ライフサイエンスコーパス: melting point

1 n of the Fab domains (which have the highest melting point).

2 hough both reagents have higher than ambient melting points).

3 that has a large heat of fusion and a sharp melting point.

4 g point of aqueous solutions relative to the melting point.

5 hem and raise surface temperatures above the melting point.

6 at temperatures below and very close to the melting point.

7 on resistance is Cuticular Hydrocarbon (CHC) melting point.

8 l, and (31)P NMR, IR, mass spectrometry, and melting point.

9 lica substrate and equilibrated close to its melting point.

10 Au82Si18, at temperatures above the alloy's melting point.

11 e was slowly increased through the D(2)O ice melting point.

12 ed in a high-pressure ice layer close to its melting point.

13 especially at temperatures below the polymer melting point.

14 lid will always melt into a liquid above the melting point.

15 esive energy, positive phonon modes and high melting point.

16 nt, which accounts for their apparently same melting points.

17 stabilizing the mixture further below their melting points.

18 sing a binary mixture of PCMs with different melting points.

19 on in their DSC trace below their respective melting points.

20 ol/water partition coefficients (log P), and melting points.

21 ass of non-molecular ionic solvents with low melting points.

22 ver novel multicomponent materials with high melting points.

23 ce and the increased solubility or decreased melting points.

24 and oxides synthesized far below their bulk melting points.

25 le high melting point solder with adjustable melting points.

26 bump with tailored transformation imprinted melting points.

27 the trend in deracemization correlates with melting points.

28 ven-numbered n-alkanes near their respective melting points.

29 c neutron scattering measurements near their melting points.

30 olids results in odd-even variation of their melting points.

31 regular battery configuration due to its low melting point (180.5 degrees C) and high reactivity, whi

32 Dolomite-III does not decompose up to the melting point (2,600 K at 43 GPa) and its thermodynamic

33 Here we show that fully dense cubic Y2O3 (melting point, 2,439 degrees C) with a grain size of 60

34 h glutaraldehyde had higher gel strength and melting point (231 g, 21.9 degrees C) than those cross-l

35 t density of 100 A/cm(2), is above the boron melting point (2350 K).

36 g skin gelatin showed a significantly higher melting point (42.7 degrees C) compared to tuna and chic

37 mical properties of the fat were as follows: melting point, 45 degrees C; saponification value, 202.3

38 gradable Mg alloys is challenging due to low melting point (650 degrees C), occurrence of chatter, bu

39 n undercooled at a temperature 20% below the melting point, a silicon melt is under the form of the h

40 ected that disperse pristine graphene with a melting point above room temperature but with a high vap

41 ransition metal borides and carbides possess melting points above 3000 degrees C, are ablation resist

42 ing-point silicate glass cross-cutting lower melting-point Al-Cu-Fe alloys, as well as unambiguous ev

43 late like scales consisting of layers of low melting point alloy (LMPA) phase change materials fully

44 a tapered glass micropipet filled with a low melting point alloy.

45 Binary mixtures of liquid metal (LM) or low-melting-point alloy (LMPA) in an elastomeric or fluidic

46 Melting-point analysis of real-time multiplex PCR is a r

47 However, the melting point and (1)H NMR data of 5 did not match those

48 s for hydrogen evolution, and found that the melting point and bulk modulus correlations have correla

49 We also showed that the melting point and bulk modulus correlations held true fo

50 We determined that the melting point and bulk modulus of the elements quantitat

51 c conductivity, low solvation energy and low melting point and form an anion-derived inorganic interp

52 Thermal behavior studies have shown that the melting point and heat of fusion decrease as the branch

53 crystal packing of the molecule to lower the melting point and in turn to improve the solubility.

54 the degree to which particle size lowers the melting point and is found to vary between 300 and 1800

55 but observed alloying processes shift the LM melting point and lead to undesirable formation of addit

56 ne or more of the powder reactants has a low melting point and low thermal effusivity, it is possible

57 ups in polymers can cause large variation in melting point and mechanical properties.

58 Melting point and melting enthalpy of CSO were -34 degre

59 ishes could melt seasonally, we measured its melting point and obtained a decadal temperature record

60 h modes occur at all temperatures around the melting point and over various designs.

61 nce as well as physical properties including melting point and physical state at room temperature.

62 ly available Cd precursors, owing to the low melting point and robust thermal stability.

63 The physical and chemical parameters (melting point and saponification number), and the fracti

64 solid state which accounts for an increased melting point and stability.

65 th's core is important for understanding its melting point and therefore the temperature at the inner

66 Melting points and heats of fusion decrease with increas

67 highly inviscid liquids characterized by low melting points and high solubility of rare earth element

68 The low melting points and high thermal stabilities of PILs prov

69 nt strengths at high temperatures due to low melting points and microstructural instabilities.

70 such compounds can be characterized by their melting points and NMR spectra.

71 Volume-based prediction of melting points and other properties of ionic liquids (IL

72 crystals exhibit eutectoid behavior for the melting points and phase transition temperatures.

73 High-melting-point and low-melting-point lipids were tested t

74 d (DIO), with the resultant materials having melting points (and/or glass transitions) which are sign

75 d a particular congener's entropy of fusion, melting point, and aqueous solubility.

76 hus, the interesterified product had a lower melting point, and broader melting and plasticity ranges

77 of 8.5 eV, a small formation energy, a high melting point, and desired mechanical properties.

78 )H and (13)C NMR spectroscopy, FTIR, EA, and melting point, and in the case of 1, 2, and 4-8, X-ray c

79 cal properties, such as higher gel strength, melting point, and rheological properties than did the u

80 ere stable for hours above their equilibrium melting point, and the maximum superheating obtained was

81 ed to disturb the crystal lattice, lower the melting point, and thereby improve the solubility, where

82 vapor pressure, high thermal stability, low melting points, and ability to promote a favorable solva

83 were quantitative as assessed by IR spectra, melting points, and GC.

84 on, physical properties, such as solubility, melting points, and pKb values, were determined.

85 udying protein aggregation with an automated melting point apparatus is described.

86 spinodal decomposition have nearly the same melting point (approximately 807 degrees C), as expected

87 Theoretical results for surface and core melting points are in good agreement with experiment.

88 g/mol) with isotacticities [mmmm] > 97% and melting points as high as 165 degrees C.

89 eding 100% (at less than 0.5 of the absolute melting point) as compared to the conventional fine-grai

90 riod of oxidation, and firmness but a higher melting point, as compared to that made using ethylcellu

91 ssures, exceptional thermal stabilities, low melting points, as well as provide a favorable environme

92 of two natural fatty acids (with a eutectic melting point at 39 degrees C) in a biocompatible, silic

93 The eutectic mixture has a well-defined melting point at 39 degrees C, and can be used as a bioc

94 A van't Hoff analysis of UV melting points at different concentrations shows that th

95 Ionic substances with melting points at or close to room temperature are refer

96 Bronsted acids and bases to form salts with melting points below ambient.

97 The outermost metal layers form a low melting point Bi(33.7)In(66.3) solder shell (72 degrees

98 rface destabilize the protein and reduce the melting point by as much as 6 degrees C.

99 rene (BeP) deposited on the outside of glass melting point capillary tubes were analyzed in positive

100 because of their poor water-solubility, high melting point, chemical instability, and low bioavailabi

101 characterized by significant depressions in melting points compared to those of the neat constituent

102 spective of whether this was the high or low melting point component of the mixture.

103 rough, must be high enough to melt the lower melting point component.

104 content, peroxide index, thermal properties, melting point, consistency, and solid fat content (SFC).

105 a hexagonal phase emerges close to the gold melting point, corresponding to a hydride with stoichiom

106 The adulteration with paraffins of different melting point, cow tallow, stearic acid, and carnauba wa

107 Additionally, the occurrence of melting point decrease and reduced enthalpy in PTzBI-dF:

108 ent physical properties, such as solubility, melting point, density, color, hardness, and bioavailabi

109 ical additives are characterized to identify melting point depressants capable of rapidly denaturing

110 Melting point depression increases with decreasing parti

111 Mixed thiolates exhibit a melting point depression of the crystalline lamellae in

112 This work reviews existing data on the melting point depression to constrain a simple parameter

113 f the associated phase change in addition to melting-point depression in deformed or damaged crystals

114 ing is postulated as the root cause of their melting point depressions and physicochemical properties

115 ondensate ring thickness, vapor pressure and melting point descriptors consistently emerge as paramou

116 the pivotal influence of vapor pressure and melting point descriptors in condensate ring formation.

117 he large undercooling of crystallization and melting points down to 140-145 and 240-250 K, respective

118 k resulted in a lower over-run, but a higher melting point, elasticity, foam stability, and more unif

119 In plants, the increase in melting points enables storing otherwise volatile compou

120 nal crystals, as determined by the trends in melting point, enthalpy of melting, and solubility.

121 ures above the expected equilibrium freezing/melting point (eqFMP), both in vitro and in vivo.

122 nowire via a liquid catalyst, commonly a low-melting point eutectic alloy.

123 s were present on powder surface whereas low-melting-point fatty acids remained within powder particl

124 atty acid composition of P1 showed that high-melting-point fatty acids were present on powder surface

125 .19-17.02 vs 47.87-58.65 %) but a comparable melting point, firmness, and rheological properties.

126 Independently, the results show that the melting point for HfC0.98, (4232 +/- 84) K, is the highe

127 mperate ice (much softer ice at the pressure-melting point) forms naturally in both settings, alongsi

128 the particle was evident from the decreased melting point from 177+/-1 degrees C (native curcumin) t

129 ted in solid form as a pure substance with a melting point from 71 degrees to 73 degrees C.

130 he large size (5-50 microm in diameter), low melting point gallium droplets can be used as an effecti

131 onal degrees of freedom of the ILs and their melting points/glass transition temperatures.

132 e use of temperatures well above the silicon melting point (> or =2,000 degrees C).

133 oreduction kinetics when snow approached the melting point (>-2 degrees C), where the pseudo-first-or

134 lic index (LI), a mean measure of fatty acid melting points, has been proposed to capture overall fat

135 approach for chemical depth profiling of low-melting point, high surface roughness SnAg solder bump f

136 Our results demonstrate that alloying a high-melting-point, high-voltage metal (antimony) with a low-

137 quid state under ambient conditions and have melting point higher than the freezing point of water, r

138 ANs affect glucose's melting point, however, only phytic acid and saponin aff

139 onequilibrium freezing temperature below the melting point; however AFPs from overwintering insects,

140 include, but are not limited to, magnetism, melting point, hydrophobicity, fluorescence quantum yiel

141 t maintains the sample temperature below its melting point, hyperpolarized (13)C-substrates can be ex

142 ns: (i) negligible vapor pressures; (ii) low melting points; (iii) high thermal stabilities.

143 The ice melting point in larvae was -32.5 degrees C as determine

144 nables the realization of interconnects with melting points in the range of 112 degrees C to 206 degr

145 ility starts only at ~40 degrees C above the melting point, indicating persistence of local double-he

146 liquid layer on ice evolves subtly above the melting point into a quasi-ice layer at the surface of l

147 of the 3-trifluoromethyl derivative 9d, its melting point is 32 degrees C lower.

148 ould be critically important where the exact melting point is used as a means for polymorph identific

149 beads are coated with a solder having a low melting point; (iv) the polymer rods-with embedded beads

150 anti-TBDT derivatives exhibit higher melting points, larger bandgaps, stronger intermolecular

151 anions are found to correlate linearly with melting points; larger anions giving lower-melting ILs.

152 ited solubility in water and relatively high melting point lead to difficulties in formulating the co

153 High-melting-point and low-melting-point lipids were tested to modulate their prote

154 MPA and one with two enclosures of different melting point LMPAs.

155 because of their poor water-solubility, high melting point, low bioavailability, and chemical instabi

156 nt, high-voltage metal (antimony) with a low-melting-point, low-cost metal (lead) advantageously decr

157 eractions, to form a eutectic mixture with a melting point lower than that of each individual compone

158 s strong enough that boiling points, but not melting points, may maximize at the hydrogen-bonded dian

159 ch a small size (5-100 nm in diameter), high melting point metal (such as gold and iron) catalyst par

160 native interfacial metal oxide layer of low melting point metal precursors (group III and IV) in liq

161 stillation-like process is observed: the low-melting-point metal (Pt) bleeds out and the increasing c

162 and the increasing concentration of the high-melting-point metal (Rh) leads to re-stabilization of th

163 Here we show low-melting-point metal alloys containing iron dispersions t

164 sphatidylglycerol (PG) in fab1 that are high-melting-point molecular species (containing only 16:0, 1

165 chloroplast phospholipid, contains >40% high-melting-point molecular species (HMP-PG; molecules that

166 oplast phospholipid, contains up to 45% high-melting-point molecular species (molecules that contain

167 The proportion of high-melting-point molecular species in PG is reduced from 48

168 sult in reductions in the proportion of high-melting-point molecular species of phosphatidylglycerol

169 somers indicated that they possess different melting points, NMR spectra, crystal structures, and sta

170 The melting points obtained with the two techniques are in g

171 es at 200 degrees C at 10(-4) Torr and has a melting point of 268-271 degrees C.

172 rial (PCM) such as 1-tetradecanol that has a melting point of 38-39 degrees C.

173 acteristics (contact angle < 90 degrees ), a melting point of 58 degrees C and a maximum degradation

174 Circular dichroism measurements yielded a melting point of 62.8 degrees C, indicating unexceptiona

175 ) because of its superior volatility and low melting point of 64 degrees C.

176 With a melting point of 87 degrees C, thermal stability of the

177 in a small yet significant decrease in their melting point of about 0.3-0.4 K.

178 Further, the material features a low melting point of around 65 degrees C, which enables repa

179 al which has a melting temperature above the melting point of boron.

180 d transition temperature much lower than the melting point of crystalline DODA-Br and similar to that

181 otoxicity and the effect of compounds on the melting point of DNA (DeltaT(m) value) or toxicity in th

182 ic predictions of the size dependence of the melting point of gold agree with the experimental observ

183 models predict both the correct experimental melting point of ice and the temperature of maximum dens

184 temperature range from about 120 K up to the melting point of ice.

185 tem, which provides a route to transform the melting point of interconnects for applications in solde

186 er depth, at a temperature about half of the melting point of iron.

187 d has normal ITPA activity in vitro, but the melting point of ITPA-P32T is 5 degrees C lower than tha

188 lithium, even in extreme conditions past the melting point of lithium metal.

189 e [Formula: see text] phases persists to the melting point of lithium.

190 The extremely high melting point of many ceramics adds challenges to additi

191 l proportions if the temperature exceeds the melting point of MgSiO(3).

192 ions can be used to successfully predict the melting point of multicomponent systems, such as MgSiO3

193 m appears to result from the lowering of the melting point of peridotite within the wedge of mantle a

194 Remarkably, the melting point of racemic VAPOL is 86 degrees C higher th

195 h increasing initial fish oil concentration, melting point of the fish oil-loaded particles shifted t

196 At a temperature less than the melting point of the force field, we observe a small num

197 rm the crystal (X) phase; however, below the melting point of the G-Phase (~990 K), the X- and G-phas

198 n to have significant effect not only on the melting point of the heteroduplex and the homoduplex but

199 n takes place at temperatures well below the melting point of the hybrids, and it may constitute a no

200 is predominant at temperatures close to the melting point of the labeled probe, whereas the contribu

201 ization of monomer A until heating above the melting point of the lower phase, which released monomer

202 here and gas, with temperatures reaching the melting point of the material.

203 f water from 25 degrees C to near the normal melting point of the organic solute results in solubilit

204 nism the presence of a solvent depresses the melting point of the polymer due to a thermodynamic mech

205 Here, we show how the melting point of the prototypical ZIF-4/ZIF-62(M) framew

206 hesion when operated below the corresponding melting point of the solidified PSLs, engendering ice an

207 cient at reaction temperatures closer to the melting point of the starting duplex.

208 olten salt state surfaces owing to the lower melting point of the used Na salts compared to the react

209 The melting point of this ZIF system is a direct function of

210 l growth temperature is much higher than the melting point of tin, and the crystallographic lattice s

211 ace temperatures seldom if ever approach the melting point of water at midlatitudes, and geomorphic f

212 Solutes could depress the melting point of water in a frozen Martian environment,

213 ol/water partition coefficients (log P), and melting points of a series of compounds was evaluated.

214 tate at temperatures that are well below the melting points of crystals of the same composition but o

215 fluidic device were investigated between the melting points of D2O ice (3.8 degrees C) and H2O ice (0

216 The thermal melting points of DNA-DNA duplexes were increased by 1.8

217 th experiments and reliable estimates of the melting points of light and heavy water.

218 hase diagram with electrical resistivity and melting points of potential reaction products, we discov

219 The LI is defined as the mean of the melting points of specific fatty acids in diet or adipos

220 The secondary structures and melting points of the chimeric DNA fragment and its comp

221 eaction at a temperature much lower than the melting points of the composite materials, followed by a

222 adients, and the Gibbs-Thomson effect on the melting points of the convex and concave features.

223 The melting points of the five cocrystals show an excellent

224 additives increased the glass transition and melting points of the gelatin film.

225 stals show an excellent correlation with the melting points of the individual acids, and it has also

226 Additional experiments on melting points of wine proteins reveal that only some is

227 invasive end is determined by the stability (melting point) of the donor-recipient complex.

228 duced by heating for metallic NPs with a low melting point or a high organic content.

229 ng an important property of a solvent (e.g., melting point or hydrophobicity) often involves simply a

230 When embedded in a matrix with a higher melting point or stiffness, the CFO mesocrystal experien

231 d to test the acute toxicity of several high melting point PAHs and their mixtures at the respective

232 Van't Hoff equation), which was 98% and the melting point peak occurred at 171 degrees C.

233 of frit is found superior to one made of low-melting point poly(styrene-co-divinylbenzene) beads.

234 of water (in the presence of ice) below the melting point, producing a difference between the freezi

235 ne series provided nonionizable analogs with melting point properties suitable for micronization.

236 stability against thermal denaturation, with melting points ranging from 69 to 103 degrees C.

237 ability compared with the native bR with its melting point reduced from 97 to 65 degrees C, and the p

238 ructure-donating motif, while urea serves as melting-point reduction agent.

239 terms of their surface tensions, densities, melting points, refractive indices, viscosities, and mis

240 s C to only 370 degrees C, by far the lowest melting point reported for a three-dimensional porous MO

241 the observed phenomena, consistent with the "melting point" separating two temperature-dependent phas

242 cation in fatty products for its appropriate melting point, SFC similar to that of soft table margari

243 s tend to form hydrogen bonds, and thus, the melting point shifts to higher temperature ranges where

244 We show higher melting-point silicate glass cross-cutting lower melting

245 New compounds are characterized by DSC, TGA, melting point, single-crystal X-ray diffraction (XRD), s

246 The lowermost metal layer is a high melting point solder and acts as a core.

247 he core and the shell yielding a stable high melting point solder with adjustable melting points.

248 ic spreading centers causes it to exceed the melting point (solidus), producing magmas that ascend to

249 AL) were evaluated for their acute toxicity, melting point, solubility and heat stability.

250 sunflower oil was also used to produce high-melting point stearins by acetone or hexane fractionatio

251 Notably, melting point studies revealed that cooperative melting

252 upercooling, sustaining the liquid below the melting point such as supercooled water and silicon.

253 be overcome by employing materials with high melting points such as chromium (Cr) and tungsten (W).

254 solvents need to be mixed with suitable low melting point supporting electrolytes (e.g., ionic liqui

255 The GeTe nanowires exhibit significant melting point suppression in the presence of Au contamin

256 emperatures, show evidence of size-dependent melting point suppression.

257 into a platelet morphology feature both high melting point (T(m)) and crystallization driving force (

258 is performed and compared with experimental melting point temper-atures to explain the structural ba

259 DSC showed a significant increase in melting point temperature (T(m)) from ~ 90 to ~ 93-101 C

260 e activity coefficient, fusion enthalpy, and melting point temperature.

261 By introducing alloys with different melting points, temperature-dependent infrared painting/

262 ducing a difference between the freezing and melting points termed thermal hysteresis.

263 en the nonequilibrium freezing point and the melting point, termed thermal hysteresis (TH).

264 ow temperature of 650 degrees C by using low-melting-point ternary molten salts CaCl2 -MgCl2 -NaCl, w

265 have 10-30-fold better solubility and lower melting point than the corresponding urea compounds.

266 rom labile sire had significantly higher fat melting point than the stable.

267 approximately 60 degrees C lower crystalline melting points than all other derivatives, indicating th

268 ubility and generally lower log P values and melting points than nonfunctionalized liphophilic ureas.

269 The destabilization is reflected in melting points that are lower by up to 9 degrees C.

270 nables the formation of solid solutions with melting points that can be readily fine-tuned over a use

271 As temperature approaches the melting point, the ionic conductivity of the anti-perovs

272 When the temperature is raised beyond its melting point, the PCM quickly melts and triggers an ins

273 r temperatures up to the flux vortex lattice melting point; the flux lattice melting point was also f

274 s by straddling the temperatures across LMPA melting points thereby drastically altering stiffness.

275 ucts are semicrystalline materials with high melting points, they are anticipated to function as blen

276 grain boundaries, which locally reduces the melting point, thus promoting the film diffusion-limited

277 e from LiBH4 along the plateau and above the melting point (Tm = 280 degrees C) initially results in

278 size lamella, having a well-spaced discrete melting point, Tm, distribution.

279 ntered at temperatures well below the silica melting point to form amorphous, solid, transparent glas

280 reening single substitutions against thermal melting points to both produce minimally mutated stable

281 Additionally, the melting point transitions and the resulting heat of fusi

282 ctivation energies from catalytic reactions, melting point transitions from lipid membranes, and fluo

283 n packing motifs was directly related to the melting point trends and further dissected through compu

284 e, including the use of a pipet tip or glass melting point tube, allowing integration of sample prepa

285 a raw urine sample were placed on individual melting point tubes and were inserted into either a heat

286 to surface restructuring caused by their low melting point upon laser irradiation.

287 xicity data, as well as water solubility and melting point values, were collected from a series of so

288 five of these properties namely: molar mass, melting point, vapour pressure at 20 degrees C, n-octano

289 own illustration is the zigzag plot of their melting point versus chain length.

290 rtex lattice melting point; the flux lattice melting point was also found to increase to 30 K (from 2

291 The melting point was determined using differential thermal

292 hod of repeated EPD and heat treatment above melting point were employed to fabricate crack-free P(VD

293 In the case of DNA-RNA duplexes, the melting points were increased by 3.1, 4.1 and 1.0 degree

294 ch show a high level of anisotropy up to the melting point, where the elastic and shear moduli vary b

295 transition to polymorph beta much before its melting point, which accounts for their apparently same

296 the relationship between the spectra and the melting point, which can guide the selection of early dr

297 A first-order property of iron is its melting point, which is still debated for the conditions

298 e heated to temperatures over 14 times their melting point while retaining their crystalline structur

299 iffusion that results from depression of the melting point with size or by surface melting of the NPs

300 crystallizes at some T = Ts above the oil's melting point, with the droplet's bulk remaining liquid.