ライフサイエンスコーパス: glass

1 um isotope ratios for Levantine and Egyptian glass.

2 creasing linearly with increasing amounts of glass.

3 s supported on a protein surface rather than glass.

4 physics, can be obtained through pinching a glass.

5 ustrated liquid and a dynamically frustrated glass.

6 f Hf isotopes in provenancing archaeological glass.

7 phases of matter: stable glass and marginal glass.

8 reases the adsorption of certain peptides to glass.

9 obe these phases of matter using a colloidal glass.

10 n using common substrates such as Silicon or glass.

11 to the relaxation, flow, and deformation of glasses.

12 to that of many ductile metallic and organic glasses.

13 artly explain reduced consumption from these glasses.

14 results in thermally and kinetically stable glasses.

15 ly less reddish immediately upon donning the glasses.

16 to traditional metallic, organic, and oxide glasses.

17 ar materials to those of thermally activated glasses.

18 idual amblyopia (no current treatment except glasses), 48 visually normal controls without glasses, a

19 cterize migration processes in the prototype glass, 75Li(2)S-25P(2)S(5).

20 residual amblyopia than for controls without glasses across all domains: Child PedEyeQ greatest mean

21 Evidence shows that glass acts as a "green" heterogeneous catalyst: it parti

22 For a typical PDMS-glass adhesion system, the apparent adhesion strength ca

23 ols without glasses, and 19 controls wearing glasses (aged 8-11 years) completed the Child 5-11 year

24 city breaking takes place in mean-field spin glasses aging dynamics which, asymptotically, takes plac

25 ally based constitutive descriptions for the glasses allowing design of safer, composite panels by co

26 homogeneous spherical microparticles of K411 glass and compared to certified ones.

27 bserved reaction kinetics for loss of THC on glass and cotton surfaces are consistent with a relative

28 two distinct glassy phases of matter: stable glass and marginal glass.

29 e tracer particle within a slowly densifying glass and measure the resulting mean squared displacemen

30 ated on a wide range of substrates including glass and plastic, further demonstrating the broad appli

31 s miniature size, biocompatibility of silica glass and reflector less set up.

32 t of IR absorption of nanothin PMMA films on glass and Silicon validates the robust capability of CL

33 The revival of glass and the development of a local glassmaking traditi

34 andem and leading to failure in borosilicate glass and Z-cut quartz.

35 pores in filtration membranes, to nanoporous glasses and carbon nanotubes.

36 hermodynamics of polyamorphic transitions in glasses and glass-forming liquids.

37 ntal role in the physics of glasses and spin glasses and in other applications (e.g., in algorithms m

38 nd play a fundamental role in the physics of glasses and spin glasses and in other applications (e.g.

39 rest as a distinct category of melt quenched glass, and have potential applications in areas such as

40 eaction byproduct of cement, iron and steel, glass, and oil production.

41 lasses), 48 visually normal controls without glasses, and 19 controls wearing glasses (aged 8-11 year

42 ding silicon, ceramic, metal and transparent glass-and show that the water repellency of the resultin

43 Periodic arrays of gold on glass are used to show that the overall signal in AFM-IR

44 Metallic glasses are expected to have quite tunable structures in

45 Glasses are promising electrolytes for use in solid-stat

46 f optical or electronic magnification in the glasses as well as smaller pixels in future implants may

47 con etched NEG cavities and alumino-silicate glass (ASG) windows and demonstrate the observation of a

48 ecisely dated (mid-eighth century to 818 CE) glass assemblage from the Rabad of Saqunda in Cordoba, c

49 ut freezing into an ordered magnet or a spin glass at low temperatures.

50 ht on the properties of vapor-deposited a-Se glasses at a range of substrate temperatures and deposit

51 strate in particular an implantable metallic glass-based fibre probe tested in vivo for a stable brai

52 s applied to immobilize the pectinase on the glass bead and the finding was compared with free enzyme

53 ed information on solute transport through a glass bead packing at different saturations.

54 m surface after enzyme immobilization on the glass bead, which seemed to be related to the polyaldehy

55 able stir disc that causes chaotic mixing of glass beads ("MagVor").

56 nt research is focused on the application of glass beads (GBs) in fixed biofilm reactor (FBR) for the

57 By using standard density glass beads for calibration, MagLev showed that the levi

58 atop an unsaturated porous-medium column of glass beads to assess: (i) the release of particulate pl

59 etwork of magnetic ions, giving rise to spin-glass behavior and an exchange bias.

60 substrate material is incorporated into the glass, being trapped inside.

61 rometry and image processing of a microarray glass biochip, affordable to be single-used in medical a

62 Furthermore, Si-containing bioactive glass biomaterials have positive effects on bone regener

63 ls is further investigated in a borosilicate glass-blown cuvette cell containing five NEG tablets.

64 ically viable optical coating by integrating glass bubbles within a polymer film.

65 ant, furnaces for producing colourless Roman glass by addition of manganese have been uncovered, wher

66 erent in measuring the long time behavior of glasses by instead focusing on the very short time dynam

67 -quenched zeolitic imidazole framework (ZIF) glasses can provide insights into their glass-formation

68 to create a gradient of a magnetic field, a glass capillary channel to retain the sample, and two si

69 This method consists of a glass capillary filled with the sample (solid or liquid)

70 Using a glass capillary microfluidic device as the printhead, we

71 tte needle is produced by combining a pulled glass capillary needle with a fused silica capillary.

72 ing and culturing individual single cells; a glass capillary-based microfluidic setup is used to extr

73 e microextraction device is placed in a 2 mL glass CE vial containing 550 muL of a donor solution.

74 rgy-efficient building applications, such as glass ceilings, rooftops, transparent decorations, and i

75 ls were cycled with a lithium-ion conducting glass-ceramic separator so that the species formed at ea

76 ent platelet concentrations at the wall of a glass chamber are measured using confocal microscopy wit

77 For achieving this, a microfluidic glass chip incorporating a monolithic separation column,

78 e in the liquid sample, placed on a low-cost glass chip, we cause deformations in a thin liquid layer

79 r integrating a thermostat with a re-useable glass-chip comprising a chaotic mixer, an incubation cha

80 d regarding Rutherford category (P=0.25) and GLASS classification (P=0.38).

81 es of a range of thiol-anhydride elastomers, glasses, composites and photopolymers are discussed.

82 these molecules can adsorb to the plastic or glass consumables used in the analysis.

83 These data imply that glasses containing complex anions, and in which covalent

84 Archaeological glass contains information about the movement of goods a

85 nsparent, mechanically robust, self-cleaning glass could help to negate the dust-contamination issue

86 s of 67 nm Au nanoparticles immobilized on a glass coverslip surface is analyzed by a Matlab code bef

87 ed on stiff (10 kPa) gels or collagen-coated glass coverslips, however, had broad morphologies, forme

88 A surface zone in the amorphous glass densifies before bulk fracture occurs and then fai

89 Compared to glasses deposited in the dark, stable a-Se glasses forme

90 Approximately 40% of AH glass display carbon-infused, siliceous plant imprints t

91 ace mobility is critical in producing stable glasses during physical vapor deposition.

92 luid dynamics techniques to: (i) accommodate glass eel burst-and-coast swimming mode and estimate the

93 guilla) in their juvenile, early life stage (glass eel), were conducted to provide new insights on th

94 st swimming mode was increasingly adopted by glass eel, especially when U was higher than 0.3 ms(-1).

95 eved for (238)U upon ablation of NIST SRM612 glass, effectively opening the way to pixel acquisition

96 sm for decreased consumption, straight-sided glasses elicited more 'pursed' lip embouchures, which ma

97 These glasses exhibit higher density, hardness, elastic modulu

98 as core-shell particles or inverse photonic glasses-explaining recent experimental findings reportin

99 It is now well established that glasses feature quasilocalized nonphononic excitations-c

100 Metal-organic framework glasses feature unique thermal, structural, and chemical

101 hnology, which immobilizes phytochemicals on glass fiber disks, reducing compound degradation, allowi

102 -labeled probe types in a biplexed NAAT in a glass fiber membrane; and (2) analyzing the differential

103 aporation-induced optical artifact in heated glass fiber pads due to changes in the refractive index.

104 The first capture layer consisted of a GF/D glass fiber substrate, preloaded with cancer specific an

105 erials (cellulose/polyethylene terephthalate/glass fiber, nontreated/chemically treated) as well as p

106 th high-performance synthetic fibers such as glass fibers and carbon fibers as well as to provide uni

107 mposite material consisting of discontinuous glass fibers in a polypropylene matrix is studied at the

108 ble approach for the fabrication of metallic glass fibres with nanoscale architectures based on their

109 resulted in deposition of spheroids and melt glass, followed by deposition of diamectite and carbonat

110 Eleven observers wore bright red glasses for five 1-hr periods per day, for 5 days.

111 etic structure and magnetization, as well as glass formation and irreversibility in Dy(2)Ti(2)O(7).

112 ing its energy to values that are typical of glass formation at a higher cooling rate) lowers its yie

113 ZIF) glasses can provide insights into their glass-formation mechanism.

114 o glasses deposited in the dark, stable a-Se glasses formed under white light have reduced thermal st

115 e transition in the dynamics of a structural glass former.

116 eutectic Pt(80-x) Cu (x) P(20) bulk metallic glass-forming alloys is reported where 14 < x < 27.

117 rystallites in pure Se and in binary AsSe(4) glass-forming liquids near their glass transition temper

118 s of polyamorphic transitions in glasses and glass-forming liquids.

119 ions remain unanswered about the dynamics of glass-forming materials confined to thin films.

120 Glass frogs are one example of terrestrial transparency

121 The production of this type of lead glass from Saqunda was short-lived and was subsequently

122 , some isolated imports of Islamic plant ash glasses from Mesopotamia, and, most notably, the develop

123 that are compositionally related to the lead glasses from Saqunda.

124 Hence, the fabricated champion device-1(c): Glass/FTO/c-TiO(2)/mp-TiO(2)/CH(3)NH(3)PbI(3-x)Cl(x)/EC-

125 g from frozen-in density fluctuations in the glass, fundamentally limits the minimum attenuation of t

126 The High Pressure Quenched glasses have a distinct structure and properties.

127 Metal-organic framework (MOF) glasses have become a subject of interest as a distinct

128 This crystal-glass high-entropy nanocomposite design concept provides

129 ing element is then closed using a cover FTO-glass, hold in place with a clip, connected to the posit

130 up to 130 GPa and 6,000 K along the MgSiO(3) glass Hugoniot).

131 Cavities were restored using glass-hybrid material (Equia Forte, GC).

132 The glass iMFP, fabricated using photolithography, wet etchi

133 tal evidence for the existence of a marginal glass in three dimensions.

134 m number theory applied to the study of spin glasses in physics that inspired early neural network th

135 tudies of the isolated molecules in a frozen glass, in combination with DFT/MRCI calculations, show t

136 rstanding of critical aspects of the ancient glass industry is fragmentary.

137 oxide paste, mineral trioxide aggregate, and glass ionomer resin, are used with mixed results.

138 arative dentin bridge formation, superior to glass-ionomer cement alone in vivo, in a rat molar pulpo

139 red Fe(48)Cr(15)Mo(14)Y(2)C(15)B(6) metallic glass is established by analyzing the crystal size distr

140 The glass is found to exhibit an anomalous brittle-to-ductil

141 In the Edict of Diocletian, this colourless glass is listed as "Alexandrian" referring to Egypt, but

142 rms of the parent temperature from which the glass is quenched.

143 erstanding the thermal stability of metallic glasses is critical to determining their safe temperatur

144 more mechanically pliant than the inorganic glass itself.

145 ust be packed in airtight containers such as glass jars, cans o metallic pouches with cover brine or

146 ion of 13% FWHM were obtained in the uniform glass light-guide module.

147 t iteration of such detectors uses a uniform glass light-guide to achieve depth encoding, resulting i

148 ight-guide (one 4-to-1 module with a uniform glass light-guide, one 4-to-1 Prism-PET module, and one

149 le the intermediate compounds exhibit a spin-glass-like ground state.

150 Crystalline solids exhibiting glass-like thermal conductivity have attracted substanti

151 e, we report the observation of ultralow and glass-like thermal conductivity in a hexagonal perovskit

152 Next, it behaves as a stable glass, marked by the appearance of a plateau in the MSD

153 ngs suggest that switching to straight-sided glasses may be one intervention contributing to the many

154 ith referrals made as needed for refraction (glasses measurement) and cataract surgery to CBBSH.

155 g frequent recalibration, wet storage of the glass membrane, difficulty in miniaturization, and inter

156 ating of diamond dicing blades with metallic glass (MG) coating to reduce chipping when used to cut S

157 High-entropy alloys (HEAs) and metallic glasses (MGs) are two material classes based on the mass

158 mors were measured using vibrating probe and glass microelectrodes, respectively.

159 In a first study, we incorporate a silicon-glass microfabricated ultra-high vacuum (UHV) cell with

160 demonstrate enhanced absorbance detection in glass microfluidic channels using a commercial microplat

161 onate reservoir pores, the inner channels of glass microfluidic devices were coated with thin layers

162 The glass microfluidic Y-system with planar immunocapture ch

163 astases who underwent radioembolization with glass microspheres were imaged with (90)Y PET/CT for vox

164 t-of-equilibrium dynamics of mean-field spin glass models has achieved a fundamental role, thanks to

165 acture toughness (K(Ic)) of a representative glass, namely ZIF-62 glass (Zn(C(3)H(3)N(2))(1.75)(C(7)H

166 re of a germanium doped phosphorous selenide glass of composition Ge(2.8)P(57.7)Se(39.5) is determine

167 Micro- and nanoscale metallic glasses offer exciting opportunities for both fundamenta

168 ent (+/-SD) of normally aerated lung, ground-glass opacification, and dense parenchymal opacification

169 mography images revealed cysts (76%), ground-glass opacities (73%), emphysema (49%), and reticulation

170 Predominant CT observations were ground-glass opacities (GGO) (59/70 lobes examined) and areas o

171 a percentage) and mean attenuation of ground glass opacities (GGO) and consolidation were quantified

172 percent (113/120) of the patients had ground-glass opacities (GGO).

173 The exudative phase would manifest as ground-glass opacities and consolidation, and the proliferative

174 rch 20, 2020 with fever, hypoxia, and ground-glass opacities on chest X-ray.

175 sence of nodules, consolidations, and ground-glass opacities was evaluated.

176 with positive RT-PCR and CT findings, ground-glass opacities were present in all 58 (100%), both mult

177 umonia in Rome, Italy, was peripheral ground-glass opacities with multilobe and posterior involvement

178 es, consolidations, cavitary lesions, ground-glass opacities, and miliary nodules.

179 characterized by bilateral symmetric ground-glass opacities, consolidation, and a lower lobe predomi

180 Chest radiographic findings included ground-glass opacity in 14 of 14 (100%) and consolidation in ei

181 CT findings included ground-glass opacity in 14 of 14 (100%), consolidation in nine

182 of patchy and/or confluent, bandlike ground-glass opacity or consolidation in a peripheral and mid t

183 hic features from HRCT scans included ground-glass opacity, consolidation, air bronchogram, nodular o

184 Tree-in-bud, ground-glass-opacity, bronchiectasis, cicatricial emphysema, an

185 as a flat absorber on the top of a low iron glass or aluminium-based substrate (5 x 5 cm(2)) connect

186 Disordered systems like liquids, gels, glasses, or granular materials are not only ubiquitous i

187 The proportion of patients never requiring glasses overall was superior for TFNT00 versus SN60AT (8

188 (P < .0001), and trouble seeing when wearing glasses (P < .0001).

189 he behavior of crystalline materials, in the glass paddlewheel dynamics contribute to Lithium-ion mob

190 A similar phenomenon is observed when glass particles are added to levitated droplets, where l

191 two orders of magnitude upon the addition of glass particles with the rate increasing linearly with i

192 control), a chlorinated polypropylene-coated glass Petri dish (control) and a series of the tannin-fu

193 An empty glass Petri dish (control), a chlorinated polypropylene-

194 e tannin-functionalized polypropylene coated glass Petri dishes overlaid with linseed oil were expose

195 d obtained excellent agreement compared to a glass pH electrode.

196 Glass pH probes are the gold standard for pH measurement

197 n from the photonic paramagnetic to photonic glass phase is more subtle in that the Parisi overlap fu

198 ich is relevant for various key questions in glass physics, can be obtained through pinching a glass.

199 SICM is a nanometer-scale electrolyte filled glass pipette that serves as a scanning probe.

200 e hydrogel to a range of surfaces, including glass, plastic, wood, poly(tetrafluoroethylene) (PTFE),

201 ace microlayer of aquatic environments using glass plate dipping holds promise as a simple field meth

202 We tested a standard glass plate dipping method to assess recovery of four co

203 ay of 200 droplets of nanoliter volumes on a glass plate, each containing approximately 500 cells.

204 er MOF nanosheets, amorphous MOF liquids and glasses, polymers, metal nanoparticles, metal carbide na

205 The replica theory of glasses predicts that in the infinite dimensional mean f

206 L BD polypropylene syringes or more recently glass prefilled syringes, 48.5% of eyes receiving aflibe

207 These molecular glasses produced physically translucent and amorphous fe

208 le (SD, based on 3 measurement sessions) for glass reference materials and micrometeorites, respectiv

209 reported in literature for MPI-DING and USGS glass reference materials.

210 of the desirable antimony-decolourised Roman glass remains an enigma.

211 is similar to that famously used to rotate a glass rod on the surface of a liquid crystal by syntheti

212 insurmountable attenuation limit set by the glass's scattering, but requires reduction of all the ot

213 Studies on other metallic glass samples with different compositions also show simi

214 Chest X-ray showed diffuse ground-glass shadows in both lungs.

215 The first section was transferred onto a glass slide to perform immunohistochemistry with H&E cou

216 are subsequently isolated and attached to a glass slide, after which a laminar flow of lysis buffer

217 NA samples are then deposited on a multiwell glass slide, and analyzed by a conventional slide scanne

218 lated from the particle suspension by a thin glass slide.

219 , using either magnetic beads or gold-coated glass slides decorated with cortisol antibodies as the c

220 Glass slides have been widely used for DNA immobilizatio

221 th one device replacing the equivalent of 10 glass slides of embryos mounted manually, our microfluid

222 Samples deposited on glass slides were directly sent for analyses; for other

223 ed on various objects, including microscopic glass slides, a table, a mug, etc.

224 son with that in a conventional method using glass slides.

225 (d(MP)) and with increasing diameter of the glass spheres (d(GS)).

226 The glass spheres were considered as an analogy for natural

227 The glass sponge Aphrocallistes vastus contributes to the fo

228 l evidence of an existence of a single-chain glass state in conjugated polymers.

229 henomena, such as chiral magnon and skyrmion glass states.

230 n bodies contain radiopaque material (metal, glass, stone, and some plastics).

231 the widely used assumption that the silicate glasses studies are appropriate structural analogs for u

232 a Fluorine-doped Tin Oxide (FTO) conductive glass substrate - connected to the negative pole side of

233 r, consists of two gold microelectrodes on a glass substrate embedded in a PDMS microfluidic channel,

234 d fluorescence of trace API over any polymer/glass substrate has better signal to background ratio (S

235 l layer and a low index waveguide layer on a glass substrate.

236 nd ratio compared to a common epoxy-modified glass substrate.

237 constituted HDL formulations are oriented on glass substrates and solid-state (31) P NMR spectroscopy

238 tes modified with an organic monolayer or on glass substrates covered with a transparent conductive o

239 of quartz, chromferide, and magnetite in AH glass suggest exposure to minimum temperatures of 1720 d

240 The fractional coverage of the glass surface by particles could be determined directly

241 ming Escherichia coli near and parallel to a glass surface imaged at high magnification (x100) and hi

242 0.6 mum x 130 nm ) morphology in a Au-coated glass target and carbon-coated silica wafer was characte

243 olor vision after only a few days of wearing glasses that boost color contrasts, potentially because

244 Cu content alloys are definitive examples of glasses that exhibit first-order melting.

245 e plane microscope (OPM) that uses a bespoke glass-tipped tertiary objective to improve the resolutio

246 act]) OR Spectacles [Title/Abstract]) OR Eye Glasses [Title/Abstract])) AND ((((Child [Title/Abstract

247 example, we recrystallize thin CdTe films on glass to deposit large grains with low defect density.

248 and hail, we must understand the response of glass to impact.

249 wide-ranging technologies, from windows and glasses to cameras, digital displays and photonic device

250 in Hf isotopes of Egyptian versus Levantine glasses to sorting of zircons in Nile sediments during l

251 rospray ionization interface consisting of a glass transfer capillary followed by a dual ion funnel.

252 able LCE (xLCE) with tunable properties, low glass transition (-30 degrees C), controllable nematic t

253 he rubbery plateau after softening above the glass transition (T(g) ), both T(g) and the characterist

254 aller particles (50 and 150 nm) show a lower glass transition (T(g)) and thermal decomposition temper

255 f polyethylene terephthalate (PET) which has glass transition and melting temperatures of 76 and 250

256 ndent onset, including the broadening of the glass transition and the homogenization of surface and b

257 ural relaxation and crystallization near the glass transition are a major experimental challenge.

258 However, in the case of the glass transition concept, the determined values of water

259 The entropy drop for this first-order liquid/glass transition is approximately two-thirds of the entr

260 n Microscopy revealed that MCF decreased the glass transition of PLA allowing for a decrease in cell

261 scaling law for molecular dynamics near the glass transition provides a sensitive tool to detect the

262 A covalent adaptable network (CAN) with high glass transition temperature (T(g) ), superior mechanica

263 The glass transition temperature (T(g)) is a key property th

264 nd storage conditions on crystallisation and glass transition temperature (T(g)) of three Chilean dri

265 perature and RH during storage decreased the glass transition temperature (T(g)) to <0 degrees C and

266 a thermoplastic polymer is sprayed below its glass transition temperature (T(g)) to investigate the S

267 ed anthracene, which reduces the modulus and glass transition temperature and allows the elastomers t

268 on as well as combinations of features, like glass transition temperature and hydrophobicity, to clas

269 redict the influence of particle size on the glass transition temperature and viscosity of secondary

270 The glass transition temperature decreased due to QF additio

271 decreasing the pH led to the decrease of the glass transition temperature of camel and bovine whey po

272 osition, the water sorption isotherm and the glass transition temperature of camel and bovine whey pr

273 he crosslinking points increases modulus and glass transition temperature of the elastomers, allowing

274 anes against deformation above the polymers' glass transition temperature, enabling the formation of

275 tinguishable from the conventionally defined glass transition temperature, T (g) For x < 17, the obse

276 g: water uptake, mass loss, dry and hydrated glass transition temperature, to help understand the rel

277 ary AsSe(4) glass-forming liquids near their glass transition temperature.

278 ally translucent and amorphous features with glass transition temperatures in the range of 61-77 degr

279 Glass transition temperatures, alpha-relaxation temperat

280 n and the homogenization of surface and bulk glass transition temperatures.

281 riments exhibiting anomalous behavior in the glass transition upon reducing film thickness below a ma

282 to amorphous polymers, including a prominent glass transition, elevated moduli, and low activation en

283 or, reaching an equilibrated state above the glass transition.

284 ecreases, resulting in an increasingly sharp glass transition.

285 escribing physicochemical phenomena near the glass transition.

286 rties such as tensile strength, modulus, and glass transition.

287 ependence on density or temperature near the glass transition.

288 An electronic circuit keeps the glass tube vibrating at its resonance frequency, which i

289 id using a vibrating tube sensor, a piece of glass tubing bent into a tuning-fork shape and filled wi

290 During Roman times, distinct glass types produced in coastal regions of Egypt and the

291 h pixels convert images projected from video glasses using near-infrared light into electric current

292 irectly detected short-range disorder in ZIF glasses using ultrahigh-field zinc-67 solid-state nuclea

293 f variable thickness coated on the inside of glass vials.

294 is spark plasma sintered iron based metallic glass was established to be from pre-existing nuclei as

295 on eye tracking and dedicated full occlusion glasses, was developed to provide a fast, objective, and

296 ions, with the realization that a magnifying glass will be be needed for appropriate visualization.

297 hod yields well-ordered and uniform metallic glasses with controllable feature sizes down to a few te

298 in association with relict quartz and silica glass within inclusions surrounded by a froth layer.

299 uld now be as pointless as searching for the glasses you are wearing.

300 c)) of a representative glass, namely ZIF-62 glass (Zn(C(3)H(3)N(2))(1.75)(C(7)H(5)N(2))(0.25)), is m