ライフサイエンスコーパス: material

1 ting the acoustic response of a photoexcited material.

2 the conversion reaction occurs in alpha-MnO2 material.

3 rbance that largely depends on the volume of material.

4 , and maintained their phenotype well on the material.

5 insight into this technologically promising material.

6 ustrial bread and allowing to save packaging material.

7 microstructural variability in this sensory material.

8 automated phases after injection of contrast material.

9 s, which render this series a semiconducting material.

10 plication as an antibacterial food packaging material.

11 urn, affect the electronic properties of the material.

12 ultaneously, using small amounts of starting material.

13 rs the detection of small amounts of genetic material.

14 Black phosphorus is an infrared layered material.

15 ve been proposed for advanced carbon capture materials.

16 based superconductors and many heavy fermion materials.

17 ase along the grain boundaries of dual-phase materials.

18 ability and fundamental understanding of the materials.

19 cytoskeleton and designing biomimetic active materials.

20 natural environment and the synthesis of new materials.

21 efficiency in functional organic electronic materials.

22 rty relationships of sophisticated polymeric materials.

23 be used to assemble such particles into bulk materials.

24 ing nematicity to be common among correlated materials.

25 in recent years to produce bioinspired bulk materials.

26 ocks for the synthesis of electron transport materials.

27 ure and determine the physical properties of materials.

28 lding blocks for engineering self-assembling materials.

29 ey, has been demonstrated in two-dimensional materials.

30 the creation of a variety of nanostructured materials.

31 ds high-voltage operation of layered-cathode materials.

32 romising performance properties as energetic materials.

33 more silver during wash compared to fibrous materials.

34 nd state of interfaces between complex oxide materials.

35 d porphyrins from readily available starting materials.

36 photons and the magnetic order parameter of materials.

37 d interstitial flow on biodegradable implant materials.

38 oped for multi-elemental analysis of vegetal materials.

39 st values of reported carbon-based composite materials.

40 e synthesis of enantioenriched atropisomeric materials.

41 ng and adhered states of the two-dimensional materials.

42 the control of liquid phase deposition of 2D materials.

43 o the design of hydrolytically stable porous materials.

44 for the tailor-made design of new functional materials.

45 ior hydrogen-free 5/6/5 fused ring energetic material, 1,2,9,10-tetranitrodipyrazolo[1,5-d:5',1'-f][1

46 Material/A total of 100 patients with no breast lesions

47 mechanical and physical properties of these materials, achieved by the definition of gradients in na

48 eservoir conditions and where failures cause material aggregation and sticking to rock surfaces.

49 Crystal growers accomplish this by creating materials aimed at harnessing the complex interplay betw

50 ed to control the mechanical properties of a material along an edge or around a localized defect.

51 mediate, derived from the arylamine starting material and CO2 in the presence of DBU, is dehydrated b

52 MATERIAL AND IL-22- and IL-17-positive T cells were sort

53 experiments by choosing membranes of various material and molecular-weight cutoff values.

54 data, accounting for differences in building materials and appliances.

55 ere, we report the design of a set of living materials and devices based on stretchable, robust, and

56 The custom 3D printing of functional materials and devices opens new routes for the biointegr

57 and low efficiency of current thermoelectric materials and devices.

58 Organic monolayers are soft materials and display significant fluctuations.

59 ive on the future developments of nanohybrid materials and future nanosensors, outline possible direc

60 for the preparation of novel optoelectronic materials and high performance devices.

61 ere that have emerged, targeting superior TE materials and higher TE performance.

62 ensity computerised CBT (cCBT; web-based CBT materials and limited telephone support) through "OCFigh

63 Materials and Methods A cohort of 113 patients with NSCL

64 Materials and Methods A total of 3889 interventional rad

65 Materials and Methods Adult patients (n = 13 096; mean a

66 Materials and Methods Between 2011 and 2013, 61 cognitiv

67 Materials and Methods Eligible individuals aged 58 years

68 Materials and Methods Ferumoxytol was incubated in media

69 Materials and Methods For this institutional review boar

70 Materials and Methods For this retrospective study, 15 P

71 Materials and Methods In this HIPAA-compliant, instituti

72 Materials and Methods PubMed and Google Scholar database

73 Materials and Methods Ten patients with GBM were retrosp

74 Materials and Methods The institutional review board app

75 Materials and Methods This case-control study was approv

76 Materials and Methods This HIPAA-compliant retrospective

77 Materials and Methods This HIPAA-compliant retrospective

78 Materials and Methods This HIPAA-compliant study was app

79 Materials and Methods This prospective multicenter HIPAA

80 Materials and Methods This study was a multireader, mult

81 Materials and Methods We performed digital gene expressi

82 Materials and Methods We used National Health Interview

83 nt photoanodes, initiating a genome for such materials and paving the way for a broadly applicable hi

84 t impacts the development of many functional materials and systems.

85 oretical studies and fabrication of emergent materials and their structures.

86 anguage dysfluency, poor ability to organize material, and low self-monitoring.

87 ted in 1-3 steps from commercially available materials, and products are obtained in good yield with

88 , the highest density among amorphous carbon materials, and shows incompressibility comparable to cry

89 t performance of stainless-steel based anode materials, and the emerging benefits of inclusion of nan

90 ll application, intrinsic properties of this material are still largely unknown.

91 Synthetic supramolecular molecules and materials are creating new opportunities for protein rec

92 These materials are formed by the associative phase separation

93 Nanoporous materials are key components in a vast number of applica

94 and electronic properties of semiconducting materials are of great importance to a vast range of con

95 The mechanical properties of these materials are, however, diverse, and the molecular chara

96 cotoxin determination in certified reference material as well as excellent quantitative recoveries (9

97 e the efficacy of MoS2 and likely other TMDC materials as energy acceptors and the possibility of the

98 advantage as a radiopaque resorbable filter material, as the radiopacity allows monitoring of the po

99 lectivity depends on the conductivity of the material, as well as on the frequency of operation, alth

100 (3 x 10(5) S m(-1) ) features in degradable materials at ambient conditions over large areas, with k

101 A photodegradable material-based approach to generate endothelialized 3D v

102 ons, and despite the fact that most of these materials bear both types of interfaces.

103 olute quantification of water in microporous materials becomes possible.

104 , where SBB is applied to polymeric scaffold materials before cell seeding.

105 e most prominent examples of two-dimensional materials beyond graphene.

106 trol the thermal expansion in open-framework materials by adjusting the presence of guests.

107 actions and the development of antibacterial materials by integration of the peptide assemblies into

108 mmable fabrication of three-dimensional (3D) materials by printing engineered self-patterning bacteri

109 dly applicable high-throughput-discovery and materials-by-design feedback loop.

110 cation, the association with hyperreflective material, changes in location and appearance of SSPiM ov

111 iscuss the application of correlative SRM to materials characterization and single-molecule reactions

112 ion which leads to many limitations, such as material choice, film thickness, and spectral ranges whe

113 insic performance enhancement of a composite material composed of gold nanoparticles (AuNPs) embedded

114 Currently, the best performing perovskite materials contain multiple cations and provide power con

115 able properties of monolayer two-dimensional materials could lead to novel multi-functionalities.

116 tting of Ln ions by the highly designable 2D material crystal field provides a new method to extend t

117 Chitosan (CS) is a material derived from chitin, the most abundant biopolym

118 s a novel dynamic covalent motif for dynamic material design.

119 t be transferred into sterile tissue/implant materials during injections for joint spine and tendon,

120 Pre-frying of chloride-containing raw materials (e.g., breaded frozen fish products) can lead

121 n of topological defects in soft anisotropic materials enables one to better understand three-dimensi

122 ible through commercially available starting materials, enables a modular approach for the synthesis

123 for near-infrared imaging, chemical sensing, materials engineering, and quantum information processin

124 Thus, contrast material-enhanced computed tomography (CT) of the thorax

125 nts undergoing either unenhanced or contrast material-enhanced computed tomography (CT) served as pos

126 omparison with full multiparametric contrast material-enhanced prostate MR imaging in men with elevat

127 ior descending artery (LAD), and 20 contrast material-enhanced volume scans were acquired per stenosi

128 oject for the production of a fish reference material (ERM-CE100) certified for its content of the tw

129 sources (databases, software tools, training materials etc.) makes it difficult for users to find the

130 f holes and electrons, electron transporting materials (ETMs) used in PSCs play a critical role in PS

131 door sources such as off-gassing of building materials, evidence for acid production from indoor chem

132 However, in two-dimensional materials, experimental research on nodal line fermions

133 er electrical stimulation of a new electrode material fabricated from lithographically patterned glas

134 enabling and provide unprecedented access to materials far from equilibrium, including high-temperatu

135 ous conductive polymers are one of important materials, featuring lightweight, large specific surface

136 talk of topological defects in two different material fields-the velocity field and the molecular ori

137 is deemed less important than human-induced material flow as the source of SVOCs to the island's atm

138 Using the software STAN, a material flow system comprising all relevant inputs, sto

139 Molecular tools require DNA as the starting material for diagnosis, and hence, a prerequisite is the

140 ty and stability requirements of a reference material for microanalytical methods applied in, for exa

141 he complex band structure of the infinite 1D material for siloxane, in comparison with silane and alk

142 Tantalum is also a material for which previous shock compression simulation

143 ture and they are some of the most versatile materials for applications ranging from catalysis to nov

144 hydrogen evolution reaction (HER) to cathode materials for batteries.

145 MP) and to evaluate the feasibility of these materials for being used as solid phase extraction sorbe

146 The selection of oxide materials for catalyzing the oxygen evolution reaction i

147 es the way for a better design of nanoporous materials for energy applications; for instance, by decr

148 rk on designing high-performance MXene-based materials for energy storage, catalysis, environmental,

149 fy and compare appropriate tunable-by-doping materials for front electrodes in near-field ThermoPhoto

150 ated sample, local analysis of semiconductor materials for light-induced water splitting with improve

151 In search of novel, improved materials for magnetic data storage and spintronic devic

152 corundum-related polar magnets are promising materials for multiferroic and magnetoelectric applicati

153 catalysts based on 3D transition-metal-based materials for oxygen evolution reaction (OER) and hydrog

154 d steel is one of the most popular candidate materials for the first wall/blanket applications in fus

155 ) compounds are important in the function of materials for various applications from electrocatalysts

156 Sparse lens materials form via low-valence linkages between disorder

157 MATERIAL/Forty-five stroke patients and 45 age- and sex-

158 Lung resection material from a separate group of subjects with (n = 11)

159 acteria can exchange and acquire new genetic material from other organisms directly and via the envir

160 nvolved the massive translocation of genetic material from the organellar genomes to the nucleus.

161 with particular consequences for predicting material functionality across dense and sparse matter re

162 y investigating a wide variety of functional materials, general criteria for solid-state explosive re

163 TIR) and Raman spectra of non-extracted seed material have been recorded and their main spectral feat

164 New engineered materials have critical applications in different fields

165 aterials in 3D printing, especially GO-based materials, have been extensively reported for energy-rel

166 Bimetallic, nanostructured materials hold promise for improving catalyst activity a

167 d was highly associated with hyperreflective material (HRM) found bordering the fluid.

168 ettes, dressing salad and in-house reference materials (i-HRM) using two different Partial Least Squa

169 ficiency and the stability of photoelectrode materials impose serious restrictions on its advancement

170 Studies of carbon materials in 3D printing, especially GO-based materials,

171 e fine-tuning of the Fermi velocity in Dirac materials in a readily accessible way for experiments.

172 To successfully apply these materials in deformable devices, knowledge of their mech

173 excellent performance of these hybrid porous materials in removing low-concentration SO2 .

174 due to technical challenges in probing these materials in situ.

175 the rational design of complex new molecular materials in which multiple optoelectronically active co

176 free triplets with an energy that is largely material independent ( approximately 30 meV).

177 proaching that of devices optimized for each material individually.

178 mple are powerful tools for quantifying cell-material interactions.

179 es) is essential for the translation of this material into clinical assays.

180 d to incorporate the propagation of contrast material into computational anthropomorphic phantoms for

181 o introduce nucleation-inducing heterologous materials into the crystallization solution.

182 Contrast material is often required to clearly visualize the func

183 This new material is related to the active species of industrial

184 The modification of graphene-based materials is an important topic in the field of material

185 erstanding of fluid transport through porous materials is critical for the development of lateral flo

186 ucture of minerals and associated biological materials is critical in geomicrobiology and environment

187 rstanding the physics of such motor-filament materials is critical to developing a physical model of

188 anisms underlying the mechanical behavior of materials is the key to fundamental and engineering adva

189 The molecular nature of these materials is unequivocally manifested in a few recent st

190 ial superglue mostly for binding hydrophobic materials is used to strongly immobilize the superhydrop

191 ng capabilities of a graphene-related hybrid material, is truly new and may have broad interest in co

192 rcement in a high modulus/strength composite material, it exhibits quite disappointing in terms of mo

193 rdinatively unsaturated M(2+) sites in these materials lead to superior performance for the physisorp

194 ons (biochar, activated carbon), and related materials like graphene and nanotubes.

195 ches: The polymer makes up a majority of the material, making it inefficient.

196 responsive to charge transfer from adjacent materials, making them ideal charge-transport layers in

197 Contrast material maps clearly differentiated the distributions,

198 , the formation of conductive filaments in a material medium with sub-nanometer thickness formed thro

199 velopment of systems such as photoresponsive materials, molecular motors, and photoactivated drugs.

200 e reached when engineering a complex type of material, nanocomposites, with exquisite control over st

201 Protonation of all basic sites of the hybrid material nearly doubles its conformational space and acc

202 mumps, and measles viruses) or nucleic acid material (Nipah and chikungunya viruses).

203 s were validated using a certified reference material (NIST SRM 1643e) and groundwater sample analysi

204 onfirmed through the analysis of a reference material of human blood serum, by the spike and recovery

205 Thiolate-protected metal clusters are materials of ever-growing importance in fundamental and

206 Moreover, these materials offer possibilities for passive heat exchange

207 Phase-change materials offer state-of-the-art thermal storage due to

208 Epitaxy-the growth of a crystalline material on a substrate-is crucial for the semiconductor

209 Many lithium-storage materials operate via first-order phase transformations

210 orous medium are constrained by the types of materials or exposure scenarios that can be configured i

211 gnetic order previously reported in the same material, pave the way to future multiferroic and magnet

212 y to fundamental and engineering advances in materials' performance.

213 he exceptional material properties of carbon materials permit Terahertz operation and two orders of m

214 The hydrogel reported here provides a new material platform to introduce a cost-effective and effi

215 Some nanoporous, crystalline materials possess dynamic constituents, for example, rot

216 al line semimetals, a novel quantum state of materials, possess topologically nontrivial valence and

217 mbly of pi-conjugated molecules, are dynamic materials possessing unique (opto)electronic properties.

218 as a versatile template for patterning soft materials potentially applicable as scaffolds in cardiac

219 ll cycle allows for timely repair of genetic material prior to replication.

220 iques are commonplace for high-concentration materials, prior to the development of this method, all

221 tional and structural studies, detection and material processing.

222 ng is a promising method for next-generation materials processing techniques.

223 lity-control measures to ensure reproducible material production.

224 The exceptional material properties of carbon materials permit Terahertz

225 used as direct input for DFT calculations of material properties such as atomic spin and orbital magn

226 el of the organism and accurately derive its material properties such as the elastic modulus and pois

227 s in engineering both imaging modalities and material properties with improved contrast, providing a

228 recognized, whereas the importance of tissue material properties, in particular stiffness, has receiv

229 nificant and uniform correlation between any material property of each bead and that bead's effect on

230 ng money on a time-saving purchase than on a material purchase.

231 The types of defective materials regarded in grading legislation were divided i

232 ons such as Mg(2+) and Al(3+) into electrode materials remains an elusive goal.

233 t and versatile synthetic strategy for these materials remains one of the great challenges in polymer

234 erials is an important topic in the field of materials research.

235 pillars create localized deformations in the material resulting in the quantum confinement of exciton

236 MATERIAL/Retrospective analysis of 30 histopathologicall

237 Material/Retrospective analysis was conducted of 115 con

238 These are predicted to eject material rich in heavy radioactive isotopes that can pow

239 netics, and then successfully used to tailor material's microstructures and porosity.

240 Food contact materials' safety is evaluated using chemical risk asses

241 ale suitable for studies and applications in materials science.

242 hemistry, catalysis, medicinal chemistry and materials science.

243 media in the fields of healthcare sciences, material sciences and high-precision engineering.

244 cepts in the fields of quantum chemistry and material sciences have to be adapted when the quantum na

245 that permit charge transport can render the materials stiff and brittle.

246 In the case of amorphous materials, strong links between processing and history,

247 electrocatalysts is challenging and entails material structure design and tailoring across a range o

248 ve connective tissue devoid of any exogenous material such as scaffolds or growth factors.

249 norganic amorphous oxide semiconductor (AOS) materials such as amorphous InGaZnO (a-IGZO) possess mec

250 niques are suitable for use in other related materials such as disordered or polymeric systems.

251 Atomically thin materials such as graphene are uniquely responsive to ch

252 architecture as the structural phases in 2D materials such as transition metal dichalcogenides are c

253 roaches in policy and management, and to raw material supply discussions by providing country-level i

254 of pollutants, disinfection of bacteria and material synthesis.

255 to the enhanced functional properties in the material system with reduced dimension via engineering t

256 t robust edge channels are intrinsic to this material system.

257 he need for lattice matching between the two material systems.

258 There is a need for new greener materials (than for example polyethylene glycol) and met

259 mechanical and electronic properties of this material that are important for possible future applicat

260 mory effect (SME) and can be utilized in any material that exhibits a glass-transition temperature (T

261 Graphene is a 2D material that has been extensively used in the developme

262 class of low-loss, magnetoelastic thin film materials that are promising for spin-mechanical devices

263 In this work, we create materials that form photoactivated depots of insulin wit

264 In an effort to develop synthetic materials that transduce mechanical force into multifold

265 a dominant effect on the flux of energy and materials through ecosystems, and our methodology paves

266 articles therefore represent a suitable base material to fulfill the homogeneity and stability requir

267 ing a practical route for tuning appropriate materials to a quantum critical point.

268 Conforming materials to rigid substrates with Gaussian curvature-po

269 etry differed among vegetation, soil, parent material types, and spatial climate variations, with sig

270 d, which gives the associated supramolecular material unique properties.

271 hermal transport in nanocrystalline Si-based materials using a variance-reduced Monte Carlo method wi

272 ctive compounds) in a greenhouse study plant material was cryo-milled and extracted with water/methan

273 (30)Si mole fraction of a sample of the new material was measured using a relative measurement proto

274 compression of analogue precursor chondrite material was probed using state of the art dynamic X-ray

275 MATERIAL/We included consecutive patients presenting wit

276 Material/We retrospectively reviewed 69 paediatric MRI s

277 Standard reference materials were analyzed for validation of method.

278 perature gradient, and thus locations in the materials where the thermal stress exceeds the yield str

279 bing the growth pathways of quasicrystalline materials, where tiling units arrange with local but no

280 c leaf made of graphene oxide (GO) thin film material, which exhibited broadband light absorption and

281 may be influenced by nano-scale metal oxide materials, which are abundant in natural systems.

282 anoscale changes can induce reactivity in 2D materials, which can provide unique surface interactions

283 ReS2 represents a different class of 2D materials, which is characterized by low symmetry having

284 ntial of this "generally recognized as safe" material with minimal, low-energy bioprocessing, two ind

285 and synthesis of a highly porous pure carbon material with multifractal structures.

286 calculated based on the volume of electrode material with OCV 0.741+/-0.021V.

287 It reveals that the nanostructured material with plasmonic nanobiosensor paves a fascinatin

288 stic flow in non-metallic crystals, enabling materials with a greater oxidation resistance and hence

289 Topological insulators are a new class of materials with an insulating bulk and topologically prot

290 as evolved hierarchical structures of hybrid materials with excellent mechanical properties.

291 New materials with high selectivities for CO2 adsorption, la

292 ting that SBT can enable good semiconducting materials with hole mobilities ranging from approximatel

293 method used was applied to various reference materials with inorganic and organic matrices as well as

294 "OCFighter" or guided self-help (written CBT materials with limited telephone or face-to-face support

295 Results indicate that inclusion of magnetic materials with low magnetocrystalline anisotropy is one

296 onal Berry phase predicted theoretically for materials with non-trivial topology.

297 hemical synthesis have yielded new nanoscale materials with precisely defined biochemical features, a

298 Materials with switchable mechanical properties are wide

299 now possible to accelerate the discovery of materials with target properties, such as auxetics, usin

300 ing across interfaces comprised of different materials with varying crystallographic orientations on