ライフサイエンスコーパス: material

1 ave an important role in segregating genetic material.

2 A. defectiva was isolated from the abscess material.

3 for variational cutting of orthosis padding material.

4 tensive and require highly purified starting material.

5 injury in transgenic mice receiving contrast material.

6 ation processes of the photocatalytic active material.

7 surface and interface regions of biological materials.

8 interaction of electromagnetic waves with 2D materials.

9 d ((14)C-AA) and (13)C-labeled ((13)C(3)-AA) materials.

10 trongly related to the work functions of the materials.

11 cathode biofilms were shaped by the cathode materials.

12 at observed in conventional 2D piezoelectric materials.

13 ble way to control molecular organization in materials.

14 ate of the actual diversity in the evaluated materials.

15 erpentines and helical coils of conventional materials.

16 the unusual regenerative properties of these materials.

17 igh-resolution, and rapid biological imaging materials.

18 sect the genetic relationship in current set materials.

19 les, metal carbide nanoparticles, and carbon materials.

20 orous properties by grinding and heating raw materials.

21 sing high-performance, state-of-the-art OECT materials.

22 aves the way for stiff, solid-state morphing materials.

23 fully generalized to other emergent layered materials.

24 study the phase relationships in polymorphic materials.

25 on processes of positive and negative active materials.

26 ic interstitial electrons in low-dimensional materials.

27 t opportunity to fabricate promising sensing materials.

28 ope for wider applications of these exciting materials.

29 alidated their functionality as radio-opaque materials.

30 Te and other state-of-the-art thermoelectric materials.

31 e precursors for next-generation interactive materials.

32 ture and properties of EBM and SLM CoNi-base materials.

33 e distinctive Bronsted acidic sites of these materials.

34 ly improved the adhesion of these dissimilar materials.

35 rosity which are ideal supports for catalyst materials.

36 promotes the utilization of sustainable wood materials.

37 nable combining dielectric and 2D electronic materials.

38 al properties of stacked van der Waals (vdW) materials.

39 tion and as a p-dopant in organic electronic materials.

40 the fabrication of damage-tolerant composite materials.

41 properties of these next generation organic materials.

42 e or presence of nuclear weapons and fissile materials.

43 er in bioactive natural products, functional materials, agrochemicals, and pharmaceutically active co

44 We suggest a multi-component material (aliphatic hydrocarbon resin), including alkane

45 In this review, we show that having so many materials allows us to use big-data methods as a powerfu

46 The properties of the material also result in waste that is readily generated,

47 of (-)-quinic acid as a chiral pool starting material and substrate stereocontrol to establish the fi

48 owing website *contains Supplementary File 1 material and the code.

49 his study, we re-examine Facivermis from new material and the holotype, leading to the discovery of s

50 ardised grade extracts, both from native raw materials and by-products.

51 rategies toward obtaining nanoparticle-based materials and devices with unique optical properties at

52 er, for harvesting energy, for manufacturing materials and for sensing chemical and biological analyt

53 geniously overcome the defect of the present materials and hold great promise for clinical applicatio

54 n's exposure to phthalates found in building materials and household furnishings.

55 cogenides (TMDs) have emerged as fascinating materials and key structures for electrocatalysis.

56 Materials and Methods A systematic review of MEDLINE, EM

57 Materials and Methods Data in patients with IDH-mutant l

58 Materials and Methods DLR was compared with filtered bac

59 Materials and Methods Healthy individuals and study part

60 Materials and Methods In this retrospective study, patie

61 Materials and Methods Lesions classified as clustered mi

62 Materials and Methods Patients with VHL disease who unde

63 Taken together, these new materials and methods provide access to colloidal crysta

64 Materials and Methods The demographics, clinical present

65 Materials and Methods This study was a retrospective tre

66 ctive, as it is based on cheap renewable raw materials and often exhibits advantages in terms of cost

67 m the different sputter rates of the various materials and or phases in a heterogeneous system and ar

68 d microtopographies on azobenzene-containing materials and showed that smooth topographical cues with

69 ing energy consumption problem, new building materials and technologies could provide a safe strategy

70 s that have enabled the preparation of these materials and the manifold properties they possess.

71 g temperatures prevent growth of other Janus materials and their heterostructures.

72 ing chiral liquid crystalline nanostructured materials and their technological applications is provid

73 thods as a powerful technique to study these materials and to discover complex correlations.

74 es in attenuation between corresponding base materials and VNC was calculated (VNCerror).

75 essed by analysis of SRM (Standard Reference Material) and recovery experiments after spiking in food

76 er, shows a dependency on patient size, base material, and iodine content; particularly the latter re

77 ome protein localizing to the pericentriolar material, and knockdown of Cep85l causes a neuronal migr

78 s to dispersion of sediment and contaminated material, and modulates fluxes of carbon through Earth's

79 t coprolites found in association with plant material, and tentatively assign them to the woodrat gen

80 istry in space yields complex populations of materials, and because the elements H, C, O, and N are a

81 analysis, which include the data, reference materials, and contextual information, (B) factors that

82 vitro studies in context of their geometry, materials, and fabrication processes as well as recent d

83 Boron-containing materials, and in particular boron nitride, have recentl

84 on conditions and easily accessible starting materials, and it shows excellent functional group compa

85 urther study of topological states in graded materials, and the development of acoustic devices.

86 olutions for improving these novel catalytic materials are also highlighted.

87 These results suggest that ME materials are an excellent candidate to enable miniature

88 Nowadays, energy-saving building materials are important for reducing indoor energy consu

89 Nanosized materials are known to have the ability to withstand ult

90 tic activities and structural changes of the materials are not clear, in part due to the difficulty i

91 Here, various monolayer or few-layer 2D materials are presented in the conventional vertical str

92 Stimuli-responsive materials are serving as the precursors for next-generat

93 atic dimensions of the pore openings of both materials are too small to admit either guest, signallin

94 Porous materials are widely used in industry for applications t

95 t of catalytic activity and stability of the material as compared to natural pyrite was evidenced, as

96 developing new conducting or electrochromic materials as well as in the construction of redox-contro

97 great promise for next-generation electronic materials as well as potential game-changing properties

98 uctural and geometrical fabrication of these materials as wires, coils, films, tubes, cones, unimorph

99 ls the study of structures and properties of materials at the level of single molecules or small inte

100 roaches is challenging because the available materials at these scales are not programmable like thei

101 us on specific packaging characteristics, or material attributes, commonly perceived to be environmen

102 sis WAX) and three phosphopeptide enrichment materials based on affinity chromatography to either imm

103 onstrates the utility of emerging functional materials based on anion-anion linkages.

104 While redox-active materials based on conducting and semiconducting polymer

105 These findings establish robust materials basis, formation mechanism, and geological via

106 uidance for designing advanced EMI shielding materials but also highlight the need for exploring fund

107 key to provide high-quality two-dimensional materials, but despite improvements it is still limited

108 that differs not only from the single-layer materials, but from the 3D perovskites as well.

109 aterials have been explored, including green materials, but their performances have not yet reached t

110 in particular by devising a novel composite material by coupling DMASnBr(3) to g-C(3) N(4) , taking

111 The synthesis of these materials by impregnation from strongly oxidizing aqueou

112 , as long as a sufficient amount of starting material can be obtained.

113 rties since the best properties of different materials can be judiciously combined with designed micr

114 -air plasma, we show that soft biocompatible materials can be rapidly printed for the on-demand proto

115 The ion transport behavior in these materials can be regulated through structural and compos

116 rength, electromagnetic fields in electronic materials can induce dipole transitions between eigensta

117 emerging from the development of a suite of materials characterization, damage quantification, and t

118 n constituent is a mix of ice and refractory materials characterized by high porosity (70-75%) and lo

119 t offers plenty of research opportunities in materials chemistry.

120 ilicon germanium (SiGe) is a multifunctional material considered for quantum computing, neuromorphic

121 Materials consisting of isolated Cu particles or atomica

122 Plastic materials contain various additives, which can be releas

123 Spin Hall effect (SHE), a mechanism by which materials convert a charge current into a spin current,

124 With the potential fully realized, such materials could one day transform the current energy-los

125 Ultrathin ferroelectric materials could potentially enable low-power perovskite

126 s atomic models for oxyfluorides, needed for materials design and structure-property control, is ofte

127 MC, this study opens a new space for cathode material development for next-generation high-energy, co

128 Combinatorial approaches to materials discovery offer promising potential for the ra

129 turing currently facilitates new avenues for materials discovery that have not been fully explored.

130 cultures present in the surroundings or raw materials, distillers could allow naturally occurring or

131 Textiles are their own class of materials due to the specific structural developments th

132 However, many commonly used magnetic materials (e.g., Ni and Co) are not biocompatible, posse

133 Magnets derived from inorganic materials (e.g., oxides, rare-earth-based, and intermeta

134 des algorithms to relax geometry, distribute material efficiently and for variational cutting of orth

135 urements of emerging materials such as solar materials, electrocatalysts, and nanomaterials.

136 Breakthroughs in materials engineering have accelerated the progress of i

137 Contrast material-enhanced imaging was not available at the time

138 Background MRI with contrast material enhancement is the imaging modality of choice t

139 present one of the largest 2D supramolecular materials ever made, with potential application as long-

140 ic material, tellurium, into a robust n-type material exhibiting stable properties over months of tes

141 Porous materials exhibiting framework flexibility offer unique

142 disorder to order transition while bridging materials fabrication from nano- to macroscale remains a

143 ss of polyurethanes (PUs) and a new class of materials featuring an unprecedented backbone structure,

144 Recently, MOF materials, featuring high surface areas, rich structural

145 ion by proximity effect at the hybridized 2D material / ferromagnet interface for 2D-MTJs.

146 ave not been widely considered as an optimal material for drug delivery.

147 Eumelanin is also a promising redox-active material for energy conversion and storage, but the chem

148 e proposed use of mackinawite as a scavenger material for uranium in groundwater systems are discusse

149 ting polymers represent an exciting class of materials for bioelectronic devices, they are susceptibl

150 the design of novel dynamic functional soft materials for future use in flexible devices or soft-rob

151 form that can be extended to a wide range of materials for improved biological performance.

152 nal design and holistic engineering of novel materials for more capable biocompatible triboelectric d

153 e next generation of high-performance n-type materials for thermoelectric applications.

154 Optically active defects in wide band gap materials, for instance, are critical constituents for t

155 sing six chloroplast DNA sequences from leaf material from across the BI and the native range.

156 uch as cometary, asteroidal, or interstellar material from sample return missions or inclusions in de

157 The milk samples contained genetic material from various bacterial species and the in-depth

158 from plants and animals to produce photonic materials from biopolymers are discussed.

159 earance of piezoelectricity in multilayer 2D material generally arises from the opposite orientations

160 drives every interaction that this synthetic material has with its environment, from ecotoxicity and

161 ption of competing phases in complex quantum materials has proven extremely challenging.

162 Black phosphorus (BP), an emerging layered material, has recently been explored for a wide range of

163 New materials have been explored, including green materials,

164 In recent years, organic electronic materials have been shown to be a promising tool, even t

165 -dimensional transition metal dichalcogenide materials have been widely reported, few show an idealit

166 Boron-containing materials have recently been identified as highly select

167 dels of cancer with a thermal camera reveals material heterogeneity and delineates diseased from heal

168 As elemental main group materials (i.e., silicon and germanium) have dominated t

169 The material imparts significant influence on the kinetics a

170 of different type and complexity for a given material in the wide pressure-volume-temperature domain

171 e), resulting in the accumulation of storage material in visceral organs and in some cases the brain

172 Detection of animal materials in gelatin-based products is required to addre

173 ook on the development of next-generation TE materials in line with these thermodynamic routes is giv

174 nt incompatibility of CNM with most man-made materials in use today, research has tended to be more b

175 ent between the two ends of a thermoelectric material, in order to ensure continuous electron current

176 In contrast to the behavior of crystalline materials, in the glass paddlewheel dynamics contribute

177 utilize MOF instability to fabricate varying materials including hierarchically porous MOFs, monolaye

178 erest for development of high-energy-density materials, including explosives for defense and construc

179 sustainable, eco-friendly, and biocompatible material innovation platforms for applications in sensin

180 there is a significant knowledge gap between materials innovation and device integration.

181 ransform the current development of hydrogel materials into sustainable energy and water technologies

182 eatment Effects, Tumor Response Supplemental material is available for this article.

183 LI T1 mapping sequence at 1.5 T.Supplemental material is available for this article.(C) RSNA, 2020.

184 Genital/Reproductive, UltrasoundSupplemental material is available for this article.(C) RSNA, 2020.

185 is approach to estimate E/E (m).Supplemental material is available for this article.(C) RSNA, 2020.

186 for pneumonia is nonnegligible.Supplemental material is available for this article.(C) RSNA, 2020.

187 erative detection of MVI in HCC.Supplemental material is available for this article.(C) RSNA, 2020.

188 Comparative Studies, Large BowelSupplemental material is available for this article.(C) RSNA, 2020.

189 calls that an individual Ising chain in this material is buckled, with two sites in each unit cell re

190 Reporting the sex of biological material is critical for transparency and reproducibilit

191 These results suggest that even when nesting material is provided, individual mice may be experiencin

192 s, where the use of versatile earth-abundant materials is a key prerequisite.

193 aurophilicity and its use in designing novel materials is a true example of innovation on a multidisc

194 Characterization of these materials is challenging because the metal atoms reside

195 potential of nitrogen-containing solid-state materials is limited by the inert and gaseous nature of

196 s based on beta-Ga(2)O(3) and other existing materials lack in response time and stability at elevate

197 Overall, we indicated this new material may be developed as an anti-bacterial agent for

198 ature of such catalysts supported on zeotype materials, metal-organic frameworks, and covalent organi

199 Without any material modifications or electrolyte optimizations, the

200 enser and smaller pixel arrays, the emissive material must exhibit wider colour gamut so that each of

201 that the chemical potentials of chalcogenide materials near the edge of their existence region are no

202 similar results were obtained for analogous materials obtained from 2,5-di(alkoxy)terephthaldehyde d

203 The properties of van der Waals (vdW) materials often vary dramatically with the atomic stacki

204 The fact that we have so many materials opens many exciting avenues but also create ne

205 e not adequate for examination of incomplete material or that another factor such as phylogeny might

206 Newly developed photonic materials permit subambient cooling under direct sunshin

207 dimensional vdWH arrays provides a versatile material platform for exploring exotic physics and promi

208 Materials possessing memory of thermal history hold prom

209 Black phosphorus (BP) is a monoelemental 2D material predicted to be piezoelectric because of its hi

210 Harnessing the material properties of bioinspired systems such as polle

211 age enables a combined probing of mechanical material properties together with the chemical compositi

212 Interaction effects can change materials properties in intriguing ways, and they have,

213 g strategies and electrodeposition to create materials relevant to energy challenges including photoc

214 the nature and physical properties of these materials remain largely unknown.

215 ostructure, chemistry and function of energy materials remains a challenge for instrumentation scienc

216 However, most of the radiative cooling materials reported possess broad-band absorption/emissio

217 tages of this new approach are no additional material requirement, healthful, easy, inexpensive, fast

218 The resulting materials respectively constitute a new class of polyure

219 e, we demonstrate >1,000-fold variability in material routinely collected by combined nose and throat

220 ordered grain growth and can thereby produce material samples with uniform GB defects.

221 TAEs have widespread applications in material science and supramolecular chemistry due to the

222 most popular tool used in nanotechnology and material science.

223 Materials science has been informed by nonclassical path

224 ool for studies of interfaces in biology and materials science with notable utility in biophysical an

225 o solve problems in the fields of chemistry, materials science, and biochemistry.

226 (photo)catalysis, bioinorganic chemistry and materials science.

227 fundamental tasks in inorganic synthesis and materials science.

228 in diverse areas of chemistry, physics, and materials science.

229 Materials scientists are currently shifting from purely

230 ture is a constant source of inspiration for materials scientists, fueling the dream of mimicking lif

231 y Solar System that have preserved primitive materials since their formation approximately 4.6 billio

232 ion dominates on hydrophilic substrates, and material softening dominates on hydrophobic substrates.

233 ation efficiency while maintaining excellent material stability.

234 perties, processing conditions, packing, and material state(s).

235 ng vertical) distribution of 46 construction materials stocked in buildings (residential and nonresid

236 The significant amount of secondary materials stocked in products, buildings, and infrastruc

237 devices rely heavily on intricate control of material stoichiometry and generally suffer from toxic a

238 hese discoveries illustrate how a biological materials strategy of interplay between strength and duc

239 ticity up to 2-fold higher than the starting material, strongly suggesting that polymerization (addit

240 he most effective strategies rely on unusual materials such as liquid metals, nanowires, and woven te

241 and cost-effective measurements of emerging materials such as solar materials, electrocatalysts, and

242 ate addition of a small fraction of hydrated materials, such as carbonaceous chondrite meteorites, wh

243 Innovations in soft material synthesis and fabrication technologies have led

244 ty epitaxial layers(1-5), the limited set of material systems for commercially available wafers restr

245 ics from electrochemical sensing modalities, materials, systems, fabrication, to applications are sum

246 a poor nonconventional p-type thermoelectric material, tellurium, into a robust n-type material exhib

247 f microbiomes before administration of donor material than fecal samples from nonresponders (P = .04)

248 ever, that it is predominantly extracellular material that fluoresces at these wavelengths, not bacte

249 ver almost the entire compositional range of material that formed in the protoplanetary disk.

250 mplate, result in a wholly organic molecular material that forms as stacks and clusters of thin sheet

251 fabricated into high-performance structural materials that are both strong and tough.

252 However, designing tough materials that are simultaneously strong and soft is usu

253 emerging class of porous crystalline organic materials that can be designed and synthesized from the

254 ally available wafers restricts the range of materials that can be grown homoepitaxially.

255 ABO(2) delafossites are fascinating materials that exhibit a wide range of physical properti

256 Shape-programmable soft materials that exhibit integrated multifunctional shape

257 omposites can be generalized to other matrix materials that impart additional functionality.

258 in the chemical design of stimuli-responsive materials that mimic the complex functions of living sys

259 est the need for improved polyplex targeting materials that penetrate brain extracellular matrix to i

260 step forward in the development of synthetic materials that rival their highly functional, natural co

261 d by changing the CNT concentration, and the material thickness.

262 esult in the preferential delivery of coarse material to channel networks that initiate debris flows.

263 boiled N. nouchali rhizome as an ideal food material to manage the cause of hyperglycemia and result

264 When utilizing this material to sensitize a blue multiple-resonance TADF emi

265 th are driven by the energy cost for the top material to sustain the polarization imposed upon it by

266 es can be coupled by stacking layers of such materials to create heterostructures and can be further

267 d materials towards hybrid organic-inorganic materials to develop increasingly complex and powerful e

268 uivalents, making them a promising family of materials to investigate.

269 these results expands the catalogue of qubit materials to Ni(2+)-based compounds and offers a future

270 es by marrying the advantages of topological materials to versatile semiconductors.

271 Here, we report hematite, an earth-abundant material, to be highly effective and thermally stable to

272 purely inorganic, organic and silicon-based materials towards hybrid organic-inorganic materials to

273 the enrichment capabilities of five sorbent materials: two commercial weak anion-exchange mixed-mode

274 c fluctuations play an important role in the materials' unusual electronic states, the nature of thes

275 ntial to further explore alternate electrode materials, use of ion exchange membranes, and developmen

276 s specific immune status and not only on the material used.

277 an be used to replace the common heavyweight materials used for microwave applications.

278 of the fundamental chemistry underlying the materials used in bioelectronic applications have been a

279 origin of each copy of chromosome 10 in the materials using oligonucleotide-based haplotype-specific

280 Several different materials varying in size and shape were investigated ov

281 f the triple-cation double-halide perovskite material via halogen bonding.

282 The structure of the synthetic material was further corroborated by obtaining an X-ray

283 The organic materials were synthesized locally and/or delivered mete

284 of surface oxygen vacancies (V(O)) in these materials whereby an increased concentration of V(O) sit

285 nd synthetic hydroxyapatites are confounding materials whose properties remain uncertain, even after

286 and chemical characteristics of synthesized materials will be described along with their ability to

287 o achieve a room temperature phosphorescence material with simultaneous long lifetime and high phosph

288 Hybridization of AuNPs with silica NPs as a material with unique characteristic comprising large sur

289 The 2D layers of the materials with a composition close to Ta(1.6)Te, derived

290 ssed on the utilization of antiferromagnetic materials with biaxial magnetic anisotropy for electrica

291 roscopic monolayers and bulk-like artificial materials with controllable properties.

292 hannels of MIL-88 type (acs topology) endows materials with high tunability in gas sorption.

293 nt for the development of various functional materials with macroscopic properties.

294 performed at room temperature and below, in materials with mobilities greater than 1 cm(2) V(-1) s(-

295 down to the nanoscale, imparting wood-based materials with multiple functions for a range of emergin

296 ical operation in the pathway to discovering materials with novel functions.

297 All the materials with rhBMP-2/ACS exhibited improvement on bone

298 or metal cation, generating a wide range of materials with tailored properties.

299 tronic dynamics of a wide range of nanoscale materials with ultimate spatiotemporal resolution.

300 printed micro-architectures using electronic materials with well-understood electronic transport with