallow temperature dependence, the results are interpreted in t

122 nkage between weather and air quality is the temperature-dependence of emissions from electricity gen

123 We report here for the first time the temperature dependences of LSSE voltage (V LSSE), magnet

124 These results could be accounted for by temperature-dependent changes in both Km and kcat (three

125 The study of temperature-dependent sex determination (TSD) in vertebr

126 ction process are examined through time- and temperature-dependent transport measurements.

127 linear models controlling for continuous air temperature, dew-point temperature, day of week, holiday

128 Swedish high school students to examine the temperature difference between surface water and the ove

129 To overcome this temperature distribution, a copper flange was introduced

130 These temperature-driven effects can be classified into point

131 on to a lesser extent with greater pyrolysis temperature due to lower charging and discharging capaci

132 udy was evaluate the effects of moisture and temperature during grain storage on the functional prope

133 face is controlled by changing the substrate temperature during the deposition process to promote the

134 ncorporated with increased tolerance to high temperatures during flowering and grain filling using do

135 hain staff, assessed equipment, and recorded temperatures during vaccine storage and transportation.

136 m value: [Formula: see text] Although finite temperature equilibrium dynamics will not yield hyperuni

137 n be classified into point stresses, where a temperature event during a sensitive stage drives a redu

138 Extreme summer temperature events - which are expected to occur with in

139 onditioned 48 h at 20 degrees C prior to low-temperature exposure (pre-conditioning, PC).

140 od matrix was optimized by testing different temperatures, extraction times, and the influence of add

141 Both acute and chronic ambient temperature extremes may affect early delivery risk.

142 obial and detritivore community responses to temperature, factors that can influence the apparent tem

143 h adopts the Ni3TeO6-type structure with low temperature first-order field-induced metamagnetic phase

144 Reactions were conducted in a room-temperature flow tube under low-NOx conditions in the pr

145 beta-phase enables the FTNG to harvest large temperature fluctuations (DeltaT 24 K).

146 xhibits a monotonic decrease with increasing temperature for all densities, with the importance of sh

147 a novel prediction: that a species' optimum temperature for growth, Topt , is a saturating function

148 iquids stop flowing below a glass transition temperature [Formula: see text] or whether motion contin

149 With decreasing temperature from 90 degrees C to 10 degrees C, G' increa

150 ced photothermal effect, that elevates water temperature from room temperature to 41.8 degrees C with

151 mulated grain yields for mean growing season temperatures from 14 degrees C to 33 degrees C.

152 ternary giant unilamellar vesicles held in a temperature gradient in conditions where they exhibit co

153 g direction is elevated due to a significant temperature gradient, and thus locations in the material

154 the photoacids and the Ru(II) dyes, suggest temperature gradients were not likely the cause of the o

155 At temperatures greater, similar -40 degrees C, cis-[Pd(IPr

156 ntage scales with both interaction range and temperature, growing without bound as interaction range

157 Because below-average temperatures had a greater impact on phenology than abov

158 though enhanced plasmonic performance at low temperature has been predicted for a long time, it has n

159 Isothermal methods, that operate at constant temperature, have emerged as promising alternative to PC

160 were then stored in the darkness at ambient temperature in a closed container to simulate current st

161 concentration-dependent, tunable transition temperature in aqueous solution.

162 While annealing improves Neel-ordering temperature in BaFe2As2 crystal (T N = 132 K to 136 K) b

163 meter, it increases superconducting-ordering temperature in optimally cobalt-doped BaFe2As2 crystal (

164 t span the visible spectrum at two different temperatures in Escherichia coli cells.

165 nic, or carbenic), which are isolable at low temperatures in some cases (e.g., aryl- and silylnitrile

166 rature average crystal structure and the low-temperature incommensurately modulated crystal structure

167 s may respond positively to a wider range of temperature increase than S. pulchra in dry habitats.

168 Increasing temperature increased the viscosity of the extrudates.

169 arctic regions have experienced the greatest temperature increases during the last 30 years.

170 re likely to increase primarily due to water temperature increases tempered by increased nutrient lev

171 Reduced room temperature incubation and the addition of antifungal ag

172 ximately 1 Omega.cm, while being essentially temperature independent.

173 relative populations of the states depend on temperature, indicating a small energy difference, Delta

174 These temperature-induced perturbations are strongly correlate

175 e showed that sex ratio response to elevated temperature is family-specific and typically leads to ma

176 ium in a solution phase at 15 degrees C, the temperature is increased by 7 degrees C to induce gelati

177 ro degrees, because the unfolded form at low temperature is more expanded than the corresponding one

178 ld, or seasonal warming losses, where raised temperature is thought to increase maintenance energy de

179 Temperatures <2 degrees C were detected in 4 of 19 cold

180 ays as well as to exogenous stimuli, such as temperature, magnetic field, and optical light.

181 sitivity of CUEh with respect to mean annual temperature (MAT) was similar for organic and mineral so

182 /mm(2) excitation power, which makes optical temperature measurement in wide temperature range possib

183 Satellite temperature measurements do not support the recent claim

184 terials far from equilibrium, including high-temperature modifications by room-temperature synthesis.

185 idines were prepared and studied by variable temperature NMR spectroscopy leading to the conclusion t

186 rowth that includes a new formulation of the temperature-nutrient interaction and test a novel predic

187 ht loss of 85.81+/-0.52% and a decomposition temperature of 320.16+/-0.35 degrees C, which indicated

188 e optimum conditions obtained were at column temperature of 61.7 degrees C using tri-distilled water

189 tactic PPO is semicrystalline with a melting temperature of approximately 67 degrees C.

190 of type A and B, and we measure the dayside temperature of KELT-9b to be about 4,600 kelvin.

191 nge is predicted to result in rising average temperature of seawater with more extreme thermal events

192 stance in the natural field and lower canopy temperature of Takanari than Koshihikari resulted in the

193 stable at temperatures above the conversion temperature of wild-type (wt) virions.

194 maximum rectification of 10.9% at terminals' temperatures of 375 and 530 K.

195 n found that transit hot, A-type stars (with temperatures of 7,300-10,000 kelvin), and no planets are

196 esults Relaxivities in serum (0.94 T at room temperature) of Fe-tCDTA (r1 = 2.2 mmol(-1) . sec(-1)) w

197 Our model suggests that cool temperatures or short photoperiods can induce cessation

198 nt, suggests acclimatisation to this trio of temperature, oxygen and pH changes through heterotrophic

199 e and below the lipid gel-liquid crystalline temperature, partitioning is exothermic with negative ch

200 By controlling temperature, pattern size, and CVD duration, optimal con

201 Floral temperature patterns may therefore represent a new flora

202 by characteristic processing conditions like temperature, pH, and salting of hams.

203 eloped or not, primary transmission pathway, temperature, pH, light levels, and matrix.

204 of cellulose and chitin over a wide range of temperatures, pH levels, and ionic strengths.

205 We devised a novel room-temperature-phosphorescence (RTP)-based oxygen detection

206 Room temperature photovoltaic response with a cut-off wavelen

207 desorption electrospray ionization, and low temperature plasma ionization.

208 Temperature plays a pivotal role in determining the dist

209 and capable of metabolic activity at in situ temperatures, possessing a suite of stress response and

210 hase-change was followed by in situ variable temperature powder X-ray diffraction.

211 Global environmental change is altering temperature, precipitation patterns, resource availabili

212 t could take place in the no-man's land, the temperature-pressure window in which homogeneous nucleat

213 ture-sensitive ACA mutant at the restrictive temperature prevented c-di-GMP-induced cAMP synthesis as

214 ta-keto acids under basic conditions at room temperature proceeds with high levels of diastereocontro

215 e separated by domain walls (DWs) above room temperature provides immense potential for exploitation

216 This is an example of a (zero temperature) quantum phase transition.

217 Cl(aq) and pyridoxine HCl(aq) solutions over temperature range (288.15-318.15)K at pressure, p=0.1MPa

218 t with the existence of chiral ordering in a temperature range above the Curie temperature, T C < T <

219 pathways were consistent across the studied temperature range despite the non-uniform distributions

220 akes optical temperature measurement in wide temperature range possible.

221 It was found that within this temperature range, the separation selectivity was carboh

222 ie outside each country's currently observed temperature range.

223 ide concentration dependence was measured at temperatures ranging from 5 to 37 degrees C, and the raw

224 In the prospectively cooled patients, core temperature reached target range less than or equal to 4

225 The room temperature reaction is high yielding and amenable to a

226 Southern Ocean, from net samples and in situ temperature records collected during the Discovery Inves

227 incubating them over a range of alternating temperature regimes in light.

228 However, reconstructions of LIG global temperature remain uncertain, with estimates ranging fro

229 ely 1.4 degrees C, while deep Southern Ocean temperature remains largely unchanged.

230 ccur due to sample freezing at the cryogenic temperatures required for DNP.

231 to mild dilute acid pretreatment reduces the temperature requirement to only 120 degrees C.

232 At 37 degrees C, low temperature-rescued F508del-CFTR more rapidly lost funct

233 The model's near-surface temperature response to deforestation is consistent with

234 Temperature responses of density varied intraseasonally

235 matical functions currently used to simulate temperature responses of physiological processes in 29 w

236 ermining the X-ray structure of Aqy1 at room temperature (RT) at 1.3 A resolution, and by exploring t

237 2016, southeast Asia experienced surface air temperatures (SATs) that surpassed national records, exa

238 ase A (ACA) with SQ22536 and incubation of a temperature-sensitive ACA mutant at the restrictive temp

239 sect pest, Drosophila suzukii, by creating a temperature-sensitive point mutation in the sex-determin

240 The mutant phenotype is also temperature-sensitive.

241 ure, factors that can influence the apparent temperature sensitivity of breakdown and the relative pr

242 At the global scale, the apparent temperature sensitivity of CUEh with respect to mean ann

243 akdown in streams and rivers to quantify its temperature sensitivity, as measured by the activation e

244 nce of interactions between N deposition and temperature sensitivity, which could influence C storage

245 This work explores a compact nanoelectronic temperature sensor based on a Magnetic Tunnel Junction (

246 leigh backscattering profiles as distributed temperature sensors, we demonstrated real-time monitorin

247 CHO cell culture media upon exposure to high temperature short time (HTST) treatment, a commonly used

248 information to calibrate growth responses to temperature signals.

249 whose resistivity increases with decreasing temperature, similar to the temperature dependence of a

250 that oxygen is a limiting factor shaping the temperature-size rule in fishes.

251 c land conditions such as soil moisture/soil temperature (SM/ST) can significantly improve the modeli

252 orption of laser pulses by MGNCs can produce temperature spikes of nearly 1000 degrees C, which is su

253 rameterization of the background sea-surface temperature (SST) gradient and a mean easterly trade win

254 A room-temperature-stable crystalline 2H-phosphirene (1) was pr

255 Increasing temperature substantially enhances mu bare in the hole-d

256 The properties of cuprate high-temperature superconductors are largely shaped by compet

257 candidate for the pairing mechanism in high temperature superconductors, supported by the common app

258 ed to give rise to pseudogap states and high-temperature superconductors.

259 uding high-temperature modifications by room-temperature synthesis.

260 ny material that exhibits a glass-transition temperature (T g ) and a rubbery plateau.

261 ering in a temperature range above the Curie temperature, T C < T < T*, where a first-order transitio

262 Rectal, mean skin and mean body temperature (Tb ), electromyographic activity (EMG), met

263 The glass transition temperature (Tg) for all of the powders significantly de

264 1440 degrees C is a far lower temperature than usual beta --> alpha phase transformati

265 ure generations of catalysts must perform at temperatures that are 100 degrees C lower than current e

266 se to compute national electricity loads for temperatures that lie outside each country's currently o

267 water content and other parameters, such as temperature, that are inherent in natural eruptions.

268 eater impact on phenology than above-average temperatures, the long-term advance in phenology was red

269 iety of compositions and sizes based on high-temperature thermal decomposition of readily available p

270 h its increased efficiency at higher ambient temperatures, these properties all point to NESMD as a p

271 ve mechanical systems to unprecedentedly low temperatures, this seemingly fundamental limit is increa

272 In this work, a high temperature THz detector based on a GaN high electron mo

273 pear above a distinct miscibility transition temperature (Tmix) and reappear below Tmix, over multipl

274 t, that elevates water temperature from room temperature to 41.8 degrees C within 2 minutes, while co

275 transitioned in <5min from a liquid at room temperature to a hydrogel at body temperature.

276 ot, two-step stoichiometric reaction at room temperature to form uranium(IV) siloxides.

277 ternal silage and ambient air, pH and silage temperature (Tsi) during the ensilage of maize and ryegr

278 and undergoes a phase transformation at high temperatures (typically 2000 degrees C and above).

279 include using electric and magnetic fields, temperature, ultrasound or light to introduce compounds

280 The reaction proceeds at room temperature under mild conditions and has proven to be c

281 l group tolerance, and occur readily at room temperature under visible light irradiation.

282 events and their association with the ocean temperatures underscores the potential predictability of

283 copper flange was introduced to enhance the temperature uniformity of the SN2 chamber.

284 T began to consistently exceed that critical temperature was 1988.

285 at the amount of urethanes generated at high temperature was higher than at room temperature.

286 Temperature was the main factor controlling growth varia

287 High ambient temperatures were associated with reduced foraging time,

288 grains stored during six months at different temperatures were evaluated.

289 o an exceptionally steep increase in melting temperature when compressed.

290 rly cracking with limited plasticity at room temperature, which limits their malleability and widespr

291 hese reactions proceed within 10 min at room temperature, which represents among the mildest conditio

292 of photopolymerization reactions at elevated temperatures, which also widens the window of applicatio

293 ults suggest that combined, elevated CO2 and temperature will lead to long-term declines in the amoun

294 O2, cis-[Pd(IPr)2(eta(2)-O2)] reacts at low temperature with H2O in methanol/ether solution to form

295 infection and piglets developed an increased temperature with watery diarrhoea, which was caused by a

296 traction is generally carried out at a fixed temperature within the range 85-95 degrees C.

297 o heteroaryl- as well as arylcuprates at low temperature without the need for precious metal catalyst

298 In contrast, warm temperatures without FTCs could lead to divergent respon

299 monitor protein adsorption across different temperatures would advance understanding of how thermall

300 The performance of a room temperature, zero-field MASER operating at 1.45 GHz has