ライフサイエンスコーパス: low temperature

1 nimized, may exhibit paddlewheel dynamics at low temperature.

2 lence, MZMs exhibit quantized conductance at low temperature.

3 e for the efficient combustion of propene at low temperature.

4 l electric fields that are available even at low temperature.

5 ived coherent THz oscillations up to 2 ps at low temperature.

6 ive in their coupling reactions conducted at low temperature.

7 me machinery and RNA processing by RNaseR at low temperature.

8 with correlated system-bath fluctuations at low temperature.

9 ccharomyces cerevisiae for an abiotic stress-low temperature.

10 suggest predisposes it to be more active at low temperature.

11 regulated genes in lettuce plants exposed to low temperature.

12 ble virescent phenotype and growth arrest at low temperature.

13 B/Alf1 in maintaining microtubule polymer at low temperatures.

14 gh electrical conductivity even down to very low temperatures.

15 low momentum is engineered through extremely low temperatures.

16 extrudes the C-O bond product at remarkably low temperatures.

17 elenides via near-diffusionless reactions at low temperatures.

18 growth and development of rice seedlings at low temperatures.

19 resulting in exceptional rate performance at low temperatures.

20 trolling e-ratio than ecosystem structure at low temperatures.

21 ng into an ordered magnet or a spin glass at low temperatures.

22 , the main bacterial colonizer of Hydra, and low temperatures.

23 convert Fe nanoparticles to single atoms at low temperatures.

24 lenge due to vanishing electronic entropy at low temperatures.

25 for TBCB/Alf1 in microtubule maintenance at low temperatures.

26 h significant magnitude was observed only at low temperatures.

27 d systems that can activate methane, even at low temperatures.

28 viously limited to a handful of materials at low temperatures.

29 lium, or in dielectric crystals (Bi, NaF) at low temperatures.

30 for the NO oxidation at humid conditions and low temperatures.

31 hindrance to escape supercoiling buildup at low temperatures.

32 ire water vapor to form aqueous solutions at low temperatures.

33 xhibits remarkable oxide ion conductivity at low temperatures.

34 (SFAs) to unsaturated fatty acids (UFAs), at low temperatures.

35 orthogonal spin-torque spin-valve devices at low temperatures.

36 rovide it with ecological competitiveness at low temperatures.

37 reduced NTL8 dilution due to slow growth at low temperatures.

38 ypes of P. syringae Lz4W that enable life at low temperatures.

39 5 x 5 Fe vacancy-ordered Fe(4+delta)Se(5) at low temperatures.

40 for hosting the quantum-spin-liquid state at low temperatures.

41 hase of MgSnN(2) at Mg-rich compositions and low temperatures.

42 uit cv. Patharnakh under storage conditions (low temperature 0-1 degrees C and relative humidity (90-

43 At low temperature (12 degrees C), both capillary adhesion

44 he (1)H off-resonance R(1rho) NMR method and low temperature (185-175 K) to resolve intermediates exc

45 rt-term chilling sensitivity when exposed to low temperatures (2 degrees C to 6 degrees C) for long p

46 Remarkably, fibrils dissolve at low temperatures (2 to 6 degrees C) or upon hyperphospho

47 res above 700 degrees C, while at relatively low temperatures (250 to 450 degrees C) the nanomaterial

48 ded, (2) mild reaction conditions, including low temperatures, (3) the targeting of native functional

49 uctivity above 0.1 siemens per centimeter at low temperatures (300 to 600 degrees C).

50 obic digestion (AD) of organic waste using a low-temperature (37 degrees C) pretreatment with differe

51 Low temperature (4 degrees C) aqueous extraction (1:20)

52 of the lettuce CBF genes were responsive to low temperature (4 degrees C), and that three and six of

53 sugaring in Thompson raisins was delayed at low temperatures (5 & 15 degrees C) compared to that sto

54 Here, we characterize using low-temperature (5 K) atomic force microscopy (AFM) with

55 yl, aryl, and heteroarylamines at relatively low temperatures (70-80 degrees C) and pressures (1.0-3.

56 The highlight of the method is the low-temperature (-78 degrees C) deprotection of a disulf

57 We report an alternative low-temperature (850 degrees C) process based on the red

58 ing (37 degrees C for 3 days) and storage at low-temperature (9 degrees C) during 15, 30 and 45 days

59 ing in thin films processed from solution at low-temperature, a method that generally produces abunda

60 Improving the low-temperature activity (below 100 degrees C) and noble

61 The presence of water promotes low-temperature activity of 0.1 wt % Rh(1) /CeO(2) .

62 gineer thermostable enzymes with significant low-temperature activity.

63 Since the initial discovery of low-temperature alkaline hydrothermal vents off the Mid-

64 es and a sequence of field-induced phases at low temperatures, all consistent with the kagome ice rul

65 ene complex can be generated and observed at low temperatures allowing experimental elucidation of me

66 ies of atom-ion chemistry at unprecedentedly low temperatures, allowing precision observation of chem

67 We found that relatively low temperature and ambient CO(2) exacerbated damage ind

68 e found that these intensity levels occur at low temperature and are linked to the copresence of long

69 applicable to trap reactive intermediates at low temperature and creates a new method to characterize

70 regime represented an unfavorable condition (low temperature and high salinity).

71 bed intermediate on NDs could be isolated at low temperature and induced to fold via an increase in t

72 second section, we review how perception of low temperature and photoperiod regulate the induction o

73 Only mucilage extracted at low temperature and precipitated with ethanol did not co

74 lectivity under mild conditions (e.g., under low temperature and using benign solvent).

75 combined with gaseous and/or liquid media at low temperatures and atmospheric pressure open new ways

76 Further, it can be regenerated at ultra-low temperatures and displays exceptional hydrolytic sta

77 y field H(irr)(T) all decay exponentially at low temperatures and exhibit an abrupt change in behavio

78 c capacity under a constant growth regime of low temperatures and high salinity.

79 the functionalization of ethane in oleum at low temperatures and pressures.

80 -tubulin confers hyperstable microtubules at low temperatures and rescues the requirement for TBCB/Al

81 Excess morbidity for high and low temperatures and the net change in the period 1990-2

82 , active volcanic provinces, and established low-temperature and hydrothermal iron ores.

83 ne of the potential candidates to accomplish low-temperature and solution-based device assembly proce

84 al and subtropical crop that is sensitive to low temperature, and activates a complex gene regulatory

85 ered during stationary phase, low nutrition, low temperature, and antibiotics.

86 echanics of DNA repair and RNA processing at low temperature, and speculate that P. syringae Lz4W can

87 operational and efficient down to extremely low temperatures, and natural photosystems exhibit a var

88 monly require rigorous reagent purification, low temperatures, and strictly anhydrous reaction condit

89 Both species populate S = 1/2 states at low temperatures, and the influence of valence (de)local

90 r sensitizes cells and their microtubules to low temperatures, and we highlight a specific role for T

91 ; assess capability for energy generation at low temperature; and detail the mechanics of DNA repair

92 Low temperature annealing leads to the precipitation of

93 experiments on phyllosilicates formed under low temperature aqueous conditons have illustrated that

94 stems to assess if zircon crystals underwent low-temperature aqueous alteration, such as exemplified

95 recovery processes, are poorly defined under low-temperature aqueous conditions.

96 eld dependences of the resistivity of LNO at low temperatures are consistent with scatterings of char

97 , efficient electrocatalysts that operate at low temperatures are needed for electrocatalytic hydroge

98 e is shown to exhibit a zero-bias anomaly at low temperatures, arising from a suppression of the quan

99 how that a disordered fluid persists to very low temperatures at high concentrations.

100 k provides a new design strategy for extreme low-temperature batteries.

101 asifier, simultaneously providing energy for low-temperature biomass gasification using CO(2) as a ga

102 Using a low temperature block assay combined with genetic and ph

103 tivity were maintained by MeJA treatment and low temperature, both dose of MeJA showed the different

104 imation is triggered not only by exposure to low temperature, but also by a combination of decreasing

105 e to methanol using only oxygen and water at low temperatures, but the genesis and nature of the acti

106 Here, we show that low temperatures can inhibit Ll.LtrB intron splicing.

107 rimary source of energy and carbon losses in low-temperature carbon dioxide electrolysis.

108 The development of low-temperature, carburization-free routes to prepare TM

109 atalysts (SACs) present an emerging class of low-temperature catalysts with high reactivity and selec

110 on CF-causing variant, and confirm rescue by low temperature, CFTR-targeting drugs and second-site re

111 shock response (HSR), while facing perpetual low-temperature challenges to cellular proteostasis.

112 nd metal oxides that are deposited through a low temperature chemical vapour process.

113 O-M species, thus exhibiting not only higher low-temperature CO oxidation activity but also outstandi

114 rength at the interface that facilitates the low-temperature CO oxidation performance.

115 Low temperature combined with high relative humidity was

116 This is likely due to the more stable low temperature conditions of Antarctic waters than soil

117 ne-water mixture under elevated-pressure and low-temperature conditions typical of the deep marine se

118 Low temperatures constrain cellular life due to reductio

119 -exchange) is extremely challenging as these low-temperature conversion reactions are typically very

120 energy-intensive processes to decentralized, low-temperature conversions that can be powered by elect

121 ver, a change in the proportion of high- and low-temperature crustal alteration, or a combination of

122 requency ablation/electroporation, and ultra-low temperature cryoablation.

123 t of DeltaF508-CFTR, was greatly improved by low-temperature culture at 27 degrees C or small-molecul

124 grees C, demonstrating the role of HMP-PG in low-temperature damage and death in fab1, and in chillin

125 hlamydomonas sp. UWO241 exhibited a distinct low temperature-dependent phosphorylation pattern compar

126 only enables thin films to be fabricated via low-temperature deposition methods but also presents ric

127 cts because integration of dielectrics using low-temperature deposition processes compatible with com

128 rgy-intensive heat-driven procedures such as low-temperature distillations.

129 ort utilizing MXene-based supercapacitors at low temperatures (down to -60 degrees C).

130 d ectotherm organisms are at an advantage at low temperature due to increased warming.

131 ned fruits that were harvested and stored at low temperature during the pre-harvest interval, and the

132 However, the low temperature (e.g., below 15 degrees C) represents on

133 We perform low-temperature electric-transport measurements on bulk

134 Through low-temperature electrical characterization we demonstra

135 anion of ferrocene has only been observed in low-temperature electrochemical studies.

136 rhombohedral graphite are gapped(8) and, at low temperatures, electron transport is dominated by sur

137 A complex low temperature electronic order was recently discovered

138 The methodology is based on the low temperature embedding of fresh frozen specimens into

139 lectric Hall effect realized in a WSM toward low-temperature energy harvesting applications.

140 he western Antarctic Peninsula is an extreme low temperature environment that is warming rapidly due

141 toexcitation has been employed to unlock the low-temperature equilibrium regimes of thermal catalysis

142 Low-temperature ex-solution effectively inhibits the agg

143 Our low temperature experiments were conducted on canonical

144 Low-temperature exposure increased longevity, but reduce

145 xpression of OsCAF1B was closely linked with low-temperature exposure.

146 pression of OsCAF1B was tightly coupled with low-temperature exposure.

147 -quality perovskite film achieved by various low-temperature fabrication methods and matching of the

148 ecules under wet ambient conditions, causing low temperature failure of the commercial Cu/SAPO-34 cat

149 librating this defect-free ice, reaching its low-temperature FE order through a well-defined first-or

150 We focus on drought, high and low temperature, flooding, herbivore, and pathogen stres

151 geous at high temperature but deleterious at low temperature for both nitrogen fixation activity and

152 nes and aniline and can also be performed at low temperature for sensitive substrates in good to exce

153 lar mycorrhizal fungi on plant physiology at low temperatures, for example their effects on nutrient

154 compound does not appear to have an ordered, low-temperature form.

155 Our low-temperature [Formula: see text]SR results together w

156 lpha, 18S and RPL12), sex (RPS23 and RPL12), low temperature (GAPDH and alpha-TUB), high temperature

157 A representative, low-temperature gas-phase reaction mechanism synthesizin

158 (AgBiSe(2))(0.1) are directly evident in the low temperature heat capacity (C(p)) and switching spect

159 Moreover, the low temperature heat capacity data suggests strong coupl

160 he chains of (TlSe(2))(n)(n-), as evident in low temperature heat capacity, terahertz time-domain spe

161 or such low energy optical phonon modes with low-temperature heat capacity and temperature-dependent

162 8), and in this Article we present the first low-temperature heat capacity measurements of ZIF-8 with

163 cost reductions through the exploitation of low-temperature heat, recent U.S. policy drivers, and lo

164 e water as a product with the application of low-temperature heat.

165 in polar sea ice, where it tolerates extreme low temperatures, high salinity, and broad seasonal fluc

166 itions with large variations in pH, high and low temperatures, high salt concentrations, or in biolog

167 spread than previously thought, occurring in low-temperature, high-pressure metamorphosed basalts (bl

168 At low temperatures holes introduced via substitution of La

169 ions, that Cu transformations resulting from low-temperature hydrothermal aging and ambient temperatu

170 p. UWO 241 (UWO 241) is adapted to permanent low temperatures, hypersalinity, and extreme shade.

171 s, certain stresses (e.g., high temperature, low temperature, hypoxia, and radiation) induce ferropto

172 t intensity and/or light quality) before the low temperature in fall might be essential for complete

173 uperconducting ground-state phases emerge at low temperatures in magic-angle twisted bilayer graphene

174 ns of a current can be different at high and low temperatures, indicating that even a well-defined ge

175 We also show that low-temperature-induced hyperactivation of caspase-1 by

176 reactions are important in the evolution of low-temperature interstellar clouds, where the quantum t

177 ition from flat, ballistic field profiles at low temperatures into parabolic field profiles at elevat

178 Common responses to desiccation and low temperature involved chloroplast protection: enhance

179 tors, revealing that the charge transport at low temperature is dominated by the edge conduction with

180 hemistry, the direct reaction of elements at low temperatures is limited by low solid-state interdiff

181 The improved ion transport at low temperatures is made possible by breaking the conven

182 Comparison with previously reported low-temperature ligand-free and inhibitor-bound structur

183 More intriguingly, at the low temperature limit, the linker concentration still de

184 ude environment where short growing seasons, low temperatures, low pollinator activity or unstable we

185 I) species for effecting alkane oxidation at low temperatures (<408 K).

186 lly stable to catalyze methane combustion at low temperatures (<500 degrees C) with a low light-off t

187 e high zT at 700 K, but their performance at low temperatures (<500 K) is compromised due to their hi

188 Here we present a study of the low-temperature magnetic properties as well as K[Formula

189 taken in the phosphorescence time window at low temperature may consequently consist of both singlet

190 reas NdNiO(2) exhibits a resistive upturn at low temperature, measurements of the resistivity, critic

191 ition in spring, floral organ specification, low temperature-mediated floral bud break, early bloomin

192 CO(2) and high activity and selectivity for low-temperature methanol synthesis.

193 DFT calculations suggest that the low-temperature mixing is enhanced by shorter diffusion

194 In this study, we characterized low temperature mortality rates of H. halys adults that

195 dominant form over other tunneled phases in low-temperature natural environments.

196 This indicates that the low-temperature NH(3)-SCR reaction proceeds via a reacti

197 sts the role of the dimeric complexes in the low-temperature NH(3)-SCR reaction.

198 Under conditions for low-temperature NH(3)-SCR, oxygen only reacts with Cu(I)

199 Our mechanistic proposal was supported by low temperature NMR studies that can further be mapped b

200 F(5) were also prepared and characterized by low-temperature NMR and Raman spectroscopy, and also by

201 These cations were studied by low-temperature NMR spectroscopy in the superacids, whic

202 ll characterization of these oxonium ions by low-temperature NMR spectroscopy supported by density fu

203 sulting in higher NO (x) emissions, i.e., a "low temperature NO (x) emission penalty" was identified.

204 Most of the oil in low temperature, non-uplifted reservoirs is biodegraded

205 Technetium-99 immobilization in low-temperature nuclear waste forms often relies on addi

206 Improving the extremely low temperature operation of rechargeable batteries is v

207 opy technique has certain advantages such as low-temperature operation, authentic structural predicti

208 nder specific physical conditions of high or low temperature or high pressure.

209 -CFTR trafficking was partially corrected by low temperature or with the CFTR modulator VX-809.

210 present a comprehensive listing of plausible low-temperature orders and the parent flavor symmetry-br

211 he high temperature hexagonal (P6(3)/mmc) to low temperature orthorhombic (Pnma) phase transition via

212 e, an unprecedented approach is reported for low-temperature particle ex-solution on important nanosc

213 This low-temperature pathway can launch isomer-selective rout

214 Such an excellent low-temperature performance is sustained over hydrotherm

215 Here we report a strategy to activate the low-temperature performance of Pt catalysts on Cu-modifi

216 Ir(2)In(8)Se and Ir(2)In(8)Te, respectively) low-temperature phase transitions, where the chalcogenid

217 the high-temperature phase is lifted in the low-temperature phase.

218 Landau theory, the coexistence of high- and low-temperature phases is thermodynamically impossible d

219 small and stable linkage, compatibility with low temperature, photocontrollability, and widely availa

220 We report here that low-temperature photoinduced electron transfer from the

221 plore the nature of this enhancement through low temperature photoluminescence experiments.

222 Here we use intensity-dependent, low-temperature photoluminescence measurements, combined

223 esults pave the way to a systematic study of low-temperature physics in a broad range of physical con

224 Using low temperature piezoresponse force microscopy, we revea

225 SICRIT device, replacing the previously used low temperature plasma probe from our developmental AP-T

226 a dielectric barrier and a gas to generate "low temperature plasma." Although such a source has the

227 sy ambient sonic-spray ionization (EASI) and low-temperature plasma (LTP) ionization are powerful amb

228 Plasma medicine applies low-temperature plasma (LTP) physics to address biomedic

229 laser to a three-dimensionally (3D) printed low-temperature plasma (LTP) probe.

230 al-free N(2) reduction electrocatalyst via a low-temperature plasma bombardment approach.

231 Microplasmas are low-temperature plasmas that feature microscale dimensio

232 erformance and reliability issues of a-Si:H, low-temperature polycrystalline silicon and amorphous ox

233 stallizing solute phase was characterized by low temperature powder X-ray diffractometry.

234 pair requiring neither concatemerization nor low temperature preincubation.

235 of magnetic Fermi surface, excess entropy at low temperatures, pressure-induced phase transitions, an

236 l (SC-SC) desolvation, and exhibits a Type I low-temperature/pressure N(2) sorption isotherm (SA(BET)

237 A low-temperature, protecting-group-free oxidation of 2-su

238 A unified low-temperature reaction mechanism on the formation of a

239 recipitated inside nanopores and also during low-temperature recrystallization of radiation-damaged z

240 hosted and disseminated magnetite, match the low-temperature reference samples (<=400 degrees C).

241 50 K but reveal more complex behavior in the low temperature regime.

242 We find that this non-LKSR low-temperature regime cannot be accounted for in terms

243 es the formation of spin fluctuations in the low-temperature regime.

244 ity rates compared to ENA individuals at the low-temperature regimes.

245 eld-temperature phase space and often in the low-temperature region near the magnetic transition temp

246 esulting chain compound 1(o) exhibits faster low-temperature relaxation than that of 1(c), which is a

247 gies is due to two widely held views: 1) The low temperature required for radiant cooling in humid en

248 The peculiar low-temperature resistivity saturation in the 4f Kondo i

249 d-electron KI candidate that also exhibits a low-temperature resistivity saturation.

250 highly dependent on ambient temperature with low temperatures resulting in higher NO (x) emissions, i

251 magnesium and isotopic fractionation during low-temperature ridge flank hydrothermal circulation.

252 fluenza viruses A, B, RSV and HMPV preferred low temperatures; RSV and influenza A virus preferred a

253 ntermediate Bose metal state detected by the low-temperature saturation of the temperature dependence

254 ectrospray ion beam deposition and imaged by low-temperature scanning tunnelling microscopy(10).

255 ominant mechanism for H(2) production during low-temperature serpentinization is directly related to

256 lations with a low glucose content, baked at low temperatures/short times lead to optimal products.

257 maly from 70 to 220 K with a shoulder on the low-temperature side, suggesting sorption-induced struct

258 At low temperatures, single-photon emitters (SPEs) are pres

259 oach reveals insight for developing advanced low-temperature solid oxide fuel cell electrolytes.

260 freeze-quenching of the mixed solutions, and low-temperature solid state nuclear magnetic resonance (

261 based on rapid mixing, freeze-trapping, and low-temperature solid-state NMR (ssNMR) with signal enha

262 [CF(3) N(H)N(2) ](+) were prepared as their low-temperature stable [AsF(6) ](-) salts by protonation

263 umid flue gas and enables regeneration using low-temperature steam in lieu of costly pressure or temp

264 F1, OsCAF1B, in adaptation of rice plants to low-temperature stress was investigated.

265 ducible by a linear combination of high- and low-temperature structural motifs.

266 d by dropwise condensation of water vapor on low-temperature substrates.

267 Collagen will denature at relatively low temperatures, such as during roasting, boiling, or b

268 netic field-independent magnetoresistance at low temperature suggests it is in a charge-ordered state

269 Very few studies provide insight into the low-temperature sulfur and iron cycling from bioturbated

270 a field twice as high as those generated by low-temperature superconducting magnets.

271 which has an antiferromagnetic order at very low temperature (T(N) ~ 148 mK), and observed a finite k

272 ced capacities for lipid monodesaturation at low temperature thanks to an additional, poorly regiospe

273 l stress (i.e., heat shock proteins) even at low temperatures that reflected natural conditions.

274 uation-induced voltages, it is found that at low temperatures the resistance fluctuations are due to

275 Short photoperiod and low temperature, the major seasonal cues heralding winte

276 is observed at room temperature, whereas at low temperature, the pGNRs behave as quantum dots showin

277 Upon light doping with KOH at low temperature, the transition to FE ice takes place, b

278 At low temperatures, the phase-separated droplets of gamma-

279 ite a significant reduction in metabolism at low temperatures, the remaining cellular activity requir

280 ic tunneling has been invoked to explain the low-temperature thermal conductivity of solids for decad

281 heatwaves (i.e., shorter or with relatively low temperature thresholds) but were less than additive

282 the two Ni centers, which remains stable at low temperatures, thus permitting its characterization b

283 to access equilibrium states at sufficiently low temperatures to directly probe the glass transition

284 ogy and biofilm structuration, as well as on low temperature tolerance.

285 At low temperatures, transient tetrahedral domains of H-bon

286 It is then found that a low-temperature transition occurs on cooling at ~210 K t

287 competing phases, the SkL is promoted over a low-temperature transverse conical state by thermal fluc

288 e, as demonstrated by its pristine form in a low temperature ultra-high vacuum scanning tunneling mic

289 -unsaturated carbonyl compound, is formed at low temperature under mild conditions by treating beta-h

290 Its use for wine making (at low temperatures, using both free and immobilized yeast)

291 This polarization density saturates at a low temperature value of ~6 uC/cm(2), the largest ever m

292 Hydroxide base regeneration at low temperatures was observed for the first time.

293 ow-frequency sharp Drude and phonon peaks at low temperatures, we reveal two intermediate quasilinear

294 reme conditions (high speed, low visibility, low temperature, wet track).

295 usly, the ferroelectric (FE) ground state at low temperature where a residual Pauling entropy persist

296 metal deposition on graphite is observed at low temperature, which is an important degradation mecha

297 f magnetic moments or orbital occupancies at low temperatures, which is especially relevant to their

298 l transport phenomena usually appear at very low temperatures, which sets challenges for applications

299 l(3)VSe(4) show that normal phonons dominate low temperatures while diffuson-like phonons dominate hi

300 rmed in the hydrochars after HT treatment at low temperature, while more strengite precipitated at hi