ライフサイエンスコーパス: microscale

1 esigned representative volume element at the microscale.

2 r provide a mechanism to control heat on the microscale.

3 dex lenses that guide and focus light on the microscale.

4 nctionalities of semiconductors at the nano-/microscale.

5 )), and phosphorus ((31)P(16)O(2)(-)) at the microscale.

6 tive contactless probe of the mechanics on a microscale.

7 p thermal contours from the nanoscale to the microscale.

8 sented to detect biological particles in the microscale.

9 ring, biology, and chemistry research at the microscale.

10 ields rules for particle manipulation at the microscale.

11 three electrode electrochemical cell to the microscale.

12 speed and high-efficiency separations on the microscale.

13 s-linked and entangled actin networks at the microscale.

14 easuring particle size from the nano- to the microscale.

15 ues have limited resolution of micro- or sub-microscale.

16 ve storage and display of information at the microscale.

17 mation from the molecular level to meso- and microscale.

18 characterization techniques in the nano- and microscale.

19 fine structure spectroscopy at the nano- to microscale.

20 sfer have focused primarily on the nano- and microscales.

21 archically organizes the liquid and solid at microscales.

22 r descriptions of phenomena at the nano- and microscales.

23 combined in smart architectures on nano- and microscales.

24 effect that becomes appreciable only at the microscales.

25 hat is cut off once the pinnacle tip reaches microscales.

26 l challenge for engineering at the nano- and microscales [1, 2].

27 This microscale (14)C analysis technique is a powerful method

28 the spiders' scales have 2D nanogratings on microscale 3D convex surfaces with at least twice the re

29 Microscale 3D printing of nt-Cu is demonstrated with hig

30 han five grams) aerial robots(3-6) use rigid microscale actuators, which are typically fragile under

31 ered flight of an insect-sized flapping-wing microscale aerial vehicle.

32 as catalytic centers for a previously unseen microscale aggregation phenomenon.

33 production of astrocyte proteins may support microscale alterations of adjacent synapses.

34 on chip that monolithically integrates 4,096 microscale amplifiers, configurable into pseudocurrent-c

35 adaptable to multiwell plate technology and microscale analysis.

36 r, these findings demonstrate a link between microscale and macroscale architecture, intrinsic dynami

37 ensional pancreatic islet structures in both microscale and microfluidic systems.

38 Tooth enamel comprises parallel microscale and nanoscale ceramic columns or prisms inter

39 The well mixed molybdenum oxides at the microscale and the involvement of both mechanisms are co

40 ng allows for selective removal of SS at the microscale and the microfabrication of a 5 x 5 array of

41 first fabricated on a planar Si wafer at the microscale and then transferred to transparent hemispher

42 ruct the in vitro neuronal culture networks (microscale) and neuronal culture cluster networks (mesos

43 senting material reshaping at the nanoscale, microscale, and macroscale.

44 ctionality through a hierarchy of molecular, microscale, and mesoscale structures and ordering.

45 mics and properties of biphasic flows at the microscale, and on the development of systems for practi

46 features such as tubules and lamellae at the microscale; and structure and morphology optimization at

47 These fiber interactions lead to microscale anisotropy, as well as increased material sti

48 ns are governed by both macroscale shape and microscale architecture, DCMs can be engineered with the

49 for organizing and controlling matter at the microscale are beginning to take hold, suggesting new mo

50 RIM dressing film is composed of alternative microscale arrangement of heat-responsive hydrogel regio

51 rays of nanoparticles (patches) grouped into microscale arrays-can support multiple band-edge modes c

52 ion, and structural control on the nano- and microscale associated with the application of soft compo

53 s of neuronal populations are shaped by both microscale attributes and macroscale connectome architec

54 delines for X-ray fluorescence microscopy of microscale biological samples.

55 id interface, whereas the relatively smaller microscale bubbles induce a backpressure underneath the

56 e structure-property correlation not only at microscale but also at mesoscale for COFs, this research

57 ology - the T-maze - and implement it at the microscale by using microfluidics to expose bacteria to

58 in both living and nonviable systems at the microscale can be achieved.

59 a group of interfaced gold nanoparticles and microscale carbon particles, reducing pulse duration fro

60 , the nature of the dynamic coupling between microscale cell and ECM mechanics remains poorly underst

61 ls are mechanically tractable, and that, for microscale cell assemblages of encapsulated marrow strom

62 s used to evaluate effects of collagenase on microscale changes to the collagen fibers and embedded n

63 through a mechanism that leads to efficient microscale chaotic mixing.

64 nsional flow in porous structures govern the microscale chemical gradients controlling these processe

65 vated neuronal MMP-1 (p < 0.001), suggesting microscale collagen degradation mediates sensitivity in

66 Here, we introduced a microscale collection device, the Micro-funnel, fabricat

67 y minimum interaction and weak diffusion for microscale colloids.

68 when each individual RBC squeezes through a microscale constriction (cross-section 5micromx5microm).

69 Here, we report the use of a microscale continuous projection printing method (muCPP)

70 ore the local strain state and morphology of microscale crystals.

71 for the bulk single crystals and 12% for the microscale crystals.

72 Label-free metabolic imaging and microscale culture technologies enable monitoring of sin

73 Microscale damages to membranes used in large-scale filt

74 These results highlight the potential of new microscale design and fabrication techniques for realizi

75 Our studies, conducted in a microscale device, represent an important step towards e

76 Developments in microscale devices and bioprinted 3D tissues are beginni

77 This paves the way to fabricating microscale devices for a variety of technological applic

78 rements of single-crystal and bicrystal gold microscale devices.

79 mas are low-temperature plasmas that feature microscale dimensions and a unique high-energy-density a

80 tallic surfaces, we observe in situ nano- to microscale dissolution and pit formation (qualitatively

81 ents in chromatographic peak broadening with microscale distributions of surface interaction mechanis

82 sults indicate that bacterial utilization of microscale DMSP hotspots is an important determinant of

83 This HALF-IMS chip contains a microscale drift cell where spatially varying electric f

84 In contrast, elastomers embedded with microscale droplets exhibit similar improvements in perm

85 ways to mimic the essence of these nano- and microscale dynamic molecular processes by noncovalent sy

86 To date, microscale dynamics of the oil-water-membrane system are

87 The polymer matrix serves as a microscale elastic connector for the rigid and brittle p

88 phy technique that produces images of tissue microscale elasticity, for detecting tumor within 1 mm o

89 ia of colloidal objects, and provide a novel microscale engineering approach to inducing higher-order

90 ydrodynamic processes, we recast traditional microscale equilibrium and nonequilibrium statistical me

91 scale (ca. 100 nm) dimensions, as opposed to microscale examples that are prevalent.

92 of process streams from laboratory-scale and microscale experiments on the same chemical system can p

93 ding behavior are identified and tested with microscale experiments.

94 th dendritic and axonal connections form the microscale fabric of brain circuitry, and macroscale bra

95 experimentation, we describe the macro- and microscale features that accompany CPV's evolutionary su

96 patterning electronic-grade silicon with 3D microscale features.

97 when placed into contact while maintaining a microscale fibrous architecture.

98 Despite its importance, microscale flow control remains highly limited by the us

99 believe that the ability to create tailored microscale flow using solid-state actuation will open th

100 ices owing to the typically linear nature of microscale flows, which has hampered the development of

101 At the apex, microscale fluid dynamics and nanoscale channel dynamics

102 This ELISA is enabled by a novel microscale fluid manipulation method, composable microfl

103 isolation with ideal characteristics over a microscale footprint - simultaneously incorporating larg

104 importance of characterizing samples on the microscale for heterogeneities that would otherwise be o

105 eir biocompatibility and ability to generate microscale force gradients.

106 thermophoresis as powerful sensing method in microscale format for a wide range of applications, augm

107 stigate and characterize precipitates on the microscale formed by MICP starting from single ureolytic

108 ow interactions at the nanoscale manifest in microscale functionality.

109 ld yield an extended plateau similar to some microscale gas breakdown experimental observations.

110 Important issues include microscale geometry of neural probes, design of implanta

111 hopper-produced brochosomes-soccer ball-like microscale granules with nanoscale indentations.

112 sics of surface structures interactions with microscale heat and mass transfer events involved in the

113 CP and an array of individually addressable microscale heaters for active local ET stirring.

114 Microscale helical diamond architectures are formed by c

115 w which regional variation vanished and only microscale heterogeneity remained (~7 mm(3) ).

116 volved chemotactic strategies to exploit the microscale heterogeneity that frequently characterizes m

117 The use of microscale high-throughput experimentation was essential

118 The strategy described herein was enabled in microscale high-throughput experiments to allow for the

119 ion; >35 nM for cleavage), characteristic of microscale hotspots such as the vicinity of phytoplankto

120 ial control over their shape and size at the microscale, however that currently is not possible due t

121 xisting techniques to encapsulate cells into microscale hydrogels generally yield high polymer-to-cel

122 ween rHBeAg and HBeAg, we used these Fabs in microscale immunoaffinity chromatography to purify HBeAg

123 Here, we present a microscale implantable device - the nanoclip - for chron

124 In addition, using a microscale implementable device to deliver either siRNAs

125 rated for (i) colloids ranging from nano- to microscale; in two field-based granular media of contras

126 sional (3D) anisotropic SRR functioning as a microscale inclinometer enabling it to remotely sense ro

127 ubdermal magnetic coil antennas connected to microscale, injectable light-emitting diodes (LEDs), wit

128 exible microfluidic probes, pumping systems, microscale inorganic LEDs, wireless-control electronics,

129 optical stimulation interface that exploits microscale inorganic light-emitting diodes to activate o

130 e models, we present the first evidence that microscale instrumented implants provide a route for pos

131 olouration is straightforward to generate at microscale interfaces, so we expect that the design prin

132 allic materials commonly possess substantial microscale internal stresses that manifest as intergranu

133 In nature, cells self-assemble at the microscale into complex functional configurations.

134 The ability to move fluids at the microscale is at the core of many scientific and technol

135 ue to determine the height topography at the microscale is detailed in this work with an application

136 Here, we report microscale isotopic heterogeneity observed in different

137 Here, a system of self-propelled microscale Janus particles is engineered to have contact

138 esive properties of cells that relies on the microscale juxtaposition of two extracellular matrix-coa

139 unction as high-quality optical feedback for microscale lasers and nanolasers.

140 cterizing tissue biomechanical properties at microscale level and its translational potential into cl

141 tion of dose irradiated in the testes at the microscale level is of clinical importance for deliverin

142 ng was required for the investigation at the microscale level of the nature and distribution of Zn so

143 mechanistic corrosion investigations at the microscale level using aqueous solutions that are prone

144 ation of synchrotron X-ray microbeams at the microscale level.

145 tures and known galvanic interactions at the microscale level.

146 the sediments hosting those contaminants at microscale limit our ability to design nanoremediation p

147 HC-PCF) that guides light at the center of a microscale liquid channel and acts as an optofluidic mic

148 ed capabilities in analysis of nanoscale and microscale magnetic samples and devices.

149 is the cell, high-throughput methods for the microscale manipulation of cells and reagents are limite

150 conditions, as well as fundamental limits to microscale mass transfer and interfacial exosome binding

151 The nanopatterns promote microscale mass transfer, increase surface area and prob

152 tudies, low-volume chemical diagnostics, and microscale material syntheses.

153 ulatory payloads into tissues and cells, ii) microscale materials can facilitate cell-mediated transp

154 The development of programmable microscale materials with cell-like functions, dynamics

155 l diversity among individual myocytes at the microscale may contribute to bulk relaxation of the myoc

156 The combination of protein self-assembly and microscale mechanical constraints is used to form orient

157 nd reveals dynamical scaling behavior in the microscale mechanical responses of both cells and ECM.

158 rosslinking motifs have little impact on the microscale mechanics and mobility.

159 Skin-targeting microscale medical devices are becoming popular for ther

160 , curvature and confinement for 3D nano- and microscale membrane systems such as lipid droplets and l

161 gap by integrating capillary microsampling, microscale metabolite extraction, and capillary electrop

162 Data reveal nano- and microscale metallurgy-related, gilding-related and corro

163 how these microcosms can yield insights into microscale microbial activities.

164 ics device provides unique insights into the microscale microbial ecology of the complex root microen

165 Arrays of nanoscale (nanoIDE) and microscale (microIDE) electrode-arrays were fabricated o

166 Microscale mid-infrared (mid-IR) imaging spectroscopy is

167 btain high-resolution experimental images of microscale mixing patterns in three-dimensional porous m

168 the nature and functional contributions of "microscale" mixing to the dynamic operations of the micr

169 at includes the main chemical reactions: the microscale model represents a single fiber cross-section

170 Microfluidic lumen-based systems are microscale models that recapitulate the anatomy and phys

171 rophages at single-cell resolution within 3D microscale models.

172 atomic force microscopy and found to produce microscale motion in response to modest illumination, wi

173 ark of eukaryotes is the ability to generate microscale movements from the molecular to the tissue-le

174 ctural sensitivity to deformation, including microscale muscle filament overlap and filament lattice

175 scale (fMRI, LFP, population spiking) to the microscale, namely, V (m) fluctuations.

176 m that on a conventional planar surface with microscale/nanoscale textures.

177 of a de novo synthetic signaling pathway in microscale nested vesicles.

178 function can often be observed as changes in microscale neuroanatomy.

179 Global Microscale Nodal Strength (GMNS) was introduced to estim

180 3D printing of layer-by-layer and complex 3D microscale nt-Cu structures, which may find applications

181 Immobilization of compartmentalized microscale objects in 3D hydrogels provides a step towar

182 owever, this assumption is often invalid for microscale objects, since the motion of these objects is

183 s smart liquid dispersions comprising motile microscale objects.

184 d Safe Routes to School initiatives, and the microscale of design interventions and placemaking such

185 e we show how chemotactic signalling between microscale oil droplets of different chemistries in mice

186 he pellet that had not been fully exposed by microscale or bulk mass spectrometry analyses.

187 highly charged polysaccharide, fucoidan, the microscale ordering of Fmoc-FRGDF peptide fibrils and su

188 Here we introduce a microscale organotypic model of the human bronchiole for

189 introduced to achieve robust self-folding of microscale origami by separating actuation into two disc

190 principles into glass-based materials at the microscale, our approach opens a promising new avenue fo

191 We herein report the conventional and microscale parallel synthesis of selective inhibitors of

192 diverse library of compounds prepared using microscale parallel synthesis.

193 ferentiation systematically using an arrayed microscale platform.

194 A method of microscale pressure measurement based on immiscible flui

195 Microscale processes are critically important to soil ec

196 The behavior and microscale processes associated with freely suspended or

197 ason for this is that key physics, including microscale processes at the air-sea interface, are poorl

198 using tissue-sparing specimen processing and microscaled proteomics.

199 A newly developed microscale protocol for profiling serum O-glycans has be

200 es that ranges from uniform nano-, meso- and microscale puncta (distinct protein droplets) to multila

201 FFE) is a straightforward, suitable tool for microscale purification of reaction mixtures.

202 latform for capturing CTCs, the Si nanowires/microscale pyramids (NWs/MPs) hierarchical substrate, wh

203 The pH of microscale reaction environments controls numerous physi

204 lications, including short processing times, microscale reaction volumes, and the potential for low c

205 Screening a library of microscale reactions and selected resynthesized compound

206 drogen production from the core of the algal microscale reactor, and demonstrate that enhanced levels

207 and laser dewetting could be used to target microscale regions of conventionally-patterned electroni

208 shes the mechanistic connections between the microscale residual stresses and mechanical behaviour of

209 further report that heat treatment relieves microscale residual stresses, thereby reducing the tensi

210 r microscopy: how to measure single cells at microscale resolution, while allowing them to freely mov

211 re mesoscale structures to be assembled with microscale resolution.

212 scale and ecologically relevant phenomena at microscale resolution.

213 of bone, nervous tissue, and vasculature at microscale resolutions without exogenous contrast agents

214 alysis and crystalline phases mapping at the microscale revealed the composition and microstructure o

215 on the macroscale from the coupling between microscale rotation and translation of individual active

216 ) at 6.29 MHz, limited by surface TED due to microscale roughness along the disk sidewalls.

217 mers have recently demonstrated controllable microscale roughness, ease of operation, fast response,

218 the AD mouse brain using the Single-probe, a microscale sampling and ionization device, coupled to a

219 Micro-funnel device were then extracted by a microscale sampling and ionization device, the Single-pr

220 ars play important roles as the platform for microscale sensing and actuation.

221 ) at kilohertz to megahertz frequencies in a microscale silicon-chip-based sensor with >120 dB dynami

222 tailed chemical and physical investigations, microscale single-crystal fiber field-effect transistors

223 n, and detailed cross-sectional study of the microscale soft noble metal objects has been hindered by

224 se to a range of stimuli are of interest for microscale soft robotic and biomedical devices.

225 ology that could benefit from uncovering sub-microscale sources of chemical modifications.

226 We describe a method whereby microscale spatial information such as the relative posi

227 inciple is exploited to create a new type of microscale stepper motor that can readily switch between

228 d fluorescence microscopy to apply nonlinear microscale strains to entangled and cross-linked actin n

229 Microscale structural changes were correlated with macro

230 robust and damage-tolerant, by mimicking the microscale structure of crystalline materials-such as gr

231 e surface is important when foulants and the microscale structure show a similar size, and otherwise

232 hate (TBP) in dodecane was the focus of this microscale study and was compared to an earlier laborato

233 ll shape is a robust mechanism through which microscale swimmers can achieve highly directional swimm

234 statistical mechanics for dense, interacting microscale systems into self-consistent, macroscale form

235 lar signalling networks requires organotypic microscale systems that facilitate the culture, conditio

236 By leveraging microscale techniques, the model is designed to approxim

237 gy, bioimaging, microsurgery procedures, and microscale technologies have made minimally invasive the

238 Significant advances in materials, microscale technology, and stem cell biology have enable

239 orted for any other macroscale carbon films; microscale tensile tests yield maximum values of 290 GPa

240 of historical gilt silver threads, nano- and microscale textural, chemical, and structural data on cr

241 ing and quantifying plastic particles at the microscale, the small microplastics (SMP, 25-1000 mum).

242 Microscale thermophoresis (MST) binding studies validate

243 MR), Isothermal Titration Calorimetry (ITC), Microscale Thermophoresis (MST), and Electrophoretic Mob

244 glycans and low molecular weight heparins by microscale thermophoresis and analyzed acceleration of p

245 resonance, isothermal titration calorimetry, microscale thermophoresis and bio-layer interferometry.

246 of molecular modeling, crosslinking studies, microscale thermophoresis and cell-based assays that sup

247 Microscale thermophoresis and heteronuclear single-quant

248 ry and secondary binding separately, whereas microscale thermophoresis and Trp fluorescence represent

249 Here, we report a quantitative microscale thermophoresis assay capable of deciphering f

250 (++) were then analyzed in thermal shift and microscale thermophoresis assays.

251 Microscale thermophoresis elaborated PIP(2) interactions

252 gh WaterLOGSY nuclear magnetic resonance and microscale thermophoresis for the identification and cha

253 A combined analysis of binding by means of microscale thermophoresis measurements and statistical m

254 ving circular dichroism melting experiments, microscale thermophoresis measurements, NMR titrations,

255 ry (ITC), tryptophan (Trp) fluorescence, and microscale thermophoresis measurements.

256 EC-MALS), SPR-based biophysical analyses and microscale thermophoresis of the dimerization domain dis

257 screening followed by 16-point screening on microscale thermophoresis resulted in the identification

258 Anaerobic microscale thermophoresis results indicate that proteins

259 hZalphaADAR1), as confirmed by CD, NMR, and microscale thermophoresis studies.

260 These interactions were further confirmed by Microscale Thermophoresis that also indicated a preferen

261 ombination of X-ray crystallography, NMR and Microscale Thermophoresis to show that phosphite binding

262 Here we used far-Western blot analysis and microscale thermophoresis to show that the AQP2 binds LI

263 rified and used in neutralization assays and microscale thermophoresis to show that the glycans on ch

264 Using microscale thermophoresis we explored the interaction be

265 ough an integrated biophysics approach using microscale thermophoresis, analytical ultracentrifugatio

266 enesis, fluorimetric and biochemical assays, microscale thermophoresis, and total internal reflection

267 Measurements using microscale thermophoresis, fluorescence anisotropy and s

268 144, was found to bind to RAS proteins using microscale thermophoresis, nuclear magnetic resonance sp

269 itro and in planta, including kinase assays, microscale thermophoresis, size exclusion chromatography

270 Using MicroScale thermophoresis, we quantified the interaction

271 Using quantitative microscale thermophoresis, we show that M1 (A213) exhibi

272 had 20-fold lower affinity as determined by microscale thermophoresis.

273 ucidates the mean-field type interactions in microscale-thick CrI(3).

274 Here, the preparation of microscale thin-film gold bicrystals, using rapid melt g

275 scale (through silk conformational changes), microscale (through patterning), and macroscale (through

276 ogeneity of individual macrophages within 3D microscale TME models.

277 sotope maps reveal U ratio variations in sub-microscale to >=1 mum areas of the pellet that had not b

278 plasma, and other materials over scales from microscale to celestial.

279 aging approach to study seed coatings at the microscale to link chemical and physical properties resp

280 te the scalability of the photocatalyst from microscale to macroscale production in meeting the targe

281 nterior structure and outer shell across the microscale to nanoscale.

282 ng of gas breakdown and electron emission at microscale to optimize performance.

283 om the following sliding resisted by various microscale toughening mechanisms.

284 icroresonators confine light to a particular microscale trajectory, are exquisitely sensitive to thei

285 ndicate an important role of second sound in microscale transient heat transport in two-dimensional a

286 Microscale tribological properties were assessed using m

287 me extraction process can be followed on the microscale using spectroscopic methods adapted for micro

288 onsive hydrogel particles, from the nano- to microscale, using a single starting material.

289 Living tissues, heterogeneous at the microscale, usually scatter light.

290 CMX-4 fuel pellet fragments showed distinct microscale variations in the uranium isotopic compositio

291 her gray versus white matter contrast and to microscale visualization of deep medullary vasculature a

292 Extraction distributions measured on the microscale were compared favorably with those determined

293 , indicated that the mature skeletons at the microscale were space-filling, comparable to single crys

294 the alignment of carbon fiber bundles in the microscale which we predict will ultimately lead to the

295 s coated with flexible carbon nanotube (CNT) microscales with anisotropic drop adhesion properties ar

296 votal technique for the investigation of the microscale world, from information storage to the monito

297 Guided by microscale X-ray CT, nanoscale X-ray CT is used to inves

298 le zones with shears of opposite senses, and microscale zones with high volumetric and shear strains.

299 rong spatial correlation is observed between microscale zones with large positive and negative volume

300 ge positive and negative volumetric strains, microscale zones with shears of opposite senses, and mic