ライフサイエンスコーパス: microscale

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

2 nsor opens new modalities for sensing on the microscale.

3 ermal processing for material joining at the microscale.

4 may present a clear blue reflectance at the microscale.

5 rgely uniform compositions from nanoscale to microscale.

6 rsibly sequester nanoscale inclusions at the microscale.

7 oparticle dispersions to control flow at the microscale.

8 compositional and property gradients at the microscale.

9 ctures that, in turn, are supercoiled at the microscale.

10 to create structures from the macro- to the microscale.

11 d either nonhollow, hollow, or spongy on the microscale.

12 ields rules for particle manipulation at the microscale.

13 lead to compositional inhomogeneities at the microscale.

14 iable, continuous cell culture monitoring in microscale.

15 mall surface roughness, and grain size up to microscale.

16 nd optimization of native LC-MS methods at a microscale.

17 three electrode electrochemical cell to the microscale.

18 speed and high-efficiency separations on the microscale.

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

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

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

22 ierarchically-organized membrane domains and microscale 2-D array patterns of domains.

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

24 Specifically, computational modelling and microscale 3D printing are combined to investigate the m

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

26 extended to other applications that require microscale actuation with sophisticated spatiotemporal c

27 emonstrates the parallel fabrication of many microscale actuators and is amenable to further scale-up

28 ition from hydrophilic nanoscale reagents to microscale aggregates in response to temperature stimuli

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

30 ganization layer to the cell membrane at the microscale and establish a novel mechanism of extracellu

31 damental studies of artificial growth at the microscale and for emulsion-related applications.

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

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

34 hysics change upon going from macroscales to microscales and nanoscales, which are characterized by l

35 the classic models of solidification at the microscale, and demonstrate suppression of constitutiona

36 Stem cells respond to nanoscale, microscale, and macroscale cues, such as matrix, growth

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

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

39 a practical transport and delivery tool for microscale applications, especially those in complex or

40 the matrix proteins to pellicle morphology, microscale architecture, and mechanical properties.

41 ng and patterning materials at the nano- and microscales are finding increased use as a medium of art

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

43 neural connectivity reported on the cellular microscale as well as the global macroscale level of bra

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

45 ng in the fabrication of coplanar macro- and microscale BDD electrodes, insulated by insulating diamo

46 s of efficient biomarker recognition and the microscale benefits of rapid magnetic separation.

47 Here we report a microscale, biohybrid swimmer enabled by a unique fabric

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

49 Thus, 3D microscale biomaterials represent a promising platform f

50 The capacity to serve as microscale bioreactors is established by demonstrating a

51 an approach to assembling microsystems with microscale building blocks of four disparate classes of

52 ttractive approach to metal detection on the microscale, but traditional carbon, gold, or platinum el

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

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

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

56 We have developed a microscale cell-based assay that responds to complex pro

57 ncy (alpha), which therefore is able to link microscale cell-surface properties with macroscale bacte

58 neers Von Economo and Koskinas (1925) on the microscale cellular structure of the human cortex with d

59 interconnected anode is composed of aligned microscale channels separated by SnO2-coated Cu walls an

60 those who might benefit most from expedited, microscale chemistry.

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

62 Quantitative microscale compositional mapping, combined with chlorite

63 X-ray microscale computed tomography and 3D reconstruction of

64 ith the singular exception of the C. elegans microscale connectome, there are no complete connectivit

65 Microscale connectomics involves the large-scale acquisi

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

67 gineered using a rapid 3D printing platform: microscale continuous -optical printing (muCOP).

68 e organization of the macaque connectome and microscale cortical neuronal architecture.

69 gly capitalize on novel materials to achieve microscale coupling with the nervous system.

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

71 Here we introduce a class of microscale culture platforms to analyse chemical diversi

72 rr and contained the ionization source and a microscale cylindrical ion trap (CIT) mass analyzer.

73 Our findings suggest that aspects of microscale cytoarchitectonics and macroscale connectomic

74 Microscale damages to membranes used in large-scale filt

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 inguished as a contactless energy source for microscale devices as it can be directed from remote dis

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

79 ive hydrogels as sensing components in novel microscale devices.

80 The microscale dimensions significantly reduce cell consumpt

81 sheets into resilient and movable parts with microscale dimensions.

82 oscale cues promoted migration in all cases, microscale directed migration cues are dominant as the g

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

84 Afterward, the microscale dose distribution was computed using a dose d

85 gic model to compute the liver NTCP from the microscale dose distribution.

86 Microscale dosimetry was assessed in the realistic liver

87 was evaluated using alpha-camera images, and microscale dosimetry was modeled.

88 importance of long-term toxicity studies and microscale dosimetry.

89 nique for simple and precise manipulation of microscale droplets of fluid.

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

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

92 30.0 kW kg(-1) highlights the potential for microscale energy generation.

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

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

95 an optofluidic single-particle technique for microscale equilibrium solubility determination, based o

96 tion of phosphonoacetates utilizing parallel microscale experimentation.

97 ding behavior are identified and tested with microscale experiments.

98 We discuss a variety of "microscale" factors and their role in determining "macro

99 n-based amplification (PBA) with a series of microscale features containing a decreasing surface dens

100 In this work, biphasic microscale flows are used to measure interfacial tension

101 slating fast and precise macroscale flows to microscale flows using a monolithically integrated perfo

102 ys microfabrication of living tissues within microscale fluid channels to create constructs that clos

103 ective and biocompatible way to create rapid microscale fluid motion and induce particle capture, tho

104 plied a.c. electric field can initiate rapid microscale fluid motion and particle transport with a ve

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

106 ge absorption of 91% at 400-2,500 nm and the microscale funnel structures lead to average reflection

107 etallic nanoscale gaps (0-200 nm) as well as microscale funnel structures.

108 Here, we propose a microscale gasometric assay using silicone oil as matrix

109 mimetic platform that allows perturbation of microscale geometric constraints with concomitant nanosc

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

111 irectly generate acoustic body forces on the microscale have traditionally been difficult to generate

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

113 Microscale helical diamond architectures are formed by c

114 al cells and adipose-derived stem cells in a microscale hexagonal architecture.

115 report the generation of intense, localized microscale hot spots in solid composites during mild ult

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

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

118 Investigations of microscale impact have hitherto been limited to post-mor

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

120 ematic studies of cerium geochemistry at the microscale in paleontological contexts, in particular ac

121 e spectroscopic information at the nano- and microscale in soil colloids.

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

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

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

125 monstrated technologies based on injectable, microscale inorganic light-emitting diodes (mu-ILEDs) wi

126 In this study we connect for the first time microscale insulin signaling activity with macroscale gl

127 usive goal of predicting the consequences of microscale interactions in the ocean.

128 large samples, we also developed a macro-to-microscale interface called preconcentration using liqui

129 Arrays of microscale interfaces between two immiscible electrolyte

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

131 Nondestructive microscale investigation of objects is an invaluable too

132 , OCME has the potential to identify, on the microscale, involved regions of fresh, unstained tissue.

133 lenges, we introduce a method for performing microscale IP using magnetic particles and digital micro

134 rstanding and controlling fluids flow at the microscale is a matter of growing scientific and technol

135 mponents into complex functional patterns at microscale is common in nature, and used increasingly in

136 ntrolled dynamics of fluids and particles at microscales is a fascinating area of research with appli

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 Microscale kidney dosimetry based on alpha-camera images

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

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

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

143 describe a novel high-density silicon-based microscale light-emitting diode (muLED) array, consistin

144 mework and technical approach to implement a microscale magnetic immunoassay through modulating local

145 Here, we describe an in vitro system called microscale, magnetically-actuated synthetic tissues (mic

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

147 ic masking of isotope effects as a result of microscale mass transfer limitation at microbial membran

148 udy investigated the effect of intracellular microscale mass transfer on microbial carbon isotope fra

149 iew recent strategies that combine nano- and microscale materials and devices to produce large improv

150 The historical uses of nano-/microscale materials and imaging techniques in arts and

151 amically reconfigurable template to assemble microscale materials into ordered, symmetric structures

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

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

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

155 tructure elucidation of 6 was aided by a new microscale methylation procedure.

156 overview, we discuss recent achievements in microscale MFCs as well as their potential applications.

157 Instead, microscale MFCs have received increasing attention as a

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

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

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

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

162 f spatially varying index and absorption for microscale mode transformation is new to researchers in

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

164 tivity, the current results demonstrate that microscale molecular imaging in vivo is already feasible

165 We demonstrate the feasibility of microscale molecular imaging using hyperpolarized proton

166 le domain structure and assembly, leading to microscale morphologies that show improved photocatalyti

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

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

169 However, approaches based on microscale, nanoscale or molecular-scale textures suffer

170 The chip-based and microscale nature of microring resonators also make it a

171 vations that jointly suggest that a region's microscale neuronal architecture is tuned to its role in

172 esents evidence that regional disruptions in microscale neuronal connectivity in schizophrenia go han

173 3D printing of layer-by-layer and complex 3D microscale nt-Cu structures, which may find applications

174 s been hindered by the inability to levitate microscale objects and by the toxicity of metal salts pr

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

176 Network hubs have also been described at the microscale of brain connectivity (so-called "hub neurons

177 form for all-optical processing, sensing and microscale optoelectronic devices.

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

179 fusion system that allows cells to sense the microscale organization of the extracellular environment

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

181 Self-folding microscale origami patterns are demonstrated in polymer

182 past decade have demonstrated that nano- and microscale particles can be organized into a large diver

183 y during the carbon coating process, whereas microscale particles display a direct visualization of s

184 label-free real-time imaging and analysis of microscale particles in flow offers robustness for pract

185 xtremely inefficient transport mechanism for microscale particles.

186 We investigate formation of nano- to microscale peptide fibers and sheets where assembly requ

187 Large planetary seedlings, comets, microscale pharmaceuticals, and nanoscale soot particles

188 iological membranes than lipid mixtures with microscale phase separation.

189 uctor nanowires are of interest in nano- and microscale photonic and electronic applications.

190 ferentiation systematically using an arrayed microscale platform.

191 formed using glass membranes perforated with microscale pores by laser ablation.

192 demonstrated that the polyimide coating with microscale pores loses the confinement effects and fails

193 water-based nanoparticle dispersions through microscale porous media are investigated through twelve

194 The microscale precipitates are homogeneously distributed in

195 and form a stable aqueous dispersion of many microscale prismatic 270 degrees annular sectors, and we

196 Microscale processes occurring at biogeochemical interfa

197 Here, we engineered microscale progenitor cardiac spheres from human pluripo

198 urfaces at velocities faster than most other microscale propulsion schemes.

199 rmally requires extensive sample preparation microscale protocols including time-consuming steps like

200 Non-mechanical nano- and microscale pumps that function without the aid of an ext

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

202 ion between macroscale degree and metrics of microscale pyramidal complexity.

203 ral parameters that are most critical in the microscale radiosynthesis, such as the reaction time, re

204 esis technologies combined with a high-yield microscale radiosynthetic method.

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

206 A microscale reconstitution baking test, using wheat flour

207 Propulsion at the microscale requires unique strategies such as the undula

208 re mesoscale structures to be assembled with microscale resolution.

209 two-dimensional images with high contrast at microscale resolutions.

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

211 is dynamically tuned at the nanoscale using microscale ring confinement through the interplay of ela

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

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

214 Microscale screening platforms enable minimizing the num

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

216 Specifically, we develop microscale sensors (25 mum diameter) for two representat

217 endritic gold nanostructures, we demonstrate microscale sensors with improved performance by increasi

218 rometry (CE-MS) represents a high efficiency microscale separation platform for untargeted profiling

219 uronal complexity of cortical regions at the microscale, showing (among several effects) a positive o

220 We used a packed bed of microscale silica beads to filter M. smegmatis out of th

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

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

223 Microscale soft-robots hold great promise as safe handle

224 strategy involves printing-based stacking of microscale solar cells, sol-gel processes for interlayer

225 with a microfluidic chamber, we implemented microscale sonication for both shearing chromatin/DNA an

226 characterization methods are invasive, lack microscale spatial resolution, and are tailored only for

227 nsion of applicability of recently developed microscale spatially offset Raman spectroscopy (SORS), m

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

229 ns utilize silk's well-defined nano- through microscale structural hierarchy, stimuli-responsive self

230 The bottom-up fabrication of nano- and microscale structures from primary building blocks (mole

231 ling affirms that reinforcement with defined microscale structures is applicable to numerous hydrogel

232 ed for kirigami, allowing us to build robust microscale structures with tunable mechanical properties

233 small molecules is presented that form nano/microscale supramolecular 2D materials in aqueous media.

234 ns of many plants and animals have intricate microscale surface features that give rise to properties

235 int scalable and well-defined suspended nano/microscale SWCNT networks on 3D patterned flexible subst

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

237 ar scale closely resembles that reported for microscale systems and appears to be independent of swim

238 ide an innovative strategy for the design of microscale systems capable of continuous and directional

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

240 etabolism, highlighting the potential use of microscale systems to unlock unknown or cryptic secondar

241 the development of new autonomous nano- and microscale systems.

242 In this study we combined bulk- and microscale techniques to determine Cu speciation and dis

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

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

245 eaction-diffusion processes at the nano- and microscales that we find hold particular promise for a n

246 the fact that the sensor was constructed at microscale, the method can be generalized for high throu

247 Microscale thermogravimetric analysis is used to determi

248 tz crystal microbalance (QCM) method we call microscale thermogravimetric analysis, or mu-TGA, the na

249 Furthermore, we demonstrate that microscale thermophoresis (MST) is a valuable method for

250 ance with dissipation monitoring (QCM-D) and microscale thermophoresis (MST) we have been able to det

251 ing (muCP), surface plasmon resonance (SPR), microscale thermophoresis (MST), and theoretical models

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

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

254 tified direct binding of PDIA1 to VWF, using microscale thermophoresis and fluorescence correlation s

255 D = 236 +/- 66 nM and KD = 282 +/- 123 nM by microscale thermophoresis and fluorescence correlation s

256 Kinetic analyses combined with microscale thermophoresis and surface plasmon resonance

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

258 characterize A46 biochemically, determine by microscale thermophoresis binding constants for the inte

259 mediates this process, in agreement with the microscale thermophoresis data.

260 in-fragment complementation assays (PCA) and microscale thermophoresis in parallel to show that PREP

261 Circular dichroism together with microscale thermophoresis indicate that each receptor is

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

263 Anaerobic microscale thermophoresis results indicate that proteins

264 PCA and microscale thermophoresis studies showed that aSyn inter

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

266 We measured by microscale thermophoresis that YjeQ and Era binds to the

267 We used microscale thermophoresis to directly determine dissocia

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

269 validation of binding affinity to C3d, using microscale thermophoresis, and for their suitability to

270 Co-immunoprecipitation, microscale thermophoresis, and solid phase assays proved

271 144, was found to bind to RAS proteins using microscale thermophoresis, nuclear magnetic resonance sp

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

273 ding of ML364 to USP2 was demonstrated using microscale thermophoresis.

274 literature and in control experiments using microscale thermophoresis.

275 conductance, surface plasmon resonance, and microscale thermophoresis.

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

277 We studied HCV exposure in Egypt at a microscale through spatial mapping and epidemiological d

278 ling the Life Cycle Inventory of vehicles at microscale through the concept of agents.

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

280 on span several orders of magnitude from the microscale to the macroscale.

281 macroscales, can be extended to the ocean's microscale to understand how the rich spatiotemporal str

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

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

284 nd active matter, or building propellers for microscale transport.

285 Microscale tribological properties were assessed using m

286 e brick-and-mortar stacking of platelets and microscale twisting of the fibres--gives rise to high st

287 e derives from a network of nearly isotropic microscale unit cells with high structural connectivity

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

289 Analyses were undertaken at macro- and microscales, using multiple techniques including X-ray t

290 ution imaging technique that is sensitive to microscale variations of the mechanical properties of ti

291 ers in their social context, not merely on a microscale, via individuals' direct experience of positi

292 es (110-380 muL) and further purification in microscale volumes (5-15 muL) on the DMF device itself.

293 transferring and joining of materials at the microscale where surface adhesion is far more dominant t

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

295 different geometries both at the macro- and microscale, with an insulating material that does not co

296 tot)] ratio appears remarkably stable at the microscale within each fossil and is similar between fos

297 reestanding 3D metallic architectures at the microscale would enable myriad applications, including f

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

299 residues (WTRs)], and engineered [nano- and microscale zero valent iron (ZVI)] amendments.

300 The injection of microscale zerovalent iron (mZVI) particles for groundwa