ライフサイエンスコーパス: fabric

1 demonstrated for H2S emission from aged wool fabric.

2 t anisotropies associated to the folded rock fabric.

3 ns and (2) the fraction that remained on the fabric.

4 distinctive macroscopic spotted or dendroid fabric.

5 ess analogous to the weaving of a waterproof fabric.

6 posited on glass, wood, steel, and polyester fabric.

7 , which has the attributes of a strong stiff fabric.

8 between the underlying object and overlying fabric.

9 rocess as part of the pretreatment of cotton fabric.

10 des in a four by four array), elastomer, and fabric.

11 volving patterned deposition of Ag and Zn on fabric.

12 nge is changing the Earth's natural acoustic fabric.

13 nce tomography (EIT) imaging on a conductive fabric.

14 fiber extrusion to assembly of the fibers to fabrics.

15 nserting the bent polymer sheets between two fabrics.

16 ps the method used to artificially age these fabrics.

17 ese amino acids in authentic historical silk fabrics.

18 key component of protective, yet breathable fabrics.

19 transplanar and in-plane wicking property of fabrics.

20 , such as: glass, tiles, concrete, paint and fabrics.

21 D fiber devices to multidimensional wearable fabrics.

22 s easy and direct comparison among different fabrics.

23 temperature regulators; and thermal transfer fabrics.

24 polarization-sensitive plasmonic papers and fabrics.

25 en PANI-carbon nanotube (PANI-CNT) composite fabrics.

26 sis, thin-film solar cells and antibacterial fabrics.

27 ed materials such as membranes, filters, and fabrics.

28 extended and flexible ultrasound transducing fabrics.

29 igher functionality in functional fibers and fabrics.

30 t-wind energy and body-movement energy using fabrics.

31 ted out to produce free-standing macroscopic fabrics.

32 ave originated from chitinous or collagenous fabrics.

33 quito bite protection for light, fiber-based fabrics.

34 led fiber sensors into the reinforcing fiber fabrics.

35 Fabrics, a plush toy, and cleaning products were most li

36 main features of the nanostructured, porous fabric: a low solid fraction with high-aspect-ratio nano

37 Over 30 days cotton and polyester fabrics accumulated 3475 and 1950 ng/dm(2) summation ope

38 Besides, the fluffy fabric airflow sensor can be combined with a pristine fa

39 rflow sensor can be combined with a pristine fabric airflow sensor to realize highly sensitive detect

40 Direct analysis of the dye from the fabric allows the omission of the lengthy sample prepara

41 aving efficiency similar to PVA on polyester fabrics, although with 3- 6% lower add-on.

42 reasing the number of yarns per unit area of fabric and decreasing yarn hydrophilicity.

43 on the relative orientation between mineral fabric and layering.

44 the FOM was the Fisher ratio between a neat fabric and one stained with either a polymer film or blo

45 ere, we demonstrate that microscopic mineral fabric and structure interact with macroscopic strain fi

46 t manipulations in which radiation-absorbing fabric and the addition and removal of dust from the sur

47 S method, the dye must be extracted from the fabric and the dye components are separated by chromatog

48 Contrast differences between the clean fabric and the fabric stained with blood diluted as low

49 ACC precursor particles with nanoparticulate fabric and then use the latter to investigate the antiqu

50 ve and reproducible in differentiating these fabrics and it suggests that water absorption and transp

51 Furthermore, we find relict fabrics and organic layers that covary with stromatolite

52 elical fibers can be readily integrated with fabrics and other functional components to build fabric-

53 re literally the stuff from which our tissue fabrics and their fibers are woven and spun.

54 test on high performance moisture management fabrics and these fabrics were found to have excellent t

55 tal fabric as much as it does our biological fabric, and offer some prescriptive remedies.

56 he ice column, alters basal ice rheology and fabric, and upwarps the overlying ice sheet, including t

57 ly modified starch sizes on polyester/cotton fabrics, and had relative weaving efficiency similar to

58 for flexible and wearable electronics, woven fabrics, and wires.

59 ese mechanisms are related to mineralogy and fabric anisotropy, while confining pressure, temperature

60 ve thermoelectrics can be woven into various fabric architectures for sensing, energy harvesting, or

61 ng, extractions from oil-and-water-repellent fabrics are analyzed via monitoring Na(2)F(+), resulting

62 In the modern Earth such fabrics are associated with deformation of mantle rocks

63 water absorption and transport properties of fabrics are critical to wear comfort, especially for spo

64 engineering new materials, products and even fabrics are several reasons for thriving farm animal gen

65 water absorption and transport properties of fabrics are sweat rate-dependent.

66 Fabrics are ubiquitous materials that have conventionall

67 s), consisting of rubbery matrices and rigid fabrics, are widely utilized in industry because they po

68 that all samples display virtually identical fabrics, argue that the modern setting is not analogous

69 This hybrid system on the fabric as an electrode indicates a detection limit of 13

70 s how insufficient sleep erodes our societal fabric as much as it does our biological fabric, and off

71 s adoption as wearable devices integrated in fabrics as active functional materials.

72 FMDs were integrated with fabrics as functional materials for protection against m

73 ing software to scale up this natural tissue fabric, as well as multidimensional weaving algorithms,

74 ansplanar and in-plane wicking properties of fabrics based on gravimetric and image analysis techniqu

75 ensities, hold promise for powering flexible fabric-based electronics.

76 In this paper, we describe a fabric-based electrophoretic platform for protein separa

77 les, it is rather difficult to achieve fiber/fabric-based NGs with both excellent electrical output p

78 ch and applications of future wearable fiber/fabric-based NGs.

79 current state of the arts of wearable fiber/fabric-based piezoelectric nanogenerators and triboelect

80 Due to the intrinsic properties of fabrics, fabric-based wearable systems have certain advantages ov

81 ics and other functional components to build fabric-based wearable systems.

82 size played some role, the NP capping agent/fabric binder combination was a key factor in release.

83 easible strategy for driving regeneration in fabric by means of integration with a bacterial biofilm

84 Here we present an implementation of robotic fabrics by integrating functional fibers into convention

85 rinting of TE layers on flexible fiber glass fabrics, by rationally optimizing the printing inks cons

86 Electromechanical responses of a conductive fabric can be exploited using EIT to create a low cost a

87 Complex fabrics can be easily woven from fibers that respond to

88 The fabrics can be fashioned into garments that can sense an

89 ity and to assess whether virus-contaminated fabrics can generate aerosolized fomites, but the result

90 The portal is available at fabric-cancer.huji.ac.il.

91 rbon nanotubes on the surface of micro-fibre fabric cloth layouts, normal to the fibre lengths, resul

92 cluding dust, dish plates, windows, mirrors, fabric cloth, and wood.

93 surfaces was found to be faster than that of fabric cloth.

94 These nanotube-coated fabric cloths serve as building blocks for the multilaye

95 (CO)10 were embedded in electrospun nonwoven fabrics, CO was liberated upon irradiation with low-inte

96 specimen were consistent with authentic silk fabrics collected from various museums.

97 than the critical value have an anisotropic fabric (contact network).

98 approximately 90% compared to the untreated fabric control, and about 50% reduction compared to the

99 reduction compared to the permethrin-treated fabric control.

100 these NPs for antimicrobial reasons, such as fabrics, cosmetics, and medical products.

101 This instrument is versatile in terms of the fabrics could be tested.

102 The fabric decorated with fluffy-like CNTs possesses excepti

103 A fabric device tuned for protein separations was built an

104 Although washing the fabrics did release silver, it did not affect their anti

105 ANES, TEM, SEM, and total metals analysis of fabric digests and wash water filtrates.

106 Fabrics displaying higher-order diffraction peaks in the

107 ngular regions, a feature also familiar from fabric draping and paper crumpling.

108 will not diminish since the use of synthetic fabrics, especially polyester, continues to increase.

109 Due to the intrinsic properties of fabrics, fabric-based wearable systems have certain adva

110 The CNT enabled smart fabrics, fabricated by a cost-effective and scalable met

111 l (1 bed bug/3 bed bugs), surface type (wood/fabric), feeding status (fed/unfed), and bed bug time-on

112 the emission fraction in the absence of the fabric filter above the emission limits.

113 Therefore, the impact of the fabric filter is negligible for these elements.

114 The use of a fabric filter will allow the concentration of these thre

115 in a 0.2 MW combustion unit equipped with a fabric filter.

116 otection time compared to that of its parent fabric for a mustard gas simulant, 2-chloroethyl ethyl s

117 rform logic functions, to serve as a routing fabric for interconnecting the FETs and as the target fo

118 tion may be used to predefine regions in the fabric for successive preconcentrations and separations.

119 s; (ii) intervalley homogeneity of clays and fabrics for a wide range of decorated wares (e.g., paint

120 Cotton has been cultivated and used to make fabrics for at least 7000 years.

121 : (i) intervalley heterogeneity of clays and fabrics for ordinary wares; (ii) intervalley homogeneity

122 l applications of these fibers include woven fabrics for radiation barriers, spectral authentication

123 timicrobial properties, which are desired in fabrics for sportswear as well as cloth used for cleanin

124 these ribbons are successfully woven into a fabric form.

125 wild A. pernyi/Ap silkworms are selected in fabric forms.

126 length and/or debris encapsulated inside the fabric from the yarn spinning could be directly responsi

127 the weaving task involves weaving pieces of fabric from woollen strings, using a manual weaver's loo

128 organic compounds absorbed into the pottery fabrics from sites in Georgia in the South Caucasus regi

129 oating acrylic, cotton, nylon, and polyester fabrics from solutions of diluted rat blood.

130 muli and can be directly incorporated into a fabric garment for stylish designs without sacrifice of

131 0 mum in length compared to the PES/CO-based fabric (>1000/GyroWash for PA vs ~200/GyroWash fibers fo

132 organic microbial remains or biosedimentary fabrics--has to date eluded discovery in the extensively

133 Most technologies for surfaces and fabrics have been assessed in vitro and have been shown

134 Thermal annealing of the nanowire fabric in a reducing environment converts the polyphenyl

135 rom the representation of patterns in draped fabric in Renaissance art to current-day efforts to engi

136 face pre-treated (by inkjet printing) cotton fabrics in order to produce all-inkjet-printed highly co

137 materials, which were supplanted by polymer fabrics in recent decades.

138 beads (IERB) to replace nonconductive spacer fabrics in RED compartments with dilute NaCl solution in

139 Here we show that the presence of B-type fabrics in the studied Isua dunites is consistent with a

140 uched participants with either soft or rough fabrics in their unseen hand, while they watched a rubbe

141 rubber impregnated into stiff natural fiber fabrics, including cotton, hemp, and jute.

142 r patterning multiplexed channel geometries, fabric is a viable platform for the development of analy

143 The fabric is a wide linear range electrode with low detecti

144 n the skin and the breathable elastomer with fabric is biocompatible and comfortable for patients.

145 This mantle fabric is detectable seismologically, as it produces an

146 The observed anisotropic fabric is generally consistent with the current surface

147 or the detection of blood on a dark, acrylic fabric is shown.

148 (air-laid paper, cellulose paper, and cotton fabric) is reviewed.

149 coated with polypyrrole and integrated into fabric lateral flow sensors.

150 However, the invalid 2D architecture of fabric limits the application in thermoelectrics.

151 A series of shirting fabrics made by different fabric structure and yarn were

152 friable cellulosic fibers in homemade cotton-fabric masks confounded explicit determination of their

153 ible supercapacitive sensing modality to all-fabric materials for wearable pressure and force sensing

154 Fabrics-materials consisting of layers of woven fibres-a

155 he high flexibility and weavable property, a fabric/matrix made using these ribbons could be highly b

156 efficacy of nanosilver particles embedded on fabrics may be negated when treated with detergents cont

157 The low-density wall fabrics may represent specific adaptation for oceanic en

158 e prepared using spin coating and glass wool fabric mesh as substrate.

159 een the IR spectra of blood solids and nylon fabrics, no satisfactory IR DLs were determined for the

160 Second, as fabrics occupy an enormous surface around the body, coul

161 usly with the same fabric or with a 'hidden' fabric of 'uncertain roughness'.

162 ering the footprint of mantle melting in the fabric of abyssal hills, the most common topographic fea

163 s are often found deeply integrated into the fabric of adipose tissue, the impact of lymphangiogenesi

164 interactive process that weaves together the fabric of both human and nonhuman primate societies.

165 c and axonal connections form the microscale fabric of brain circuitry, and macroscale brain regions

166 bid tubes are comprised of a loose prismatic fabric of calcite crystals.

167 This one-atom-thick fabric of carbon uniquely combines extreme mechanical st

168 endanger public health, and that the social fabric of communities could be impacted by the rapid eme

169 ption plays an important role in weaving the fabric of continuous visual experience.

170 as some views on the overall epistemological fabric of developmental biology.

171 e fossil record amply shows that the spatial fabric of extinction has profoundly shaped the biosphere

172 tated, expanded, and woven into the cultural fabric of human societies.

173 nts saw the rubber hand being touched with a fabric of incongruent roughness and hence opposite valen

174 The fabric of life on which we all depend-nature and its con

175 ial relativity is woven into the theoretical fabric of modern physics and into everyday applications

176 inguistic metaphors have been woven into the fabric of molecular biology since its inception.

177 ia are structurally integral elements in the fabric of oral mucosa with significant functional roles.

178 on, using simple models that are part of the fabric of organic chemistry pedagogy.

179 e often weaved together, integrated into the fabric of our lives.

180 ngly beyond our reach, entrenched within the fabric of our society, such as social injustice and huma

181 Systemic racism that underlies the fabric of society often manifests itself in prominent in

182 ology is becoming deeply interwoven into the fabric of society.

183 Over the next generation, the entire fabric of the biosciences will change as research barrie

184 d in corresponding signatures throughout the fabric of the cell and its genome.

185 ed by self-organized assembly, guided by the fabric of the cell.

186 interest policies have become a part of the fabric of the conduct of biomedical research, yet such c

187 elting at depth, recorded in the bathymetric fabric of the sea floor.

188 t studies have proposed that the bathymetric fabric of the seafloor formed at mid-ocean ridges record

189 like Bernie Fields and Abner Notkins are the fabric of the tale I will weave and were pivotal in the

190 rences before they are incorporated into the fabric of U.S. cardiology.

191 organic compounds absorbed into the pottery fabrics of imported Etruscan amphoras (ca. 500-475 B.C.)

192 Finally, analysis of internal fabrics of stromatolites revealed pervasive precipitatio

193 n a deliberate evaluation of the "biological fabric" of the case, in terms of history of/risk for fur

194 y an enormous surface around the body, could fabrics offer a valuable service to augment the human bo

195 ft in the South Atlantic Ocean, abyssal hill fabric on slow-spreading ridges, and thousands of previo

196 The impacts of these changes in fabric on the flow itself are not well understood, and t

197 transformations either still adhered to the fabric or when released after washing.

198 and been touched synchronously with the same fabric or with a 'hidden' fabric of 'uncertain roughness

199 iety of unconventional substrates, including fabric, paper, and metals, is achieved by a single-step

200 We therefore explored the effect of yarn and fabric parameters on separation resolution.

201 aphy and diffraction measurements of contact fabric, particle kinematics, average per-particle stress

202 Fabric phase sorptive extraction (FPSE) is a novel sampl

203 Fabric phase sorptive extraction (FPSE), a novel sorbent

204 ish on the surface and play the same role as fabric pleats.

205 Two fabrics [polyamide (PA) and polyester/cotton (PES/CO)] w

206 The outer, nonwoven fabric portion of this device was designed to filter mac

207 chnology-based consumer products (plush toy, fabric products, breast milk storage bags, sippy cups, c

208 fluorinated surfactants, such as Scotchgard fabric protector (3M Company), can be metabolically degr

209 s coincident with the detection of the major fabric protector components, and contains the N-methyl-p

210 d coincident with the detection of the major fabric protector components, which contains the N-ethyl-

211 r FBSAs were not detectable (<LODs) in these fabric protector original standard solutions.

212 film to obtain a symbiotic-like hybrid - the fabric provides structural framework to the biofilm and

213 prototype scaled up architectures of natural fabrics provides a new avenue to create advanced functio

214 st as sills, which cross-cut the continental fabric, rather than as an 'underplate' of 100 per cent m

215 results indicate that a high water-volume-to-fabric ratio is the most influential factor for MF relea

216 Visible light irradiation of the fabrics reduced the extent of Ag release for textiles du

217 The PA-based fabric released considerably more fibers >20 mum in leng

218 F/m(2)) were released from the PA and PES/CO fabrics, respectively.

219 2.94 mum is used to desorb the dye from the fabric sample with the aid of water as the matrix.

220 Under optimal parameters, the fabric sensor exhibited a good linearity (r(2) = 0.998)

221 le-stiffness fibers, as well as printable in-fabric sensors, which allows for robotic closed-loop con

222 tened LVOT obstruction from a Sapien 3 valve fabric skirt.

223 roduction of a new class of actuators called fabric soft pneumatic actuators (FSPAs).

224 differences between the clean fabric and the fabric stained with blood diluted as low as 1:100 are re

225 t role in everyday life in the form of wood, fabrics, starch, paper and rubber.

226 Consideration of fabric structure and washing conditions (use of detergen

227 series of shirting fabrics made by different fabric structure and yarn were investigated and the resu

228 ined similar regardless of wash condition or fabric structure, with the vast majority of fibers rangi

229 ned including various material compositions, fabric structure, yarn twist, fiber type, and hairiness.

230 FPSE utilizes a flexible fabric substrate, chemically coated with sol-gel derived

231 nd the hydrophilic property of the cellulose fabric substrate, resulting in a highly sensitive and fa

232 opportunity to impart robotic function into fabric substrates.

233 the device to be fabricated on the standard fabric substrates.

234 r arrays are successfully realized on common fabric substrates.

235 The dipping mantle fabric suggests that the Indian mantle is subducting in

236 simulated household washing experiments for fabric swatches in deionized water with or without deter

237 o approaches pave the way to multifunctional fabric systems.

238 ombosis/stenosis (n = 7), limb separation or fabric tear with a subsequent type 3 endoleak (n = 1), a

239 A luminescent fabric that displays movable pixels and other configurat

240 d is useful for visualizing thin coatings on fabrics that are invisible to the eye.

241 In addition, the smart fabrics that are readily and non-invasively integrated i

242 rument is versatile in terms of the types of fabrics that can be tested.

243 Here, free-standing supercapacitor fabrics that can store high electrical energy and sustai

244 ned to reduce the probability of a bite, but fabrics that minimise injuries when a shark bite occurs

245 , toothpaste, medical devices, plastics, and fabrics) that are regulated by the U.S. Food and Drug Ad

246 this model-where development of the mineral fabric (the alignment of mineral grains) is caused solel

247 To test the authenticity of these silk fabrics, the recently developed silk dating technique us

248 CuO nanoparticles were synthesized on cotton fabric through chemical methods to make a new flexible h

249 al (2D) metal-organic frameworks (MOFs) into fabrics through direct solution-phase self-assembly from

250 nally, we demonstrate the utility of robotic fabrics through their application to an active wearable

251 Assembling thermoelectric modules into fabric to harvest energy from body heat could one day po

252 essure mapping sensing using piezo-resistive fabric to represent aspects of the sense of touch.

253 to developing self-disinfecting surfaces or fabrics to minimize healthcare-associated infection (HCA

254 inner, thus reducing the gap between the two fabrics to reduce the thermal insulation.

255 their expertise into metaphorical knowledge fabrics to share understanding, resources, and enthusias

256 cone materials with elastic, strain-limiting fabrics, to yield a compliant but rugged platform for st

257 In this study, aerosols released form fabrics treated with Ag NPs were collected using a low p

258 Here, a 3D honeycomb-structured woven fabric triboelectric nanogenerator (F-TENG) based on a f

259 alized by combining yarn supercapacitors and fabric triboelectric nanogenerators as energy-harvesting

260 Detection limits (DL) for blood on four fabric types were estimated for calibrations derived usi

261 Viscous crude oil fouled on a fabric under a dry state was cleaned by immersion into w

262 The use of well-controlled fabrics, unreactive reference materials, and a life-cycl

263 retation frames the technology of writing on fabrics, used by the ancient Egyptians, in a different t

264 This makes the nanowire fabric useful as a self-supporting, mechanically flexibl

265 egrating functional fibers into conventional fabrics using typical textile manufacturing techniques.

266 Notably, an electrospun ionic fabric utilizing nanofibrous structures offers an extrao

267 For a strategy of combined fabric, ventilation, fuel switching, and behavioural cha

268 About 90% of the nanowire fabric volume is void space.

269 Herein, a direct analysis of dyed textile fabric was performed using the infrared matrix-assisted

270 The oil-proofing fabric was used for protecting underwater conductive sen

271 f this technology also include self-cleaning fabrics, water purification and protein functionalizatio

272 ay be superimposed on a first-order tectonic fabric, we emphasize the difficulty of deciphering these

273 Fabric weaving is a mature, scalable manufacturing techn

274 rmance moisture management fabrics and these fabrics were found to have excellent transplanar and in-

275 flection DLs for blood on acrylic and cotton fabrics were in the mid-IR spectral window corresponding

276 Laboratory prepared nanoenhanced fabrics were investigated: three Ag variants and one Au

277 Here, cotton and polyester-cotton fabrics were sonochemically coated with zinc oxide (ZnO)

278 CPCD processing of Kevlar fabric wetted by (B(3)H(8))Re(CO)(4) produces an oriente

279 y experienced has determined the macroscopic fabric: where they abundant, the rock appears as dendroi

280 her viruses), antibacterial self-sterilizing fabrics (which kill antibiotic-resistant bacteria, inclu

281 asurements reveal a highly textured magnetic fabric, which we show to be robust and nonvolatile even

282 m acrylate monomers in the presence of woven fabrics, which generates soft composites with a strong i

283 for robotic closed-loop control of everyday fabrics while remaining lightweight and maintaining brea

284 However, the effects of folded anisotropic fabrics, widespread in orogenic settings, on the mechani

285 Nanostructured cellulose fabric with an air-bubble-enhanced anti-oil fouling prop

286 oneycomb weaving structure endows the F-TENG fabric with an excellent noise-reduction ability.

287 flexible all-textile airflow sensor based on fabric with in situ grown carbon nanotubes (CNTs) is dev

288 A nonwoven fabric with paperlike qualities composed of silicon nano

289 Compliance of that fabric with turgor pressure is an important aspect of mo

290 portantly, upon wisely configuring the smart fabrics with a scalable sensor network, localized proces

291 Fabrics with known hydrophobicity were additionally test

292 ty of dye classes were analyzed from various fabrics with little to no sample preparation allowing fo

293 ssemble into a variety of complex nanoscopic fabrics with predefined periodic and aperiodic patterns

294 are essential building blocks for functional fabrics with system level attributes.

295 Twenty four types of fabrics with varying constructions and surface finishes

296 thod has high sensitivity in differentiating fabrics with varying geometrical differences.

297 terized by an inherently granular electronic fabric, with spatial patterns that can span multiple len

298 ocrystalline coating of ReB(2) on the Kevlar fabric without incurring noticeable thermal damage of th

299 cts above that of permethrin-treated uniform fabric worn on the arm of the volunteer.

300 Here, we make the valid thermoelectric fabric woven out of thermoelectric fibers producing an u