ライフサイエンスコーパス: room temperature

1 hin the tetragonal phase, which is stable at room temperature).

2 ion and produce desired electrical output at room temperature.

3 ty more than storage time at both frozen and room temperature.

4 with unactivated secondary alkyl bromides at room temperature.

5 amino groups underwent C-N bond formation at room temperature.

6 e in a single-molecule electrical contact at room temperature.

7 force generated by a standard laser diode at room temperature.

8 nd eventually gets kinetically controlled at room temperature.

9 hesized using quercetin as reducing agent at room temperature.

10 eration response that is over 550% higher at room temperature.

11 a detection cell was incubated for 30min at room temperature.

12 perature and with hexane/ethanol mixtures at room temperature.

13 orazine Lewis acids in quantitative yield at room temperature.

14 f-lives in the dark of up to several days at room temperature.

15 owest energy configuration of atoms, even at room temperature.

16 luminescence emission reaching 1.3 microm at room temperature.

17 ism show magnetoelectric coupling effects at room temperature.

18 ture, were complete after only 15 minutes at room temperature.

19 see text]m thick) "supramolecular fibers" at room temperature.

20 In some cases it can even function at room temperature.

21 infrared fluorescent at ambient pressure and room temperature.

22 The condensate can be observed at room temperature.

23 t methane oxidation without overoxidation at room temperature.

24 biting remarkable self-healing capability at room temperature.

25 of Zn microparticles in aqueous solutions at room temperature.

26 the hole population among several states at room temperature.

27 of a molecular thorium carbonyl isolable at room temperature.

28 ing with a ratio of 10(3) can be achieved at room temperature.

29 er a small electric field of 1.8 V mm(-1) at room temperature.

30 s by self-assembly from aqueous solutions at room temperature.

31 ([Formula: see text]) rarely exceeds 1 m at room temperature.

32 intermediates are stable at conditions above room temperature.

33 rated at high temperature was higher than at room temperature.

34 ower output and narrow beatnote linewidth at room temperature.

35 n the form of thin films ordering well above room temperature.

36 three-dimensional topological insulators at room temperature.

37 ibits a large anomalous Hall effect, even at room temperature.

38 from 110 oriented bromide 2D perovskites at room temperature.

39 gular pressing (ECAP) for 2 and 16 passes at room temperature.

40 ynes and azides (i.e., "Click" reactions) at room temperature.

41 The data are collected at room temperature.

42 rapid formation of the cyclic C-C product at room temperature.

43 and after more than two months of storage at room temperature.

44 s with physical widths as small as 200 nm at room temperature.

45 e substrate scope under 1 bar H2 pressure at room temperature.

46 -1) and exhibited good capacity retention at room temperature.

47 ffected by the heat treatments or storage at room temperature.

48 ize 240nm) and Co(2+) in basic solution at room temperature.

49 Mn(2+), Ni(2+), Zn(2+), Co(2+) and Cd(2+) at room temperature.

50 lta, that has a charge density wave (CDW) at room temperature.

51 strates (pKa from 18.7 to 28.8) was found at room temperature.

52 ly present already at the second addition at room temperature.

53 spin labels for DEER distance measurement at room temperature.

54 ns, placed into plastic trays, and stored at room temperature.

55 bengal as an organic photoredox catalyst at room temperature.

56 n, enabling gamma-ray spectrum collection at room temperature.

57 ving this quantum backaction signature up to room temperature.

58 g prospects for realistic exciton devices at room temperature.

59 lography under noble gas pressure, mostly at room temperature.

60 le-spin NMR spectra with 13 Hz resolution at room temperature.

61 rolyte could be successfully employed at the room temperature.

62 ly controlled nonlinear polariton devices at room temperature.

63 xhibit quantum interference signatures up to room temperature.

64 )PbI3-2x(I2)x where x approximately 0.007 at room temperature.

65 per E+ valence subbands has been observed at room temperature.

66 ing values ( approximately 65 mV dec(-1)) at room temperature.

67 l as high thermoelectric power (22 muV/K) at room temperature.

68 ased simply to 90.9% of the initial value at room temperature.

69 mpared with the properties of hollow CNTs at room temperature.

70 ene has a half-life time of several weeks at room temperature.

71 the trion binding energy by nearly 20 meV at room temperature.

72 adsorbed on single-crystal Ag substrates at room temperature.

73 high activity for the ROP of rac-lactide at room temperature.

74 (CAP) devices with ion temperatures close to room temperature.

75 ma-hydroxy lactams and C/O/S nucleophiles at room temperature.

76 pecific problems and to anneal the system at room temperature.

77 :13 at CVT level to 1:2 at CVT+SCT level for room temperature.

78 borane or catecholborane, proceed cleanly at room temperature.

79 -1) and a detectivity of 9 x 10(11) Jones at room temperature.

80 glet) and high-spin (quintet) populations at room temperature.

81 changes can promote magnetic tristability at room temperature.

82 ements based on single molecule junctions at room temperature.

83 easily assembled gold nano-gap resonators at room temperature.

84 ling magnetoresistance have been achieved at room temperature.

85 the positions observed in the simulations at room-temperature.

86 stallographic experiments to be performed at room-temperature.

87 ction enables an enhanced valley helicity at room temperature (0.33 +/- 0.05) observed in both steady

88 ced by maceration process, which occurred at room temperature (20+/-2 degrees C) for 15days.

89 rage condition experiments were performed at room temperature (20-25 degrees C) in daylight without d

90 were fully reversed by returning animals to room temperature (22 degrees C) for 4 h or by intravenou

91 t, high-power oxide electronics operating at room temperature a step closer to reality.

92 Layer-by-layer growth is observed at room temperature accompanied by clear RHEED oscillations

93 ldehydes, in good to high isolated yields at room temperature, after only 2 min reaction.

94 Heating slightly above room temperature allows the initial locked state to be r

95 P of 0.58 and 10 pW/Hz(0.5) were obtained at room temperature and 200 degrees C, respectively.

96 nfigured using an applied electric field, at room temperature and after device fabrication.

97 This method proceeds efficiently at room temperature and can be applied to functionalize sec

98 This transformation efficiently proceeds at room temperature and enables synthesis of valuable funct

99 e cytosines per tract folded into i-motif at room temperature and neutral pH.

100 tains extremely high strengths of 105 MPa at room temperature and of 35 MPa at 90 degrees C.

101 lent mechanical properties, low ductility at room temperature and poor microstructural stability at e

102 certain spin whirls, so-called skyrmions, at room temperature and potentially offer integrability int

103 asurements of the gas released on warming to room temperature and Rietveld analyses of neutron diffra

104 f gold single-atom junctions is quantized at room temperature and shows that the Wiedemann-Franz law

105 rial but it's ferromagnetic TC is well below room temperature and the magnetic phase diagram is unkno

106 are operated with continuous current mode at room temperature and the shortest wavelength reaches 284

107 fect transistor (MOSFET) at 60 mV dec(-1) at room temperature and therefore precludes lowering of the

108 These reactions are readily reversible at room temperature and thus represent the first examples o

109 The reaction is consistently operated at room temperature and tolerates a wide range of functiona

110 ce imaging (MRI) of nanodiamonds in water at room temperature and ultra-low magnetic field.

111 By recording chronoamperograms at room temperature and various ac powers, it is shown that

112 xenate salts are stable in the atmosphere at room temperature and were characterized in the solid sta

113 This study reports a room-temperature and one-step synthesis technique that l

114 ded adducts were obtained in good yields, at room temperature, and in the absence of added metal cata

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

116 s low catalyst loadings, proceeds rapidly at room temperature, and is effective for many different pe

117 Bu)Ar3NC)3 complex luminesces in solution at room temperature, and its excited-state lifetime (2.2 ns

118 nd magnesium catalytic systems are active at room temperature, and the latter provides the first exam

119 complexes are considered photoluminescent at room temperature, and their rapid excited-state deactiva

120 re, and the narrow temperature window around room temperature at which this orthorhombic phase is the

121 The process is imaged in situ, at room temperature, at the nanometer scale by using an ato

122 a subthreshold swing below 60 mV dec(-1) at room temperature based on bilayer n-MoS2 and heavily dop

123 At room temperature, blocking ATP hydrolysis effectively ab

124 ic polylactide with a Pm higher than 0.90 at room temperature but also were able to preferentially pr

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

126 and Mn(3+) and orbital order of Mn(3+) near room temperature, but both charge and orbital orders col

127 on are too small for storage applications at room temperature, but research into device materials, ge

128 phenols and terminal alkynes was achieved at room temperature by a visible-light-mediated copper-cata

129 nsition can be manipulated reversibly around room temperature by appropriate design of the electrosta

130 external electric fields are investigated at room temperature by means of terahertz time-domain spect

131 ed complex is reported that can be formed at room temperature by reaction of [(L)2Ni(II)2(mu-X)3]X (X

132 nd VHF-to-DHA conversion from 65 to 202 h at room temperature by simply decreasing the ring size.

133 nge from 0.3 to 1.4 THz has been achieved at room temperature, by applying a bias current of 100 mA.

134 on, 4-dimethylaminopyridine (DMAP) undergoes room-temperature C-N bond cleavage, which forms a dimeth

135 g during preparation and thermal effect near room temperature can hinder the rich physics.

136 Record high room temperature charge carrier mobility up to 52 cm(2)/

137 In this work, we report the rapid room-temperature cleavage of C-H bonds in pyridine, 4-te

138 Wide bandgap perovskite oxides with high room temperature conductivities and structural compatibi

139 ron transfer process (conPET) and allows the room temperature conversion of brominated and chlorinate

140 olumns shows high catalytic activity for the room-temperature coupling of deactivated/hindered biaryl

141 injectors can also be routinely employed for room-temperature data collection at synchrotrons.

142 ilar rotation rates ( approximately 8 ps) at room temperature, despite differences in other temperatu

143 Here we demonstrate room temperature, deterministic and robust, exchange cou

144 y is suitable as an active component in near room temperature devices, such as magnetocaloric regener

145 A galvanic-displacement-reaction-based, room-temperature "dip-and-dry" technique is demonstrated

146 le-spin NMR spectra with 13 Hz resolution at room temperature.Dissipation of the sensor is a limiting

147 excitons are particularly important even at room temperature due to strong Coulomb interaction and a

148 mega cm(2) to 1 Omega cm(2), was observed at room temperature, effectively negating the lithium metal

149 The high room-temperature electron mobility and near-infrared pho

150 ase transition in the IrMn layer develops at room temperature, exchange biasing the FeCo layer as it

151 er hydrostatic pressure and then quenched to room temperature, exhibits a distinct glassy structure.

152 Compound 6 has a remarkable room temperature experimental density of 1.955 g cm(-3)

153 d to model eyebank processing with regard to room temperature exposure on Candida growth in optisol-g

154 Sr3 Sn2 O7 is the first room-temperature ferroelectric Sn insulator with switcha

155 Here we report signatures of room temperature ferroelectricity observed in perovskite

156 ent of 2D Ti-based TMDs toward half-metallic room-temperature ferromagnetism character.

157 Reactions were conducted in a room-temperature flow tube under low-NOx conditions in t

158 s, and samples were stored at 4 degrees C or room temperature for 4 or 24 hours before performing BAT

159 and covered in phosphate-buffered saline at room temperature for 56 h.

160 mediately, and a second set was incubated at room temperature for 96 hours and then frozen.

161 ading and generally occurre within 15 min at room temperature for a range of activated alkenes.

162 etection of Hx in pork tenderloins stored at room temperature for seven days.

163 eS2 in a distorted 1T phase is determined at room temperature for the in-plane directions parallel an

164 m (Pd/C) anode to establish a membrane-free, room-temperature formate fuel cell that operates under b

165 he supercooled liquid phase, which forms the room-temperature glass phase on quenching.

166 reversible insulator-metal transition above room temperature, has been incorporated into nanoscale h

167 the desired control of the moisture level at room temperature, have yet to be explored.

168 microscopy (cPALM) that permits the use of a room-temperature high-numerical-aperture objective lens

169 We report an operationally convenient room temperature hydroboration of aldehydes and ketones

170 The efficient and highly selective room temperature hydrodefluorination (HDF) of fluoroaren

171 Above room temperature, hydrogen diffusion in alpha-Zr and Zir

172 of a large electromechanical conversion near room temperature in (1-x)Ba(Zr0.2Ti0.8)O3-x(Ba0.7Ca0.3)T

173 ispersity (Mw/Mn < 1.3) could be obtained at room temperature in 5 minutes.

174 om wavelength of 1.5 microm are generated at room temperature in a approximately 100 nm thick carbon

175 n which case they are indefinitely stable at room temperature in inert atmosphere.

176 F nuclear magnetic resonance spectroscopy at room temperature in magnetic fields below 50 mT.

177 articipate in helical secondary structure at room temperature in the absence of denaturants.

178 tive differential resistance was observed at room temperature in the MoS2 negative-capacitance FETs a

179 s, reactions proceed efficiently at or below room temperature in the presence of 5 mol % of a Pd cata

180 sis of ethyl 3-azido-4,6-difluorobenzoate at room temperature in the presence of oxygen results in th

181 We observe current blockade at room temperature in thousands of single-cluster junction

182 Reduced room temperature incubation and the addition of antifung

183 In vitro, increased room temperature incubation of optisol-GS increased grow

184 into optisol-GS and subjected to 2 different room temperature incubation regimens reflective of curre

185 The dynamics of the room-temperature ionic liquid (RTIL) 1-butyl-3-methylimi

186 The GPE contained the hydrophobic room-temperature ionic liquid (RTIL) trihexyltetradecylp

187 , in poly(ether sulfone) (PES) membranes and room-temperature ionic liquid (RTIL), 1-ethyl-3-methylim

188 A room-temperature ionic liquid, 1-ethyl-2,3-dimethylimida

189 iolet-visible light down to 100 fW cm(-2) at room temperature is demonstrated.

190 Stress-assisted grain growth at room temperature is known for materials with nanocrystal

191 We demonstrate that this grain growth at room temperature is similar to non-uniform grain growth

192 ibitors to resistant HIV-1 protease, we used room-temperature joint X-ray/neutron (XN) crystallograph

193 Here we demonstrate for the first time a room-temperature laser operation in the infrared region

194 In this work, we demonstrate room-temperature lasing in 7 x 7 InGaAs/InGaP core-shell

195 rovides high spatial selectivity and enables room-temperature lasing in protein rings, and circular a

196 Here we report, at room temperature, lasing action from an optically pumped

197 Organic materials exhibit exceptional room temperature light emitting characteristics and enor

198 The work introduces room-temperature liquid metals as a reaction environment

199 terms of creating pathways to the long-range room temperature magnetic order observed in this distinc

200 is necessary to understand the origin of the room temperature magnetisation.

201 numerical analysis was conducted to study a room temperature magnetocaloric refrigerator with a 16-l

202 capacity of 208 v/v between 5 and 80 bar at room temperature, making it among the best performing me

203 c polarization behavior with a T c above the room temperature, making them attractive candidates for

204 e propose a protocol to dissipatively cool a room temperature mechanical resonator using a nitrogen-v

205 duced nanorods with a twinned version of the room temperature monoclinic phase in HfO2.

206 cles is achieved via vesicle dissociation at room temperature; moreover, the rate of release can be f

207 rystal cavity into a stable, continuous-wave room-temperature nanolaser with a threshold below one mi

208 of lighter main-group element complexes, and room-temperature near-IR phosphorescence in the case of

209 Here we report the room temperature, neutral pH (6.8), damage-free structur

210 Here we present a room-temperature neutron structure of a homodimeric PLP-

211 ly much smaller than the thermal motion of a room-temperature object and thus difficult to observe.

212 dant processes, delaying the ripening during room temperature of storage.

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

214 kite ferroelectric material is integrated at room temperature on a flexible substrate by the layer tr

215 Such inks are processed at room temperature on a wide variety of surfaces by spray

216 dative homocoupling reaction is performed at room temperature, open to atmosphere, and without the ne

217 Furthermore, the effect persists at room temperature, opening possibilities for practical va

218 The reaction occurs at room temperature over the course of 6-12 h and provides

219 ntibodies, and enzymes, typically degrade at room temperature over time due to denaturation, as prote

220 In this study, a facile room-temperature phosphorescence sensor is developed to

221 We devised a novel room-temperature-phosphorescence (RTP)-based oxygen dete

222 ransfer lifetime of 100 picoseconds (ps) and room-temperature photoluminescence.

223 Room temperature photovoltaic response with a cut-off wa

224 th beta-keto acids under basic conditions at room temperature proceeds with high levels of diastereoc

225 sity of coherent twin boundaries using a new room temperature process based on localized PED (L-PED).

226 Since the first report of a facile, room temperature process to access aza-ortho-quinone met

227 stence separated by domain walls (DWs) above room temperature provides immense potential for exploita

228 results, Hg3Se2I2 is the most promising for room-temperature radiation detection.

229 The room temperature reaction is high yielding and amenable

230 conversion of N2 to N(SiR3)3 (R = Me, Et) at room temperature, representing the highest turnover numb

231 ion was observed after 120days of storage at room temperature, revealed by a slight reduction of omeg

232 ure and thus represent the first examples of room-temperature reversible redox processes for s-block

233 y determining the X-ray structure of Aqy1 at room temperature (RT) at 1.3 A resolution, and by explor

234 ally useful conductivities of 10(-2) S/cm at room temperature (RT).

235 es of 10, 15 and approximately 25 degrees C (room temperature, RT), was studied to evaluate shelf-lif

236 Near room temperature second-order magnetic phase transition

237 e with a circumference of 7.5 nanometres, at room temperature, shows that quantum coherence can persi

238 resolution of the internal spin structure of room temperature skyrmions without a stabilizing out-of-

239 Our results, obtained at room temperature so as to preserve ideal vacuum conditio

240 Room-temperature sodium metal batteries are impractical

241 A new, all room-temperature solution process is developed to fabric

242 ies reported to date for PVSCs fabricated by room-temperature solution-processed techniques.

243 The development of compact and tunable room temperature sources of coherent THz-frequency signa

244 ce figures of this magnetoelectric device at room temperature (speed, area, power consumption) may be

245 lective transformation to the first reported room temperature stable, acyclic, two-coordinate N,O-sil

246 A room-temperature-stable crystalline 2H-phosphirene (1) w

247 Historically, room-temperature structure determination was succeeded b

248 ssion electron microscopy, we report unusual room-temperature super-elongation without softening in f

249 d remarkable electronic properties including room-temperature superconductivity.

250 Metallic hydrogen may be a room-temperature superconductor and metastable when the

251 Slow-compression room-temperature synthesis may allow diverse molecular m

252 These materials were prepared from a room-temperature synthesis wherein crystallization of un

253 including high-temperature modifications by room-temperature synthesis.

254 ffers the prospect of rapid, simple, 1-step, room-temperature syringe-and-vial radiolabeling of (68)G

255 undum GaFeO3 exhibits weak ferromagnetism at room temperature that arises from its Fe2O3-like magneti

256 ion in a transmission electron microscope at room temperature, that nanoporous Au indeed has signific

257 spin state at temperatures of 200 K to above room temperature; that is, well above the spin crossover

258 At room temperature, the coexisting vortex and ferroelectri

259 o undergo spontaneous TAAC polymerization at room temperature; the latter shows faster kinetics.

260 rmal properties upon Bi4O4Cu1.7Se2.7Cl0.3: a room-temperature thermal conductivity (kappa) of 0.4(1)

261 Here we present the superior room-temperature thermoelectric performance of p-type tr

262 Intracoronary infusion of saline at room temperature through a dedicated catheter for corona

263 effect, that elevates water temperature from room temperature to 41.8 degrees C within 2 minutes, whi

264 s the cooling of a mechanical resonator from room temperature to a fraction of its thermal phonon occ

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

266 one-pot, two-step stoichiometric reaction at room temperature to form uranium(IV) siloxides.

267 Raising the temperature of optic nerve from room temperature to near physiological has effects on th

268 peeds (c T) versus pressure from higher than room temperature to T C for the first time.

269 single crystals, but converts very slowly at room temperature to the form reported previously, now de

270 dehydes and ketones proceeded efficiently at room temperature to yield, after work up, 1 degrees and

271 e4F proceeds under mild conditions (often at room temperature) to afford a broad range of electronica

272 ty and photostable single photon emission at room temperature, together with spectral tunability and

273 he excited triplet states for the metal-free room-temperature triplet emitters are correlated with ph

274 followed by suitable quench provides a rapid room-temperature two-pot procedure for labeling arylcarb

275 onalized alpha-phenoxy and related amides at room temperature under 4 atm H2 pressure to give chiral

276 The reaction proceeds at room temperature under mild conditions and has proven to

277 mical synthesis in which slow compression at room temperature under uniaxial stress can convert polyc

278 tional group tolerance, and occur readily at room temperature under visible light irradiation.

279 n of readily available aryl boronic acids at room-temperature under open-flask conditions.

280 The reactions proceed efficiently at room temperature, utilize an organic photocatalyst, use

281 ed the structural features of the protein at room temperature, where the only observed effect was an

282 w thresholds on the order of 10 kW cm(-2) at room temperature, which are comparable to those found in

283 observed in vanadium films sputter-grown at room temperature, which have small grain size and consis

284 e with temperature and is most pronounced at room temperature, which is beneficial for potential devi

285 ce achieves stable continuous-wave lasing at room temperature, which is essential for many photonic a

286 months of storage unpacked in dry state at a room temperature, which is unachievable for enzyme based

287 by early cracking with limited plasticity at room temperature, which limits their malleability and wi

288 These reactions proceed within 10 min at room temperature, which represents among the mildest con

289 ge, including the quantum spin Hall state at room temperature, which, if realized, would enable new c

290 e heated to 650 degrees C and then cooled to room temperature while acquiring consecutive in situ syn

291 The methodology at room temperature with 0.4mL ethanol and 3g urea provided

292 Moreover, the elastomer can self-heal at room temperature with a recovered tensile strength 4 MPa

293 electrical pumping of exciton-polaritons at room temperature with high current densities (>10 kA cm(

294 aked and stored at refrigeration, frozen and room temperatures with analysis over a period of zero to

295 r organic photovoltaic devices, processed at room temperature, with power conversion efficiencies up

296 Assembly proceeds at room temperature within hours under mild conditions, and

297 hed high conversions ( approximately 90%) at room temperature within seconds (1-12 s), yielding polym

298 intramolecular hydroarylation reactions, at room temperature, without addition of a chloride abstrac

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

300 ty, the screen-printed TE layers showed high room-temperature ZT values of 0.65 and 0.81 for p-type a