ライフサイエンスコーパス: physical property

1 l cross section (CCS) as additional specific physical property.

2 the interface, and/or modulation of bilayer physical properties.

3 s to the framework could lead to interesting physical properties.

4 e electronic band structures and liquid-like physical properties.

5 nd provides an overview of their fundamental physical properties.

6 isite for understanding and predicting their physical properties.

7 ivity, and many other important chemical and physical properties.

8 ated internalization was affected by antigen physical properties.

9 didn't show a correlation between these two physical properties.

10 a set of commonly measured soil chemical and physical properties.

11 ial ingredient, responsible for the observed physical properties.

12 rm phases and cellular materials with unique physical properties.

13 due to their similar molecular structure and physical properties.

14 ividual's visual acuity based on their eye's physical properties.

15 inyl polymers has a profound effect on their physical properties.

16 ation process and the resulting chemical and physical properties.

17 order to improve their biocompatibility and physical properties.

18 xpressed similarly across soils of differing physical properties.

19 of liquid immiscibility in controlling magma physical properties.

20 lays a fundamental role in determining their physical properties.

21 by subtle changes in the host lipid bilayer physical properties.

22 at they possess many interesting optical and physical properties.

23 nonlinear elastic strain and its effects on physical properties.

24 P on their surface and retained their native physical properties.

25 cules, are very appealing due to their novel physical properties.

26 e patterns and, consequently, the material's physical properties.

27 ectronic devices and accurate measurement of physical properties.

28 e space, which has led to novel and exciting physical properties.

29 al parameter for structure-driven control of physical properties.

30 ed the scope of synthetic control over their physical properties.

31 double bond conferring special chemical and physical properties.

32 nd Ru(4+) in light of their range of unusual physical properties.

33 mmunity because of its ease of synthesis and physical properties.

34 ilized, carbon-based clathrates with ranging physical properties.

35 st lipidomic remodeling to preserve membrane physical properties.

36 allows optimization of their reactivity and physical properties.

37 anifestations of these interactions in basic physical properties.

38 y, and the ability to carefully engineer key physical properties.

39 ng to conceptual (typical location), but not physical, properties.

40 ents to create structures with extraordinary physical properties (1-4).

41 organophosphonate moieties with contrasting physical properties: a chelating metal-binding group, an

42 rious API phases typically display different physical properties affecting chemical stability, proces

43 Their biological and physical properties also drive a variety of industrial a

44 The strained DOL electrolytes exhibit physical properties analogous to amorphous polymers, inc

45 However, because of its innate poor thermo-physical properties and above unity segregation coeffici

46 studies have been conducted to determine the physical properties and behavior of foams, but relativel

47 Newtonian, shear-thinning fluid owing to the physical properties and behaviors of red blood cells (RB

48 drug-induced perturbations of lipid bilayer physical properties and bilayer-gramicidin interactions.

49 lyolefin FK A15 phases with unique intrinsic physical properties and chemical reactivities not previo

50 site density, high surface area, and tunable physical properties and chemical structures-important fe

51 mechanical fatigue leads to deterioration of physical properties and contributes to the onset and pro

52 ng assembly can serve as a basis for tunable physical properties and for digital computing.

53 of stress-independent cluster, with distinct physical properties and half-lives.

54 he P-COOH membrane was characterized for its physical properties and its application for purification

55 Doped antiferromagnets host a vast array of physical properties and learning how to control them is

56 ducts worldwide due to its broad spectrum of physical properties and low production costs.

57 r, the vast diversity in chemical structure, physical properties and molecular size of semiochemicals

58 y challenging owing to their similarities in physical properties and molecular sizes.

59 biotic degradation behavior in seawater with physical properties and molecular structures.

60 influence of the process of extrusion on the physical properties and nutritional composition of black

61 Nevertheless, despite the high similarity in physical properties and preference for adopting such con

62 ying condensates and understanding how their physical properties and regulation arise from molecular

63 Soil physical properties and soil organic carbon (SOC) are co

64 As cancer progresses, the physical properties and the cells in the TME change sign

65 f the final film allows for retrieval of key physical properties and the chemical composition of the

66 metal(1), which is predicted to have exotic physical properties and the topology of a two-component

67 e purposefully explored to introduce desired physical properties and their combinations towards advan

68 hese morphological features control relevant physical properties and ultimately device performance.

69 6-benzimidazole pyridine), shows switchable physical properties and was isolated in five different e

70 The synthesis, physical properties, and calculated performances of six

71 cts are examined in terms of nanostructures, physical properties, and chemical doping between the ino

72 aterials, enhance our understanding of their physical properties, and enable their cost-effective pro

73 order to achieve co-delivery, allow tunable physical properties, and induce in vitro and in vivo imm

74 the crystal chemistry, synthetic techniques, physical properties, and research methods in the field o

75 d in cell culture medium to assess how their physical properties are altered after exposure to biolog

76 itched between different forms with distinct physical properties are appealing candidates for separat

77 s a major fraction of the membrane and whose physical properties are influenced by actin polymerizati

78 ts, one of which is how their structural and physical properties are modified at the nanoscale.

79 GO physical properties are modified to enhance cellular int

80 of interfaces and its influence on resulting physical properties are scarce - typically the informati

81 (EDL) are central to chemical reactivity and physical properties at solid/aqueous interfaces.

82 the method allows us to assess the membrane physical properties both in vitro and in vivo.

83 ith amidic linkers often exhibit exceptional physical properties, but, owing to their strong metal-ni

84 does not correlate strongly with any single physical property, but a machine-learning model involvin

85 ificial heterostructures and hybridize their physical properties by directly stacking such freestandi

86 eering in oxide-based compounds aims to tune physical properties by incorporating additional anions o

87 Collective molecular physical properties can be enhanced from their intrinsic

88 h a way that desirable anti-glioblastoma and physical properties can be improved.

89 class of layered artificial solids in which physical properties can be manipulated through controlle

90 of combining the molecular-level control of physical properties caused by isomerizations, conformati

91 tert-amylate in toluene can undergo distinct physical property changes in the presence of protic solv

92 Conclusions have been drawn based upon physical property, chemical attributes, storage, washing

93 obtained differ in their chemical structure, physical properties, colloidal stability, and reactivity

94 ptional nanomaterial that possesses multiple physical properties critical for biomedical applications

95 insufficient to test hypotheses that concern physical properties deep in living tissues.

96 ing poly(aryl ethers), despite the excellent physical properties displayed by many polysulfides.

97 we discuss the discovery of telocytes, their physical properties, distribution and function, focusing

98 reducing soil disturbance and managing soil physical properties (e.g. improved rotations, minimum ti

99 ace temperature directly by altering surface physical properties (e.g., albedo and emissivity) and la

100 al reactivity of analytes, rather than their physical properties (e.g., mass).

101 assified into two categories: those based on physical properties (e.g., size) and methods based on bi

102 y has been devoted recently to exploring the physical properties, especially focusing on ferroelectri

103 Reported thermo-physical properties exhibit, in some cases, a degree of

104 ation of MPs that rely on these chemical and physical properties for their biological functions.

105 djacent to roots has distinct structural and physical properties from bulk soil, affecting water and

106 polymers enables the realization of emergent physical properties from readily available starting mate

107 Benefitting from enriched physical properties from the collective interactions, lo

108 We discovered that the key physical properties governing the magnetophoresis are ma

109 ue to its structural diversity and excellent physical properties, graph-n-yne has opened new avenues

110 evaluated for starch gelatinization degree, physical properties, hardness, color profile of dry and

111 Prediction of chemical bioactivity and physical properties has been one of the most important a

112 tion, but direct constraints on its mass and physical properties have been difficult to obtain.

113 in vitro studies of condensate assembly and physical properties have involved condensates up to 1000

114 d for measurement of diverse biochemical and physical properties in cell biology.

115 ins, and polar skyrmions) and their emergent physical properties in ferroelectric oxide films and het

116 bon doping can induce unique and interesting physical properties in hexagonal boron nitride (h-BN).

117 e degrees of freedom drive an array of novel physical properties in oxide heterostructures.

118 determining their molecular composition and physical properties in physiological fluids.

119 se of nanomaterials with unique chemical and physical properties in the ECL biosensing systems is one

120 ensitivity, explosive performance as well as physical properties including melting point and physical

121 ating materials that exhibit a wide range of physical properties, including giant Rashba spin splitti

122 These integrins differ in physical properties, including rate of diffusion on the

123 he Milky Way is a barred spiral galaxy, with physical properties inferred from various tracers inform

124 oth internally and externally in response to physical properties, like substrate stiffness, cell cont

125 ex relation between the electro-chemical and physical properties make them the subject of further res

126 Additionally, whereas physical properties may serve as a simple readout of the

127 Water activity is a physical property measured in the food industry which he

128 tential stressors (organics, inorganics, and physical properties) measured in these waters and found

129 growing single crystals, and describes basic physical property measurement techniques to characterize

130 materials, which largely dictate the unusual physical properties observed.

131 ch is developed to predict the most relevant physical properties of 2D materials.

132 e current understanding in the structure and physical properties of 2DPKs from the monolayers to asse

133 The structures and physical properties of [( (X1)(X2) TMPA)Cu(II) (N(3) (-)

134 roups can enable the tuning of explosive and physical properties of a molecule.

135 While the physical properties of a uniformly distributed actin net

136 e of studies dealing with the deposition and physical properties of a-C films, basic understanding of

137 We highlight the key physical properties of abundant metals that distinguish

138 idering their diversity, this work evaluated physical properties of Amazonian fats/oils (murumuru, tu

139 Physical properties of an interacting system are governe

140 y to understand and predict the chemical and physical properties of anthocyanins and their derivates.

141 extended in the third dimension by including physical properties of application interest.

142 ries are candidates to probe and utilize the physical properties of atomically-thin materials.

143 chanisms are currently recognized to be from physical properties of biochar, providing a favorable gr

144 nt role of mechanical fatigue in influencing physical properties of biological cells.

145 rom a couple of centuries ago, understanding physical properties of biological material, their interf

146 duals with hematological diseases that alter physical properties of blood.

147 Potential improvements to the physical properties of brittle, self-assembled zein netw

148 sm, health indices, oxidative stability, and physical properties of broiler chicken meat.

149 The unique physical properties of buckminsterfullerene, C(60), have

150 ation to understanding many of the intrinsic physical properties of bulk metals.

151 tions between these two extremes reveals the physical properties of cellohexaose, behaving as a rigid

152 However, the significance of the physical properties of cells remains underappreciated be

153 A new study in Cell shows that the intrinsic physical properties of chromatin fibers dictate how tors

154 Although the physical properties of chromosomes, including their morp

155 for the understanding and prediction of the physical properties of complex materials.

156 l for forming a general model for predicting physical properties of complex materials.

157 ng orthogonal sizing techniques to study the physical properties of complex NEP samples.

158 fects, such as oxygen vacancies, control the physical properties of complex oxides, relevant in activ

159 Moreover, key physical properties of complex-oxide thin films, such as

160 The physical properties of corrole NPs prepared in combinati

161 ed to date and opens avenues for controlling physical properties of different MXenes with a limitless

162 (Rev3D-OCE), a novel approach leveraging the physical properties of diffuse fields in detecting elast

163 poration of berberine did not compromise the physical properties of dressing, while improving the bio

164 universes" depend strongly on the individual physical properties of each "universe" via the Purcell e

165 Physical properties of ECM, including the degree of conf

166 vestigate pharmacologic, pharmacodynamic and physical properties of FBIC.

167 t to evaluate the bioactive constituents and physical properties of fourteen pomegranate genotypes gr

168 nce of 3D curved surfaces on the fundamental physical properties of graphene has not been clarified.

169 c study on the influence of MWD shape on the physical properties of HDPE.

170 ated based on the in vivo ultrastructure and physical properties of human cortical and cancellous bon

171 However, the way in which nanoscale physical properties of integrins ensure proper adhesion

172 -monotonic, with a profile attributed to the physical properties of interstitial water layers present

173 g how SS peptides interact with or alter the physical properties of lipid bilayers.

174 ar species composition and, as a result, the physical properties of lipids.

175 tions for how we understand the chemical and physical properties of liquids confined in porous materi

176 rocessing, not only by achieving outstanding physical properties of materials, such as high tensile s

177 es exist throughout nature and determine the physical properties of materials.

178 s, allowing tuning of the optoelectronic and physical properties of mechanically generated conjugated

179 erization of catecholic small molecules, the physical properties of melanins are influenced by covale

180 odulated by specific membrane components and physical properties of membranes and raft domains.

181 They are able to modulate the physical properties of membranes, such as their surface

182 sponding thiols and alter the electronic and physical properties of modified proteins.

183 ronment by transforming relevant chemical or physical properties of molecular or ionic species (i.e.,

184 It is possible to modify the chemical and physical properties of molecules, not only through chemi

185 otein degradation as well as a discussion of physical properties of monomeric vs engineered heterodim

186 Physical properties of multi-orbital materials depend no

187 ption of the differences in the chemical and physical properties of Na metal versus the oft-studied L

188 In addition, the unique size and physical properties of nanomaterials give them the capab

189 rons play a fundamental role in transforming physical properties of observed objects, such as size an

190 for 6 mins at 95 degrees C did not alter the physical properties of oil bodies and significantly redu

191 etry and molecular simulation to explore the physical properties of OM mimetics.

192 m-up and top-down fabrication approaches and physical properties of organized biopolymers and highlig

193 On the basis of the SP2 and DMA results, the physical properties of particles containing rBC, includi

194 Central to the various physical properties of PBAs is their ability to reversib

195 naturally and provide a means to enhance the physical properties of peptide therapeutics.

196 which subsequently alter the functional and physical properties of polymers.

197 distribution impact the chain dimensions and physical properties of polymers.

198 of dispersion-bound systems, we explore the physical properties of prototypical ABO3 bulk ferroelect

199 life with minimally affecting bioactive and physical properties of rosehip nectar.

200 of experiments that correlate changes in the physical properties of SAMs to photoelectron spectroscop

201 sponding cells in vitro, indicating that the physical properties of scaffolds can be leveraged to mod

202 methods to measure the phase transitions and physical properties of submicron atmospheric aerosol par

203 ipulating the size, shape, distribution, and physical properties of synthetic vesicles, with potentia

204 aging mechanisms as well as the chemical and physical properties of the aerosol.

205 nductivities associated with IP to intrinsic physical properties of the corresponding materials have

206 The spatial structure and physical properties of the cytosol are not well understo

207 Thus, the physical properties of the cytosol vary substantially in

208 endrocyte differentiation is impacted by the physical properties of the ECM.

209 induced specific changes in the chemical and physical properties of the electrodes after electrolysis

210 cted biochemical signals are integrated with physical properties of the embryo to generate collective

211 The composition and physical properties of the extracellular matrix (ECM) cr

212 t during baking, and their relationship with physical properties of the final product.

213 comprehensive FEM model, accounting for the physical properties of the Gram-positive cell wall, was

214 teristics of such gratings depend on several physical properties of the LCs such as film thickness, p

215 ral membrane surface and that the collective physical properties of the lipid bilayer influence 4E10

216 ge of mechanisms including modulation of the physical properties of the lipid environment, detailed c

217 Water strongly influences the physical properties of the mantle and enhances its abili

218 ne signaling proteins to the composition and physical properties of the membrane lateral structures i

219 lly associate with virus receptors and alter physical properties of the membrane like fluidity and cu

220 rticular PA molecular species as well as the physical properties of the membrane that the enzyme bind

221 t protection of respiration, not by altering physical properties of the membrane.

222 t tactile judgment of speed is influenced by physical properties of the moving object, though the neu

223 Therefore, the physical properties of the new phases that we report her

224 focus on the composition, architecture, and physical properties of the OM and how an understanding o

225 sistant to cold-induced perturbations of the physical properties of the plasma membrane and give rise

226 The effect of the salt on the physical properties of the polymer is attributed to adju

227 ound is shown to influence significantly the physical properties of the resulting material.

228 manipulating the structure, composition, and physical properties of the solid electrolyte interphase

229 These physical properties of the tissue connect across scales

230 he two systems and potential consequences on physical properties of the TMDC material, we synthesized

231 cillations that encode information about the physical properties of their black holes.

232 ng cells both affect and are affected by the physical properties of their environment.

233 erials that simultaneously offer the desired physical properties of thermosets and malleability/repro

234 sobutene, and 1-butene, but the very similar physical properties of these C(4) hydrocarbons make this

235 However, with single implantation, the physical properties of these devices limit their access

236 (10(-4)-10(-6) MPa); however, the nature and physical properties of these materials remain largely un

237 ch allows us to predefine the mechanical and physical properties of these materials, achieved by the

238 nd covalency in governing the reactivity and physical properties of these potentially technologically

239 l membranes, the effects of the chemical and physical properties of these vesicle membranes on protei

240 The physical properties of this organic material are intimat

241 Determining the physical properties of this propulsive system is crucial

242 The excellent physical properties of this stable, free-standing monola

243 the oral environment and its effects on the physical properties of titanium surface remain unknown.

244 ature affect the structure and, in turn, the physical properties of ultrathin a-C films used as prote

245 The physical properties of ultrathin transition metal dichal

246 tic effects of nano-scale confinement on the physical properties of water are driven by alterations t

247 e found that cell mechanics, dictated by the physical property of the ECM and cytoskeletal tension, p

248 idues in proteins, whose unique chemical and physical properties often critically support biological

249 nstrate differential dependence of substrate physical properties on distinct mechanosensitive process

250 odel system to access the impact of membrane physical properties on membrane-active enzymes.

251 e, allowing subsequent testing of a range of physical properties on the same library of samples.

252 nsors due to their remarkable electronic and physical properties originating from their 2D structure.

253 ate the orbital configuration and associated physical properties, paving a pathway towards the advanc

254 composition, and chemical state/structure), physical properties (physical structure, crystallographi

255 itable vehicles to deliver SCAP due to their physical properties, preservation of SCAP viability and

256 icate that radial stratification of particle physical properties, rather than compositional differenc

257 are critical hydrological interfaces: their physical properties regulate the rate, timing, and locat

258 However, their physical properties remain poorly known because carbonac

259 tings at the microscale to link chemical and physical properties responsible for low seed flowability

260 l quality aspects (i.e. volatile generation, physical properties, sensory and consumer tests), follow

261 ed as in-plane anisotropic and many of their physical properties show minima or maxima parallel to th

262 ), and PPI to carrier ratio (90:10-60:40) on physical properties, solubility, and off-flavour profile

263 (8) Our results suggest that global membrane physical properties, specifically available membrane sur

264 implications for our understanding of their physical properties, spectroscopic features and formatio

265 motion in the bushcricket ear to investigate physical properties, stiffness, and mass, which govern t

266 However, it is not known whether physical properties such as cellular stiffness also chan

267 ck phosphorene (BP) carries a stellar set of physical properties such as conveniently tunable bandgap

268 ns between general anesthesia and changes in physical properties such as electron spin, there has bee

269 , because that determines dramatically their physical properties such as electronic and crystalline s

270 Other noticeable physical properties such as oxygen and water vapor perme

271 ersely, were arranged primarily according to physical properties such as real-world size, elongation

272 xygen atmosphere and at room temperatures on physical properties such as the pseudogap (Delta*(T)) an

273 These materials are constrained by their physical properties, such as frequency selectivity, envi

274 architecture can play in imparting valuable physical properties, such as increased chemical stabilit

275 are extensively utilized to modify and tune physical properties, such as nonlinear optical property

276 me, a number for this tendency through a new physical property termed Interfacial Modulus (G(s)).

277 les can show markedly different chemical and physical properties than their bulk material form.

278 c environments characterized by chemical and physical properties that are different from the bulk.

279 emitting semiconductors by solely relying on physical properties that are indigenous to the material

280 ng the effects of nanostructuration on their physical properties that might be crucial for device per

281 n cross section (CCS) with the buffer gas, a physical property that is determined by the size and sha

282 Because of different physical properties, the beta-emitters (177)Lu and (90)Y

283 However, the ability to tailor their physical properties through explicit synthetic control o

284 of their origin, have distinct chemical and physical properties throughout their size range, clearly

285 tor (AhR) ligand, allowed its biological and physical properties to be studied.

286 SL had similar physical properties to butterfat but was more susceptibl

287 -processed quantum wells with structural and physical properties tunable via chemical composition, no

288 e distinct forms of spider silk chemical and physical property variability.

289 s of imidazopyrrolopyridines with a range of physical properties was prepared and evaluated.

290 In combination with SOC, CMI and soil physical properties, we argued that alfalfa grassland ha

291 se isomers, as expected, were similar, their physical properties were found to be extremely different

292 The physical properties were investigated with respect to th

293 In general, crackers' physical properties were not impacted by CM or CF additi

294 l (1D) nanoobjects have strongly anisotropic physical properties which are averaged out and cannot be

295 se-separated state with droplets of distinct physical properties, which can be immiscible with unmodi

296 ve a strong effect on membrane structure and physical properties, which may provide some clues to und

297 of the ACI perovskites is expressed in their physical properties, which show a characteristic decreas

298 tems offering a spectacular range of desired physical properties with great potential for technologic

299 ignals on the tumor border or differences in physical properties within the tumor, are major contribu

300 However, the similar chemical and physical properties within these groups make purificatio