ライフサイエンスコーパス: transparent

1 n the eye, the cornea needs to be strong and transparent.

2 methods to clean and filter the data are not transparent.

3 xed readout chemistries, and makes specimens transparent.

4 This cocoon rapidly becomes transparent(9) and is outshone by the supernova emission

5 that PLA does not absorb small molecules, is transparent (92% transparency), and has low autofluoresc

6 s and science that they can be more open and transparent about the limits of human knowledge.

7 ng from photoacoustic imaging transducers to transparent actuators for haptic applications(1-7).

8 ring processes-with strong, stretchable, and transparent adhesion.

9 ing easily understood, we present simple and transparent algebraic equations that capture the essenti

10 The host mimic is transparent, allowing high-resolution imaging of the fee

11 Transparent and accurate reporting is vital to this proc

12 burrowing ability, here we use the optically transparent and biocompatible Pluronic F-127 gel that tr

13 This transparent and body-attachable device is also capable o

14 Transparent and clear communication is crucial, coupled

15 tively reimagine utilization management as a transparent and collaborative system.

16 ines should be designed to make decisions in transparent and comprehensible ways, which can be achiev

17 emical vapor deposition is used to fabricate transparent and conformal wrap-around p-type contacts on

18 Here, we propose a transparent and efficient framework to, for the first ti

19 A transparent and electroactive plasticized polyvinyl chlo

20 d future patients and (2) how to establish a transparent and ethical process for subject recruitment

21 candidate material platform for high-speed, transparent and flexible electronics(6-9).

22 The Axin mutant larvae are transparent and have severe adipocyte defects caused by

23 ost importantly, these coated films are also transparent and mechanically robust, making them suitabl

24 zymatic glucose/oxygen biofuel cell based on transparent and nanostructured conducting supports.

25 In the search for highly transparent and non-toxic alternative front layers repla

26 as slowly but steadily been modified in both transparent and opaque ways.

27 signed to render intestinal tissue optically transparent and preserve the spatial integrity of infect

28 Here, we identify obstacles hindering transparent and reproducible AI research as faced by McK

29 Access to analytical code is essential for transparent and reproducible research.

30 , that provides a monitoring tool to produce transparent and stand-alone estimates on the level, stru

31 We present a recommendation for transparent and structured reporting of ML analysis resu

32 ld be made to increase adherence and promote transparent and unbiased presentation of study results.

33 e National Burden Estimates (NBE) to provide transparent and understandable disease burdens at the na

34 We propose a transparent and universal machine method for estimating

35 Here we present a robust, transparent and updateable method for analysing how thes

36 stributed as an open-source model to offer a transparent and useable windstorm damage model to a broa

37 Here, various transparent and white cellulose-based materials produced

38 at their institutional promotion process was transparent and women Full Professors were significantly

39 perform analysis in an intuitive, efficient, transparent, and collaborative way.

40 Here, a lightweight, flexible, transparent, and conductive bilayer composite of polyeth

41 elihood ratio test derived here is a direct, transparent, and easily implemented method for detecting

42 xide (ITO) electrode as a highly conductive, transparent, and electrocatalytically active electrode m

43 es offered by FABIO provide a comprehensive, transparent, and flexible structure for organizing data

44 More than ever, valid, transparent, and intuitive summaries of the treatment ef

45 tics can provide a basis for the systematic, transparent, and objective organization of mechanistic e

46 Our study provides a systematic, transparent, and quantitative summary of the literature

47 rmation and the best practices for accurate, transparent, and reproducible experimentation and report

48 onpandemic research should be proportionate, transparent, and revisited as the pandemic abates.

49 d version of PRELIM offers users a reliable, transparent, and streamlined tool for estimating the eff

50 But these associations are not transparent, and the relative importance of these and ot

51 requested to produce accurate, predictable, transparent, and up-to-date estimates that could be used

52 A transparent antimicrobial surface coating was applied to

53 A transparent antimicrobial surface coating was applied to

54 PROBAST enables a focused and transparent approach to assessing the ROB and applicabil

55 spectrum, where biological tissues are most transparent: as a result, upon radiance amplification in

56 rustworthy research is robust, rigorous, and transparent at all stages of design, execution, and repo

57 otin molecules were absent, the solution was transparent because biotin-GNPs bound to Ab-MBs which we

58 f 6 um diameter x 5.2 um height each, with a transparent bottom surface for optical observations, a p

59 while the subjects were freely flying within transparent cages two meters from the optical system; a

60 A conductive transparent cantilever electrically contacts individual

61 uring a 48-h period using recently developed transparent carbon ultramicroelectrode arrays (T-CUAs).

62 ) makes it possible to visualize even highly transparent cells and measure some of their internal pro

63 transparent conductive oxide (TCO) layer on transparent cellulose nanofibril (CNF) papers.

64 A transparent change has been the creation of the Nobel Pr

65 e Nobel Prize program to move from opaque to transparent change processes for the next generations of

66 menting incredible certitude and calling for transparent communication of uncertainty.

67 on, we highlight the importance of clear and transparent communication, comprehensive preparation, ap

68 e medical research community broadly through transparent communications of our activities and initiat

69 ion and perform an extensive, systematic and transparent comparison of models with explicit age and/o

70 tanium carbide (Ti(3) C(2) ) MXene film with transparent conducting electrode (TCE) properties, inclu

71 On the glass side of the front transparent conducting electrode, we use a transparent l

72 Transparent conducting electrodes play a fundamental rol

73 itting devices by considering dielectric and transparent conducting layers, this structure is directl

74 Although several transparent conducting materials such as carbon nanotube

75 multilayered thin film structure made out of transparent conducting oxide (aluminum doped zinc oxide)

76 facial charge recombination occurring at the transparent conducting oxide (TCO)/perovskite interface,

77 a) and an exemplary Schottky junction to top transparent conducting oxide electrode.

78 s, replacing metal electrodes with carbon or transparent conducting oxides, and packaging.

79 odels for predicting the formation energy of transparent conducting oxides.

80 ) process for high-throughput fabrication of transparent conducting surfaces on dielectric substrates

81 Because of a high-quality transparent conductive electrode film of indium tin oxid

82 er, thermal and electrical insulation films, transparent conductive films, materials for energy stora

83 his 3D ITO nanowire network can be used as a transparent conductive layer for optoelectronic devices

84 erature atomic layer deposition (ALD) as the transparent conductive oxide (TCO) layer on transparent

85 olayer or on glass substrates covered with a transparent conductive oxide (TCO).

86 tances within the electric double layer of a transparent conductive oxide as a function of the Gibbs

87 The class of transparent conductive oxides includes the material indi

88 nversion and other applications that utilize transparent conductive oxides to accept or deliver elect

89 al (PDLC) intermediate layer, and a flexible transparent conductive substrate.

90 f example, the focus is on the production of transparent conductive thin films, which exhibit a wide

91 n oxide (ITO) is one of the most widely used transparent conductors in optoelectronic device applicat

92 The development of clearer and more transparent conflict of interest policies and procedures

93 Colorless and highly transparent copolymers of poly(monothiocarbonate) were s

94 onic inflammation, a cell-fate switch from a transparent corneal epithelium to a keratinized, stratif

95 We adapted standard transparent cranial windows normally used for intravital

96 g nonpandemic research should use objective, transparent criteria considering several aspects of the

97 carbon black and Au nanorods, into a highly transparent curable polymer.

98 e quality of care for these patients through transparent data sharing and collaborative learning betw

99 lications, such as glass ceilings, rooftops, transparent decorations, and indoor panels.

100 onic conductors have enabled stretchable and transparent devices, but liquids in such devices tend to

101 nanoscale light confinement (<lambda/20) in transparent dielectric materials is shown experimentally

102 onfinement below the diffraction limit using transparent dielectric metamaterials.

103 mprehensive intraoperative data analysis and transparent disclosure have been advocated to better und

104 ating at 90 degrees C for 2 min resulting in transparent dispersions.

105 Such optically rewritable transparent display devices enabled by light-driven chir

106 Transparent display devices have been fabricated using b

107 ck larvae in situ, in the North Sea, using a transparent drifting chamber.

108 omposed of dark-field light microscopy and a transparent electrochemical cell to reveal the dynamics

109 uitous and expensive Sn doped In(2)O(3) as a transparent electrode in optoelectronic devices.

110 cation via low-temperature methods; flexible transparent electrode materials developed to enhance the

111 Metal nanowire (MNW)-based transparent electrode technologies have significantly ma

112 oble metal-based electrodes are excluded and transparent electrodes and optimized MEAs are required.

113 en to be an ideal candidate material used as transparent electrodes and substrate for epitaxial growt

114 Flexible transparent electrodes are in significant demand in appl

115 ctronics will require highly stretchable and transparent electrodes, many of which consist of a relat

116 tors for light generation and conductors for transparent electrodes, respectively.

117 technology and the development of flexible, transparent electrodes, the use of multilayer thin-films

118 materials include n-type semiconductors and transparent electrodes, with potential for novel energy

119 ng junction-free metal nanonetworks (NNs) as transparent electrodes.

120 8%) is fabricated on PEDOT-free and ITO-free transparent electrodes.

121 luding sensors, semiconductors, and flexible transparent electrodes.

122 rated great interest for use in flexible and transparent electronic devices.

123 Here, we take advantage of a transparent embryonic zebrafish xenograft model (eZXM) t

124 guidance has been instrumental in promoting transparent evaluation of new interventions.

125 beyond the performance of the commonly used transparent ferroelectric crystal LiNbO(3).

126 ectric domain engineering, and we expect the transparent ferroelectric crystals reported here to prov

127 ir target applications, namely: solar cells, transparent film heaters, sensors, and displays.

128 These transparent films are potentially excellent candidates f

129 Transparent films made of cellulose nanofibers are repor

130 tary oxide thin film transistors technology, transparent flexible circuits and optoelectronic applica

131 ers, we successfully fabricated anisotropic, transparent, flexible, and stable (ATFS) NW films with g

132 Depositing a ZnO-based transparent front contact, however, results in extremely

133 Imaging of the small, transparent fry is unparalleled among vertebrate organis

134 Here, highly conductive and transparent Ga doped ZnO thin films were grown via aeros

135 ed to manufacture a microfluidic device from transparent glass substrates.

136 trates-including silicon, ceramic, metal and transparent glass-and show that the water repellency of

137 I, 1,000-1,700 nm), where tissues are highly transparent, have expanded the applicability of fluoresc

138 ganization (WHO) Guidelines for Accurate and Transparent Health Estimates Reporting (GATHER), publish

139 We applied the Guidelines for Accurate and Transparent Health Estimates Reporting and used Bayesian

140 o process the SCT films and directly pattern transparent heaters on an arbitrary substrate.

141 er at the microscale and then transferred to transparent hemispherical domes with different curvature

142 Herein, a unique strategy of "transparent hole-transporting frameworks" is proposed.

143 sive patch, made of an ionically crosslinked transparent hydrogel, that accommodates the cyclic defor

144 We demonstrate monolithic transparent hydrogels, produced in minutes, comprising e

145 partial pressure while they remain optically transparent, i.e., optical gap energies > 3.6 eV.

146 uct of electricity generation from urine was transparent in colour and reached pH>13 with high ionic

147 of binary CdTe and CdSe are mixed, which are transparent in optical absorption.

148 Ge (n)F (n) inorganic cages are found to be transparent in the UV-visible region as probed with thei

149 In this context, we used optical transparent indium tin oxide (ITO) as electrode material

150 l robotics, as soft materials allow safe and transparent interactions between the users and devices.

151 ar hybrid devices with a well-controlled and transparent interface between the superconductor and the

152 l Majorana fermions in samples with a highly transparent interface.

153 e NBE method quantifies disease burden using transparent, intuitive, and reproducible methods.

154 posite hydrogels as a soft, stretchable, and transparent ionic conductor with transmittance of 98.8%

155 all decisions about list composition must be transparent, (iv) the governance of validated lists of s

156 As transparent Joule heaters, even without optimization, th

157 , we examine trikingdom interactions using a transparent juvenile zebrafish to model mucosal lung inf

158 for the development of more informative and transparent labelling that will ultimately improve manag

159 t transparent conducting electrode, we use a transparent lead-absorbing molecular film containing pho

160 s and watches, but also used as an optically transparent low electrically-resistive contract in the p

161 pavilion in Singapore that used an infrared-transparent, low-density polyethylene membrane to provid

162 icant challenges in building trustworthy and transparent machine learning models.

163 We present a concept of a transparent magnetic metasurface to solve this problem,

164 d out-of-plane tractions on nominally planar transparent materials using standard epifluorescence mic

165 e report a simple approach to fabricate bulk transparent materials with a nacre-like architecture tha

166 onger than those previously demonstrated for transparent materials.

167 We suggest that this transparent, mechanically robust, self-cleaning glass co

168 are opaque to most forms of radiation, while transparent media do not provide field-relevant growing

169 interaction and reveal unambiguously that in transparent media, pulse front tilt gives rise to the di

170 feeble magneto-birefringence in conventional transparent media.

171 s work, inexpensive manufacturing of unibody transparent mesofluidic platforms for pressure-driven La

172 Scalable and transparent methods for risk assessment are increasingly

173 and highly autofluorescent tissues of intact transparent mice.

174 ence in densities of cells for separation in transparent microfluidic channels and implements label-f

175 ing blocks" for reconfigurable and optically transparent microwave surfaces and absorbers have been d

176 tion of free-standing, permeable, and highly transparent MMMs which showed enormous potential and sen

177 illustrate the validity of the approach in a transparent model of co-evolutionary ecosystems and show

178 As an optically transparent model organism with an endothelial blood-bra

179 -sensing CCW (usCCW) featuring an integrated transparent nanophotonic ultrasonic detector fabricated

180 ltiplexed sensing and imaging in the "tissue-transparent" near-infrared region.

181 The development of conductive transparent networks (CTNs) composed of metallic silver

182 ederal DRI committees, developed an open and transparent nomination process for prioritizing nutrient

183 The transparent ocular lens plays a crucial role in vision b

184 ith panretinal hypoperfusion courtesy of the transparent ocular media and the pattern of macular neur

185 short wavelengths, in combination with a UV-transparent optical setup, allows for lateral resolution

186 to be promising candidates for flexible and transparent optoelectronics applications due to their di

187 A major challenge in the design of LWIR-transparent organic materials is that nearly all organic

188 method can be applied to other optically/IR-transparent organisms, and opens the door to high-resolu

189 ore, the theoretical limits of PCE for fully transparent OSCs, compared to the performance of the bes

190 And by combining a transparent p-AlGaN contact layer, an electron blocking

191 modularity in detecting the best (physically transparent) partitions in those systems.

192 of PBAT, we irradiated blown, nonstabilized, transparent PBAT films and studied their enzymatic hydro

193 The demonstrated transparent photodetector concept opens up promising pla

194 Building-integrated photovoltaics employing transparent photovoltaic cells on window panes provide a

195 Transparent physical models of complex porous structures

196 Transparent piezoelectrics are highly desirable for nume

197 mm Prussian Blue, PB, cathode printed over a transparent poly(3,4-ethylenedioxythiophene) polystyrene

198 2019;10;1500) introduces See-Shell, a transparent polymer skull that reveals the entire dorsal

199 lantation, large craniotomies for implanting transparent polymer skulls for cortex-wide imaging acces

200 gitally designed, morphologically realistic, transparent polymer skulls that allow long-term (>300 da

201 Highly hydrophilic but water-insoluble transparent polymers with a range of ion exchange capaci

202 ile keeping flexural strengths comparable to transparent polymers, silica- and soda-lime glasses.

203 is an order of magnitude higher than that of transparent polymers.

204 uips neuroscientists with an easy-to-use and transparent preprocessing workflow, which can help ensur

205 Lack of transparent pricing tools was a barrier, and considerati

206 pose creation of a shared, standardized, and transparent process for coverage decisions that minimize

207 Using a methodologically rigorous and transparent process for evaluating health care quality m

208 ce and harmonization across many sites; 2) a transparent process for selecting from among many potent

209 Implementation requires efficient and transparent procurement and repair systems to ensure ade

210 sts and manage conflicts in a manner that is transparent, proportional, and consistent.

211 This transparent quenchable amorphous diamond has, to our kno

212 is typically immobile, non-customizable, non-transparent regarding the characteristics of output puls

213 There was a general lack of transparent reporting and identification of bias across

214 Although the TRIPOD (Transparent Reporting of a multivariable prediction mode

215 dditional best practices can be found in the Transparent Reporting of a multivariable prediction mode

216 el Risk of Bias Assessment Tool) and TRIPOD (Transparent Reporting of a Multivariable Prediction Mode

217 idelines will lead to a less biased and more transparent reporting of research findings.

218 ease the effectiveness, reproducibility, and transparent reporting of research.

219 updated, listing 30 items deemed crucial for transparent reporting of studies, thereby allowing the c

220 xtracellular vesicle (EV) biology needs more transparent reporting to facilitate interpretation and r

221 by promoting the use and value of evidence, transparent reporting, self-correction, replication, a c

222 Reproducible science requires transparent reporting.

223 principles: responsible research practices; transparent reporting; open science (open research); val

224 with the ideals of open science by making it transparent, reproducible, immediate, versioned, collabo

225 imize confusion in the field and create more transparent research reporting RCF values in future stud

226 ide responsible, reliable, reproducible, and transparent results across the data science life cycle.

227 nicians, an efficient process for developing transparent, rigorous product recommendations that inclu

228 A micrometer thick transparent robust coating is formed by material assembl

229 They enable a more transparent, robust, and secure use of model outputs.

230 Analysis of entire transparent rodent bodies after clearing could provide h

231 o-dimensional "fingerprint" identities of UV transparent saccharides were revealed by photofragmentat

232 ight to visualize the 3D morphology of large transparent samples.

233 WPEDs are mostly transparent, self-adhesive, breathable, flexible, moistu

234 study, we investigated the performance of a transparent, self-assembling peptide gel (SPG-178) and i

235 A transparent, self-healing, highly stretchable ionic cond

236 .2%), nevus demonstrated dense and partially transparent shadow, respectively.

237 microfabricated analysis cell based on an IR-transparent Si membrane with advantages of a robust desi

238 his synergy, structures comprising optically transparent silicon oxide, tens of micrometers-wide and

239 sing massively parallel optical readout with transparent silicon-on-insulator cavity chips vs. electr

240 rning occur for the transmission of visually transparent skills such as tool use, foraging, and cooki

241 Minimal validation and limited access to transparent software platforms have also exacerbated the

242 We have developed transparent soil and optical projection tomography micro

243 the study of soil processes, we constructed transparent soil microcosms that enable the visualizatio

244 Nafion and the crystal cryolite as optically transparent soil substrates.

245 We describe here a "transparent soil" formed by the spherification of hydrog

246 n-source OPT system capable of imaging large transparent specimens up to 13 mm tall and 8 mm deep wit

247 nitial translucent state to an instantaneous transparent state.

248 tical states, including light-scattering and transparent states as well as color reflection in respon

249 coating both of its surfaces with a circular transparent stretchable conductor, surrounded by a stret

250 were fabricated containing (i) an optically transparent structure for fluorescence detection, (ii) e

251 rs this challenge by supporting an optically transparent submicroliter organic-phase film in a microp

252 weaving straight rectangular electrodes on a transparent substrate (a matrix).

253 ray of metallic subwavelength nanowires on a transparent substrate, fabricated by using low-cost nano

254 tems as simple as water drops condensed on a transparent substrate.

255 tor concept opens up promising platforms for transparent substrates as the base for opto-electronic d

256 in fabrication, GaP thin films deposited on transparent substrates have never been exploited.

257 able dimensions, and fabricated on optically transparent substrates that enable singe-molecule detect

258 previous studies is typically lower than the transparent substrates the electrode structures are buil

259 imperceptible to the human eye directly onto transparent substrates.

260 The transparent superhydrophobic film showed transparency of

261 rious durability tests were performed on the transparent superhydrophobic film, showing a constant wa

262 is study, a novel strategy to achieve highly transparent superhydrophobic glass surfaces using AACVD

263 A method for the preparation of transparent superhydrophobic silica coatings on glass su

264 EPSPs was site-specifically immobilized on a transparent surface utilizing the self-assembling proper

265 and the thickness of the highly mineralized transparent surface zone on arrested lesions can be meas

266 P-OCT) during lesion dehydration to identify transparent surface zones indicative of arrested lesions

267 esions in this study had distinct areas with transparent surface zones that were visible in CP-OCT im

268 lously large magneto-birefringence effect in transparent suspensions of magnetic two-dimensional crys

269 k the movement of structures, visible in the transparent tail, which correlate with sarcomere length.

270 WER), GLABRA3 (GL3)/ENHANCER OF GLABRA3, and TRANSPARENT TESTA GLABRA1.

271 rabidopsis chi mutant restores the seed coat transparent testa phenotype and the accumulation of flav

272 ocyanin accumulation, but did not rescue the transparent testa phenotype, confirming that CsGSTF1 did

273 Essential for pigment accumulation is TRANSPARENT TESTA19 (TT19), a glutathione S-transferase

274 By simply spin-coating transparent Ti(3) C(2) -based MXene electrodes from aque

275 The cornea is a normally transparent tissue necessary for visual acuity located i

276 ans, but are applicable to other systems and transparent tissue where a precise micron-resolution dis

277 In contrast, a dielectric is transparent to electromagnetic waves.

278 se technologies, devices are preferred to be transparent to form an optical interface between a viewe

279 arrays of metallic nanoparticles can be more transparent to infrared radiation than dielectrics such

280 the majority of the x-rays while it is more transparent to the higher energy gamma photons.

281 ires investment in accessible, scalable, and transparent tools that integrate the expertise of the wh

282 The most abundant colors were white and transparent/translucent (47%), yellow and brown (26%), a

283 ations or scarce resources follow a just and transparent triage system, and 3) providers are protecte

284 in 1991, a renewed emphasis on methodology, transparent trial design and study reporting has helped

285 with a multilayered structure, comprising a transparent triboelectrification top layer, a SiO(2) -sp

286 Transparent, ultradrawn, ultrahigh molecular weight poly

287 cently, making it possible to render tissues transparent using different approaches.

288 al transparency and are well known for their transparent ventral skin through which their bones, inte

289 ared to only 35 days when stored under clear transparent vial.

290 of handling value and modeling choices in a transparent way when quantifying GHG emissions and setti

291 ique (PACT), which renders tissues optically transparent, we analyzed intact stomachs from mice infec

292 Employing this method, entirely flexible, transparent, well-defined self-activated graphene sensor

293 arent paradox: the potential barrier becomes transparent when its height is larger than the electron

294 nsition metal carbides, known as MXenes, are transparent when the samples are thin enough.

295 electrical impedance (TEEI) measurements and transparent windows for optical monitoring within a dual

296 In both cases, the lids contain transparent windows through which reactions can be visua

297 Here, we demonstrate highly stretchable transparent wireless electronics composed of Ag nanofibe

298 ~20 Omega/sq sheet resistance, (b) optically transparent with ~70% transmittance within visible spect

299 e, we demonstrate a novel scalable aesthetic transparent wood (called aesthetic wood hereafter) with

300 Here, we used transparent zebrafish larvae, a powerful animal model fo