ライフサイエンスコーパス: thermal

1 therapy) are different than those seen after thermal ablation and transarterial chemoembolization.

2 e cryotherapy group, 123 (64%) of 192 in the thermal ablation group, and 134 (67%) of 199 in the LLET

3 e cryotherapy group, four [2%] of 250 in the thermal ablation group, and five [2%] of 250 in the LLET

4 in the cryotherapy group, none of 242 in the thermal ablation group, and two [<1%] of 237 in the LLET

5 atment duration >10 min), a battery-operated thermal ablator that is lightweight and portable has bee

6 lobally distributed members from terrestrial thermal acid springs (pH < 4; T > 65 degrees C).

7 ncreasing excitation intensities, reflecting thermal activation and triplet-triplet exciton annihilat

8 etween near-field thermal radiation and MEMS thermal actuation, we presented the design and modeling

9 wed their ability to be combined into a full thermal adder to perform complex operations.

10 Simultaneous thermal analysis-pulse thermal analysis-Fourier-transform infrared spectroscopy

11 Simultaneous thermal analysis-pulse thermal analysis-Fourier-transfor

12 trical wiring, relaxing the requirements for thermal anchoring, and is also immune to electromagnetic

13 Thermal and acidification stress significantly reduced s

14 haracterization of the first ever documented Thermal AND and OR logic gates.

15 irring rate supports the notion that Earth's thermal and chemical evolution is likely to have been la

16 ondenses the fluid velocity and upsurges the thermal and concentration distributions.

17 Thermal and hypoxic stress commonly coexist in environme

18 tion were not impaired by any combination of thermal and hypoxic stress despite large reductions in C

19 rats causes neuropathic pain manifested with thermal and mechanical hypersensitivity in the ipsilater

20 imodal ionic receptor that can differentiate thermal and mechanical information without signal interf

21 Thermal and pH stabilities studies showed improved perfo

22 tution (M159I) that fundamentally alters the thermal and regulatory properties of Rca in bread wheat

23 Transportation of thermal and species are offered by using the temperature

24 Thermal and storage stability as well as optimal pH and

25 By imposing thermal and temporal control of the orthogonal gelation

26 outstanding performance, such as mechanical, thermal, and chemical resistance, suggesting new ways of

27 evalent sensory experience includes tactile, thermal, and olfactory stimulation delivered to the youn

28 performance of Ti(3)CNT (x) was achieved by thermal annealing and is attributed to an anomalously hi

29 Surprisingly, thermal annealing does not alter the film crystallinity,

30 Thermal annealing is known to enhance the BHJ photoactiv

31 ous carbon (a-C) films during deposition and thermal annealing is of significant interest from both t

32 film formed by their evaporation during the thermal annealing process has been broadly shown to indu

33 The optimized thermal annealing temperature window and preferred tempe

34 es of Pe-QD solids is demonstrated by a mild thermal annealing treatment after ligand exchange proces

35 to metal nanoparticles (NPs) as a result of thermal annealing under protective environment.

36 interaction with UV light, and the effect of thermal annealing.

37 to adapt to near-term future climate-change thermal anomalies.

38 (11 km), requiring the presence of a mantle thermal anomaly extending up to 2.67 Ma.

39 Thus, a thermal approach is proposed to separate the various car

40 unterparts with respect to their mechanical, thermal, barrier, and processability properties.

41 This work represents a paradigm shift in thermal-based modulation-demodulation of digital data, a

42 rmolecular hydrogen bonding, and improve the thermal behavior and crystallinity of oleogels.

43 atures (23-26 degrees C) and often has wider thermal breadths (due to cooler lower thermal limits) co

44 specifically true when not only considering thermal but also colored 1/f flicker noise processes, wh

45 n vivo mouse and rat models of cancer with a thermal camera reveals material heterogeneity and deline

46 imate change and that selection now promotes thermal canalization and robustness.

47 k the low-temperature equilibrium regimes of thermal catalysis, mechanism underlining potential inter

48 The thermal challenge response (DeltaSBF/DeltaT) was calcula

49 erature (SBFBT) and at 37 degrees C (SBF37) (thermal challenge test) once in volunteers and at the ti

50 lications of high-performance SDRC for human thermal comfort in buildings.

51 ns of measurements over the past 30 years of thermal comfort research.

52 rocesses that are difficult to realize under thermal conditions.

53 broods (larvae and/or pupae) in advantageous thermal conditions.

54 ts, the reported clathrates exhibit ultralow thermal conductivities of less than 1 W.m(-1).K(-1) at r

55 of ~ 93%), good UV-blocking ability, and low thermal conductivity (0.24 W m(-1)K(-1)) based on a proc

56 Intrinsically low lattice thermal conductivity ([Formula: see text]) in superionic

57 , we discover intrinsically ultralow lattice thermal conductivity (kappa(L)) in the single crystal of

58 by using the temperature-dependent models of thermal conductivity and mass diffusion coefficient.

59 iquid-like TE materials that exhibit lattice thermal conductivity at lower than the amorphous limit d

60 lution were detected by a gas chromatography-thermal conductivity detector and ion chromatography, re

61 Low thermal conductivity is favorable for preserving the tem

62 mass transfer rates, while their remarkable thermal conductivity minimizes hot spots and thermal gra

63 s, but single crystals show very low lattice thermal conductivity of about 4 W m(-1) K(-1) at room te

64 been invoked to explain the low-temperature thermal conductivity of solids for decades, our study es

65 act of various interatomic potentials on the thermal conductivity of the heterobilayer.

66 sfer point of view, it was observed that the thermal conductivity of this stable Ag-graphene/EG is si

67 This very low thermal conductivity primarily results from the weak van

68 rystals that exhibit the glassy trend of low thermal conductivity with a monotonic increase with temp

69 expected to produce a linear increase of the thermal conductivity with temperature that should manife

70 tes, enabled by their extremely low mass and thermal conductivity.

71 sound speeds usually exhibits higher lattice thermal conductivity.

72 dimensional hyperchannels for electrical and thermal conductivity.

73 terial [Formula: see text], to precisely map thermal contours from the nanoscale to the microscale.

74 in the western Pacific and enhanced land-sea thermal contrast, leading to 28% more rainfall projected

75 experimental data suggests an insignificant thermal contributions to stimulation, with a predicted i

76 g up to 23,040 PCR products) during a single thermal cycling protocol.

77 ctronic devices; we will illustrate that the thermal cycling variations strongly determine the type o

78 bility, from one device to another and after thermal cycling.

79 the thermal markers indicated the absence of thermal damage in the UHPH-treated musts, since 5-hydrox

80 sion and the risk of harm through collateral thermal damage to the adjacent healthy tissue.

81 othermal therapy, which results in localized thermal damage.

82 eater cumulative oceanic heat loss from ENSO thermal damping reduces stratification of the upper equa

83 solution satellite thermal measurements, the thermal decay rate may be a useful index for monitoring

84 nm) show a lower glass transition (T(g)) and thermal decomposition temperature and a lower Raman peak

85 The thermal degradation of the e-liquid solvents propylene g

86 e effects of moderate electric fields during thermal denaturation of beta-lactoglobulin were examined

87 thermodynamic hypothesis and the process of thermal denaturation, normally thought of as a cooperati

88 By using circular dichroism, thermal denaturation, nuclear magnetic resonance spectro

89 Filter-based thermal desorption (F-TD) techniques, such as the filter

90 Measurements by semivolatile thermal desorption aerosol gas chromatography (SV-TAG) w

91 ce of the SMS unit was tested with automated thermal desorption after SMS to collect samples for GC-m

92 on approach in inverse mode and experimental thermal diffusion data.

93 with varying topology by using the revisited thermal diffusion prediction approach in inverse mode an

94 ations taking into account consistently both thermal disorder and electronic correlations.

95 Here, a localized thermal managing strategy, thermal-disrupting interface induced mitigation (TRIM),

96 e strong requirement of zeaxanthin for rapid thermal dissipation and unsaturated fatty acids for memb

97 es on a particular form of fiber production, thermal-drawing from a preform.

98 hes them along the orbit) and they show both thermal dust emission and line emission from ionized gas

99 unprecedented wide range of (E/Z)-ratios by thermal (E/Z)-isomerization, lyotropic aggregation, and

100 and the physical factors in CAP such as the thermal effect, ultraviolet irradiation, and electromagn

101 uggests that additional energy transport and thermal effects could play an explicit role even if the

102 ic radicals in termite bodies indicating non-thermal effects of microwaves.

103 SFI to the combination of the mechanical and thermal effects of TUS (C-TUS).

104 The overall thermal emission recorded during drying was significantl

105 re changes can be monitored by measuring the thermal emission with thermal imaging.

106 olid-state system with temperature-dependent thermal emissivity switching.

107 n-stationary thermal radiation, generated by thermal emitters that have been modulated well beyond th

108 d systematically to fabricate high-efficient thermal energy harvesting devices.

109 dodecanoate group were demonstrated to store thermal energy in their metastable Z isomer liquid phase

110 Up to 92 kJ/mol of thermal energy was stored in the compounds, demonstratin

111 ng liquid-state Z isomers capable of storing thermal energy.

112 Thus, being well-adapted to its thermal environment makes the intermediate consumer bett

113 phic levels that can be supported in a given thermal environment, and that ectotherm food chain lengt

114 how ectotherm physiology adapts to different thermal environments is of crucial importance, especiall

115 00-fold in the (13) C NMR signal compared to thermal equilibrium at 9.4 T.

116 and intensity, emitted from a hot object at thermal equilibrium.

117 Selective area thermal etching (SATE) of gallium nitride is a simple su

118 the scale, magnitude, and severity of recent thermal events are entraining the biological responses o

119 ore disperse bands for holes upon optical or thermal excitation.

120 perconducting qubit frequencies features low thermal excitations, and offers an appealing platform to

121 s in fact fully consistent with heat-induced thermal expansion during illumination.

122 1183 m(2) g(-1)) and exhibits negative area thermal expansion.

123 sympatric ecotypes often showed differential thermal exposure.

124 uggests that ETP coral reefs have adapted to thermal extremes to date, and may have the ability to ad

125 ted the association between urban landscape, thermal features, and mosquito infestations.

126 Fourier transform infrared spectroscopy and thermal fluctuation spectroscopy revealed significant di

127 In this limit, thermal fluctuations are halved with reference to a cons

128 g the fundamental limit imposed by intrinsic thermal fluctuations at 0.19 kelvin.

129 nique shape, which undergoes small-amplitude thermal fluctuations at subsecond timescales, with a wid

130 where DNA accessibility is not the result of thermal fluctuations but is catalyzed by Bicoid and Zeld

131 Changes in the spatial and temporal thermal fluctuations of the particle were measured inter

132 emperature liquid chromatography (HTLC), and thermal gradient interaction chromatography (TGIC).

133 also highlight the fact that assessments of thermal gradients by changes in fluorescence of temperat

134 The Seebeck effect converts thermal gradients into electricity.

135 thermal conductivity minimizes hot spots and thermal gradients.

136 stitution effects on their light absorption, thermal half-lives, photostationary states, fatigue, and

137 s provide a direct measure of the subsurface thermal history and demonstrate its importance to the ul

138 Materials possessing memory of thermal history hold promise for applications such as ne

139 The impact of the inner structure and thermal history of planets on their observable features,

140 onology is routinely used to investigate the thermal history of sedimentary basins, as well as tecton

141 ed sensitivity to light touch, pinprick, and thermal hyperalgesia in the absence of injury, without a

142 etection of noxious heat and in inflammatory thermal hyperalgesia.

143 eas identified as active, demonstrating that thermal imaging is a promising approach for the clinical

144 tored by measuring the thermal emission with thermal imaging.

145 sorbent for carbendazim was prepared by the thermal immobilization of the poly(glycidoxypropylmethyl

146 To predict thermal impacts on migratory riverine populations, we fi

147 e energy consumption associated with the non-thermal IMT is extremely low, rivaling that of state-of-

148 t 'THz Torch' technology, which exploits the thermal infrared spectrum (ca. 10 to 100 THz), was recen

149 agogastroduodenoscopy revealed minor mucosal thermal injury in 2 of 36 RF/PF and 0 of 24 PF/PF patien

150 view, we outline DAMPs and their function in thermal injury, shedding light on the mechanism of steri

151 identifying new immune targets for treating thermal injury.

152 sm through which the gustatory system senses thermal input and integrates temperature and chemical si

153 leased free quercetin, which points to their thermal instability.

154 indoor energy consumption by enabling better thermal insulation, promoting effective sunlight harvest

155 sample throughput compared to an established thermal ionization mass spectrometry (TIMS) double-spike

156 ation based on alternating photochemical and thermal isomerizations of overcrowded alkenes is well es

157 could help create super-intense narrow band thermal light sources and even an infrared emitter with

158 er to their thermal limits, while NTW avoids thermal limits and may relieve constraints of cooler nig

159 wider thermal breadths (due to cooler lower thermal limits) compared to pathogens with predominately

160 ariation and moves organisms nearer to their thermal limits, while NTW avoids thermal limits and may

161 okes, leading to a precise evaluation of the thermal load and drag reductions.

162 tolerances and used this dataset to test for thermal macrophysiological patterns and processes in pla

163 Furthermore, with proper thermal management, a maximum current density of 2.5 kA

164 Here, a localized thermal managing strategy, thermal-disrupting interface

165 Concentrations of the thermal markers indicated the absence of thermal damage

166 by irreversible cracking chemistry, but, as thermal maturity increases, the isotopic distribution of

167 We use new biomarker thermal maturity indicators to identify seismic faults i

168 arine production conditioned by the Holocene Thermal Maximum, a time of elevated temperature, sea lev

169 bility of finer spatial resolution satellite thermal measurements, the thermal decay rate may be a us

170 explain these macroecological patterns: the thermal melanism hypothesis (TMH), the melanism-desiccat

171 ological properties of domain walls or their thermal mobility.

172 al data collected are presented, and finally thermal modeling results are presented and discussed.

173 This compound has a good thermal-neutron-capture cross-section, a suitable bandga

174 ndidate material for the direct detection of thermal neutrons at room temperature.

175 which has remained, hitherto, elusive under thermal Ni catalysis.

176 anobacteria during the colonization of novel thermal niches.

177 Gaussian channels that model energy loss and thermal noise errors in realistic optical and microwave

178 The simple approach of thermal noise tracking points out new strategies in unde

179 Despite some undesired upconverted thermal noise, no noise is intrinsically introduced by e

180 attenuation and are resilient to ubiquitous thermal noise.

181 pportunities for species to diverge in their thermal optima.

182 we estimated the frequency of exceeding the thermal optimum (T(opt) ) or critical evaporative water

183 lving different activation methods (optical, thermal, or combined) for generating liquid-state Z isom

184 ace Al(2)O(3) layer, formed after an initial thermal oxidation, supports a wide range of metal and me

185 We, therefore, present a simple thermal-oxidative compositional inversion (TOCI) method

186 e applied to Riesling must and compared with thermal pasteurization.

187 echanical, electrical, magnetic, optical, or thermal phenomena.

188 insufficiently studied with respect to their thermal physiology.

189 atures, suggesting that the current level of thermal plasticity is maladaptive in the context of anth

190 them into CoMP(x) solid-solution NRs through thermal post-treatment are essential to overcome the obs

191 on approaches including photovoltaics, solar thermal power systems, and solar thermoelectric generato

192 SA) helps to control the physicochemical and thermal properties of isolated starches.

193 ng corrections are required to reproduce its thermal properties.

194 Microhabitats will provide thermal protection to Andean frog communities from clima

195 in an application that we refer to as mutant thermal proteome profiling (mTPP).

196 We applied MS-based thermal proteome profiling (TPP) to investigate the prot

197 conditioning test stimulus, using mechanical/thermal quantitative sensory testing (MQST or TQST), wer

198 ion algorithm (QAOA), we generate nontrivial thermal quantum states of the transverse-field Ising mod

199 Based on the coupling between near-field thermal radiation and MEMS thermal actuation, we present

200 Energy transferred via thermal radiation between two surfaces separated by nano

201 ective nor eco-friendly, to selectively emit thermal radiation to outer space and simultaneously maxi

202 sensitivity of detection with non-stationary thermal radiation, generated by thermal emitters that ha

203 pconversion followed by optical detection of thermal radiation.

204 Natural selection favored reduced thermal reaction norm slopes at high ambient temperature

205 how natural and sexual selection operate on thermal reaction norms, reflecting such plasticity.

206 n in the number of lakes in the northernmost thermal region is projected.

207 perimental demonstration of passive, dynamic thermal regulation in a solid-state system with temperat

208 Our results nevertheless reveal greater thermal resilience than observations of short-term varia

209 nabled efficient VLP conjugation and extreme thermal resilience.

210 An anomalous thermal response is detected in the superfluid which we

211 od that uses the magnitude of the associated thermal response of H(2)O as an internal normalization s

212 by the wavelength-dependent reflectivity and thermal response of the underlying substrate.

213 and scarless method for imparting reversible thermal responsiveness to theoretically any nucleic acid

214 However, stoichiometry-preserving, purely thermal, reversible phase transitions, which are fundame

215 The thermal sensitivity of kinetic parameters allows us to p

216 tive approach, we study the evolution of the thermal sensitivity of population growth rate across phy

217 monstrated in MV411 cells using the cellular thermal shift assay (CETSA).

218 tly available label-free technologies, e.g., thermal shift assays, circular dichroism, and differenti

219 power generation from a broadband blackbody thermal source has been experimentally demonstrated with

220 a weakly collisional plasma expanding from a thermal source in the presence of spatially diverging ma

221 st utilize the broad spectrum of a radiative thermal source.

222 ollisionless plasma expanding from a central thermal source.

223 Moderate-temperature thermal sources (100 degrees to 400 degrees C) that radi

224 7 to 61 microwatts per square centimeter for thermal sources between 250 degrees and 400 degrees C.

225 d crucially, the crystalline samples display thermal stabilities in good agreement with the trend obs

226 teration of DNA helical structure or reduced thermal stabilities.

227 xhibit outstanding properties including high thermal stability (up to 450 degrees C) and aqueous stab

228 Thermal stability and 1-anilinonaphthalene-8-sulfonic ac

229 e C-terminal FXXF motif in PKAc regulate its thermal stability and catalysis.

230 ic anisotropy, which plays a crucial role on thermal stability and critical writing current, remains

231 This study examines the thermal stability by differential scanning fluorimetry (

232 thyl-1-phenylethan-1-imine) exhibited higher thermal stability compared to the previously reported (e

233 early extended B,N-doped heptacene with high thermal stability is designed and synthesized in good yi

234 tability of nanocrystals, and BCNCs had high thermal stability like raw BCNFs.

235 ogical stability, high binding affinity, and thermal stability make TNA aptamers a powerful system fo

236 ic proto-peptides significantly increase the thermal stability of folded RNA structures.

237 Here we evaluated the thermal stability of magnetosomes in a temperature range

238 tralization post-treatment did not alter the thermal stability of nanocrystals, and BCNCs had high th

239 Further, the superior thermal stability of NMA to NMC, NCA, and NMCAM is shown

240 formation without substrate to determine the thermal stability of Omega.

241 The thermal stability of oxaphosphetanes is determined by st

242 In this review, the literature on thermal stability of sucralose and the generation of pot

243 ld be maximized while retaining a reasonable thermal stability of the metastable cyclophanediene isom

244 d in the compounds, demonstrating remarkable thermal stability of Z isomers at high temperatures and

245 addressed, such as low energy density, poor thermal stability or cycle stability, and large interfac

246 es, and some of them exhibit: i) outstanding thermal stability tested up to 1230 K, ii) exceptionally

247 , mechanical strength, optical transparency, thermal stability, and chemical resistance will promote

248 00 nm), high homogeneity and stability, high thermal stability, and encapsulation efficiency caroteno

249 bination, on receptor binding, pH of fusion, thermal stability, and virus replication were investigat

250 me advantages such as good water solubility, thermal stability, biodegradability, and low toxicity, b

251 e performance, improved cycle stability, and thermal stability.

252 asing attention because of their outstanding thermal stability.

253 accines with adjuvants, frequently have poor thermal stability; heating and/or freezing impairs their

254 l, gastric, and rectal distension, cutaneous thermal stimulation, and vulvar pressure) to establish a

255 Besides thermal-stimulation, in bright environments, photo-stimu

256 discriminate various intermixed tactile and thermal stimuli using a machine-learning approach.

257 Thermal-stimuli responsive nanomaterials hold great prom

258 Mouse lenses subjected to thermal stress followed by glycation lost resilience mor

259 of B2 RNA from chromatin, and activation of thermal stress genes.

260 ce more extensively than lenses subjected to thermal stress or glycation alone, and this loss was acc

261 RNA-sequencing data to assess how organismal thermal stress translated to the cellular level.

262 gements of crack defects which evolve due to thermal stress under cooling.

263 The greatest adaptive resilience to upper thermal stress was shown by the subtropical ecotype, fol

264 projection models quantifying the effect of thermal stress within a subtropical coral assemblage.

265 Thermal stress, assessed for each life stage and ecotype

266 rovided, individual mice may be experiencing thermal stress.

267 mic species, such as Pocillopora aliciae, to thermal stress.

268 expressed when experiencing daily transient thermal stress.

269 ehydrogenase or citrate synthase by applying thermal stress.

270 f niche space for potential pathogens during thermal stress.

271 080 and 0.127 reduced coral bleaching during thermal-stress events.

272 associated with the responses to osmotic and thermal stresses were also identified.

273 tal-organic framework glasses feature unique thermal, structural, and chemical properties compared to

274 ne trends and drivers of whole-lake vertical thermal structure.

275 y the westward-propagating migrating diurnal thermal tide, zonally distributed dust fronts slosh back

276 s that have been modulated well beyond their thermal time constants.

277 extremes of the species' range to correlate thermal tolerance and gene expression among populations

278 s C), while also significantly enhancing the thermal tolerance of its aphid vector Rhopalosiphum padi

279 Selection to increase upper thermal tolerance was also performed on warm-acclimated

280 lines in which evolution toward higher upper thermal tolerance was slow (0.04 +/- 0.008 degrees C per

281 with these changes depends on their inherent thermal tolerance, acclimation capacity, and ability for

282 CO(2) can enhance seagrass productivity and thermal tolerance, providing some compensation for clima

283 ts of climate change, but depending on their thermal tolerance, they may be particularly vulnerable t

284 ggest the existence of a hard limit in upper thermal tolerance.

285 This is alarming if we are to understand how thermal tolerances are distributed globally, improve pre

286 e found that species-specific differences in thermal tolerances strongly influenced occupancy dynamic

287 y resource availability rather than absolute thermal tolerances.

288 ss on ecosystem functioning were mediated by thermal trait variability.

289 nous operation by dynamically predicting the thermal transients for the next bit to be received.

290 rdboard plates levitate due to light-induced thermal transpiration through microchannels within the p

291 To understand such a puzzling thermal transport behavior, we have thoroughly investiga

292 The electrical and thermal transport can also be significantly tuned by the

293 on botanical and geographical origin, where thermal treatment can have a significant affect.

294 d especially of T(2) relaxation times during thermal treatment enabled their interpretation relative

295 In this study, a catalytic alkaline thermal treatment of brown seaweed is investigated to pr

296 While thermal treatment of lettuce leaves increases carotenoid

297 ynthesis still relies on an energy-intensive thermal treatment pathway (Acheson process) at about 300

298 ffective alternative to other mechanical and thermal treatments for NVUGIB, particularly for ulcers i

299 in increased interface recombination, (iii) thermal treatments of devices with ZnO layer result in s

300 The thermal unfolding of a recombinant monoclonal antibody I