ライフサイエンスコーパス: micron

1 high spatial resolution (approximately a few microns).

2 s, with the photon pairs residing within one micron.

3 r permeability at a resolution of nearly one micron.

4 a wayward cell has ventured a fraction of a micron.

5 ic pressure in fluids at length scales of 10 microns.

6 cm at 2 K with a large mean free path of 11 microns.

7 lecular reconstruction through more than 300 microns.

8 spanning from a few nanometers up to several microns.

9 rtion loss and device length as small as 100 microns.

10 with characteristic scales from angstroms to microns.

11 ted a theoretical resolution on the order of microns.

12 ers of magnitude, from tens of nanometers to microns.

13 icus at cellular resolution over hundreds of microns.

14 um) with a mean diameter of 1.15+/-0.59 (SD) microns.

15 dynamic extravasation events on the scale of microns.

16 ntained within an area of hundreds of square microns.

17 eatures in the ranges of tens or hundreds of microns.

18 In this study, nano (20 nm) and micron (0.3 and 0.6 um) size MgO particles were compared

19 ered bioactuator that can generate up to 300 microN (0.56 kPa) of active tension force in response to

20 Here, we investigated host suppression of 2-micron (2mu) plasmids, multicopy nuclear parasites that

21 exhibiting enhanced depth of field over 300 micron along the optical axis with potential for perform

22 nts that extend dendritic arbors hundreds of microns along the cochlear spiral, contacting many outer

23 Motion of micron and sub-micron size magnetic particles in alterna

24 ography is similar in both cell types at the micron and submicron scales.

25 upercapacitor and narrow gaps were dozens of microns and 500 nm, respectively.

26 n "ringlike" patterns measuring ~1.75 x 0.72 microns and containing actin and CD9 at cell-ECM locatio

27 eparation of trajectories from nanometers to microns and energy differences from peV to neV will enab

28 s, ultrasonic wavelengths in water are a few microns and have an absorption depth of 10-20 um.

29 ic sequence-recognition zones occupy 5 to 30 microns and recognize time-intervals of 0.2 to 5 s.

30 gratings in fine (spatial period of 320-580 micron) and coarse (1520-1920 micron) ranges using stati

31 As a result, much of the micron- and molecular-scale knowledge about organic-mine

32 e-dimensional morphology of living corals at micron- and nano-length scales, respectively, which are

33 hey arise from the interaction of light with micron- and submicron-sized physical structures spatiall

34 Here we show that the persistence of super-micron ash is consistent with a density near 0.5 g cm(-3

35 detected at distances reaching more than ten microns at times as short as nanoseconds.

36 asma membranes of cells it contacts, tens of microns away from the wound, allowing direct calcium ent

37 nch can globally inhibit KCs several hundred microns away.

38 However, axial (z) shifts of several microns can also occur, leading to intensity fluctuation

39 ctures having a mean grain size down to 0.35 microns can be obtained without high-strain deformation

40 constant micrometer-scale resolution and sub-micron channel registration over the entire imaged volum

41 of only a few microns instead of the tens of microns currently attained, allowing sub-cellular detail

42 ces may vary significantly (sub-nanometer to microns) depending on ambient physical and chemical cond

43 ltiple confocal scanning foci, affording 1.5 micron depth-resolution and millisecond frame rate.

44 2-meter-long human genome into a roughly 10-micron-diameter cell nucleus.

45 teins to form nucleosomes and fit inside the micron-diameter nucleus.

46 ntration, this has primarily been limited to micron dimension particles.

47 to transform CO(2) into an unusual nano and micron dimensioned morphology of carbon, termed Carbon N

48 regional TPP values that vary on the hundred micron distance scale, causing micro-heterogeneous limit

49 e DNA origami motor that moves linearly over micron distances at an average speed of 40 nm/min.

50 th respiring insoluble electron acceptors at micron distances, which has important implications for i

51 The sub-micron emulsion presented a higher conversion of MAGs to

52 to giant vesicles with radii larger than 10 microns, exhibiting several emergent properties, includi

53 he dielectric substrate; (2) creating a ~100-micron feature pattern on the metal film using nanosecon

54 onstrating full-colour pixel arrays with sub-micron feature size, high fidelity, and high post-patter

55 rovides a robust methodology to quantify sub-micron features within large tissue sections.Optical cle

56 cal routing to or from objects 10 s-100 s of microns from a chip surface, but benefitting from the pa

57 wo dimensions and thickness of up to several microns from nanocrystals with tens of nanometres in dia

58 vated 4-methoxyphenyl groups migrate several microns from regions of high functionalization to region

59 iations from the main Gaussian lobe up to 25 microns from the focus and down to the 5 x 10(-6) level

60 of ultra-thin ([Formula: see text]tenth of a micron) gaps of zero electromagnetic energy density in t

61 age form, we demonstrate that the use of sub-micron gas-stabilising polymeric nanoparticles (nanocups

62 ority particle size was found to be below 25 microns generally at all time points beyond 8 h.

63 or plate midline perpendicularly at about 20 microns/h and in a manner dependent on the Robo3 but not

64 and patterning diamond to depths beyond one micron has proven challenging due to the hardness and ch

65 microbubbles in vessels of approximately 20 microns have shown that expansion is constrained, sugges

66 More significantly, five micron high-spatial resolution MALDI-MSI revealed that A

67 orescence image volumes spanning hundreds of microns if not millimeters.

68 arrier diffusion length reaching hundreds of microns; (ii) a low exciton binding energy; and (iii) a

69 tes were subjected to fundus imaging using a Micron III imaging system.

70 ing through narrow capillaries as small as 3 microns in diameter without any damage.

71 various size fractions of PM [PM10 (</=10mum microns in diameter), PM2.5 (</=2.5mum in diameter), and

72 s ranging from tens of nanometers to several microns in diameter.

73 cell, even in large blastomeres hundreds of microns in diameter.

74 ion of conducting walls of up to hundreds of microns in length can be achieved through locally applie

75 a parallel bundle of actin filaments several microns in length.

76 le isolated clusters, rich in Ti, of several microns in size.

77 gy transfer range can be extended to tens of microns in the hybrid structure mediated by an exciton-s

78 Thin films of several microns in thickness are ubiquitously used in packaging,

79 croscopy data at a resolution approaching 10 microns in tortuous cerebrovascular anatomies.

80 mm thick with depth resolution of only a few microns instead of the tens of microns currently attaine

81 water-oil periphery, which extended several microns inward.

82 and 5-20 nm Fe(3)O(4) MNPs, bridge nano- to micron length scales, and can be modulated in situ by ap

83 an cells, IMPDH filaments can associate into micron-length assemblies.

84 oil assemblies that further oligomerize into micron-length filaments.

85 ualize cerebral arteries' microstructure and micron-level features of neurovascular devices, would ha

86 n polymerization (2PP) 3D printer capable of micron-level precision on a millimeter scale.

87 n noninvasively quantify retinal layers to a micron-level resolution.

88 bling single-molecule quantification and sub-micron localization of dozens to thousands of RNA specie

89 Walls are straight, tens of microns long and exist as a consequence of elastic compa

90 mation of curved tip structures, up to a few microns long.

91 hered by DNA probes that are between 1 and 7 microns long.

92 chano-chemical force field, modeling several micron-long actin bundles in 3D, while accounting for a

93 d up to two orders of magnitude in a tens-of-microns-long 3D NPC in comparison to the 2D case.

94 Cells assemble microns-long filamentous structures from protein monomer

95 phologically aligned, parallel, ~50 nm wide, microns-long nanocrystals, bundled either into 5-mum-wid

96 ns seal while those greater than hundreds of microns may exhibit long-term leakage.

97 n energy transfer can be extended to tens of microns, mediated by an exciton-surface-plasmon-polarito

98 tly discovered ultralong (>10 to hundreds of microns) membrane protrusions [tumor microtubes (TMs)] e

99 In field experiments nano and micron MgO applied at 200 and 1,000 ug/ml were evaluated

100 tivity against Cu-tolerant X. perforans than micron MgO at 25-50 ug/ml.

101 demonstrated that although both nano MgO and micron MgO had bactericidal activity against Cu-tolerant

102 Micron/nanosized particles of liquid metals possess intr

103 ials offer tremendous functionality, but sub-micron objects are typically unachievable with conventio

104 e in optical power of 1600 diopters with 100 micron of total mechanical displacement.

105 ned that threading dislocations in the top 6 microns of the wafer increase after epitaxial layer grow

106 The long-range order over hundreds of microns of these crystals allows them to readily exfolia

107 X-ray fluorescence microscopy (XFM) provides micron or submicron spatial resolution and direct detect

108 operties and phase behaviors inaccessible to micron- or nanometer-scale colloids.

109 slightly acidified aqueous solution with the micron outer diameter tips, but some apo-myoglobin ions

110 ations indicate the potential for these (sub)micron particles to become entrained in the buoyant plum

111 cting the protein-induced aggregation of sub-micron particles, using a one-step procedure followed by

112 ith an aerodynamic diameter of less than 2.5 microns (PM2.5) and maternal stress and childhood asthma

113 al exposure to fine particulate matter < 2.5 microns (PM2.5) and physical activity in the association

114 ousands of DNA probes is determined with sub-micron precision using a robust and rapid optical approa

115 fication of microplastics (MPs) in the lower micron range.

116 iod of 320-580 micron) and coarse (1520-1920 micron) ranges using static pressing or sliding contact

117 ided by amplified Rayleigh scattering on sub-micron refractive index inhomogenities randomly distribu

118 sors capable of spatially resolving light at micron resolution across its entire centimeter-scale sur

119 rt due to previous unavailability of direct, micron resolution elemental mapping techniques.

120 tent, type and spatial distribution with sub-micron resolution in living mammalian oocytes and embryo

121 Imaging with (sub)micron resolution showed that the approach allowed detec

122 oral tissue and the underlying skeleton with micron resolution, including their optical and mechanica

123 nally construct 25-megapixel images with sub-micron resolution.

124 ts innovative soft device architectures with micron resolution.

125 stems and transparent tissue where a precise micron-resolution dissection is required.

126 nge and time response through engineered sub-micron scaffold.

127 siological recordings in single neurons at a micron scale and fMRI measurements at a millimeter scale

128 at drive ganglion cell activity and observed micron scale displacements, consistent with radiation fo

129 ological recordings in single neurons at the micron scale in nonhuman primates and standard-resolutio

130 ts that SXRLs have the potential for imaging micron scale objects with sub-20 nm resolution in orders

131 require that quartz crystals grew from thin (micron scale) chemical boundary layers at the fluid-crys

132 keleton, recognize membrane curvature at the micron scale, a common morphological hallmark of eukaryo

133 ture and function, from the nanometer to the micron scale, and we highlight areas of opportunity and

134 emperature with a valley diffusion length at micron scale.

135 rch and MCP mobilities appeared similar at a micron scale.

136 le with evidence of some localization at the micron scale.

137 to coarse-grained force measurements on the micron scale.

138 with current technologies, especially at the micron scale.

139 patterned and imaged independently on a few-micron scale.

140 ls with engineered lattice structures at the micron scale.

141 three-dimensional optoelectronics on the sub-micron scale.

142 is capable of self-organizing into dynamic, micron-scale actin structures with features similar to c

143 Here, we measured outward emissions of micron-scale aerosol particles by healthy humans perform

144 ure consisting of homogenous distribution of micron-scale and nanoscale alpha-phase precipitates with

145 e applications, they have limited utility in micron-scale applications due to restricted modulation r

146 mer assembly perturbs the formation of these micron-scale assemblies in vitro and Cnn-scaffold assemb

147 ciated with actomyosin rings are expelled as micron-scale bundles containing multiple actomyosin ring

148 he silk gland of Bombyx mori silkworms, into micron-scale capsules with controllable geometry and var

149 Bioinspired ceramics with micron-scale ceramic "bricks" bonded by a metallic "mort

150 Our system is a micron-scale colloidal particle in water, in a virtual d

151 Micron-scale colloids are widely used as model systems t

152 le matrix protein BuGZ is sufficient to form micron-scale compartments that recruit and activate Auro

153 sembly: SpoVM, which preferentially binds to micron-scale convex membranes and marks the surface of t

154 We conclude that micron-scale curvature recognition is a fundamental prop

155 areas of the plasma membrane where there is micron-scale curvature, including the cytokinetic furrow

156 an spectroscopy as a powerful method for the micron-scale determination of S(0) structure in natural

157 ctric waveguides to free-space beams forming micron-scale diffraction-limited spots a designed distan

158 Such emitters, with micron-scale dimensions and the freedom to fully control

159 N-WASP actin-regulatory pathway cluster into micron-scale domains at the basal plasma membrane upon t

160 We discuss the basic physics of the flow of micron-scale droplets in 2D geometry.

161 Micron-scale droplets isolated by an immiscible liquid c

162 nanoparticles and active microrheology using micron-scale ellipsoidal magnetic microparticles, in bot

163 n-uniform phase distribution, as well as the micron-scale essence of the spatial and temporal instabi

164 ilaments and molecular motors facilitate the micron-scale force generation necessary for the distribu

165 llular matrix (ECM) that can be separated by micron-scale gaps.

166 microbial habitats and niches are defined by micron-scale gradients in combination with short- and lo

167 ls, the recovered specimen contains numerous micron-scale grains of a quasicrystalline phase displayi

168 A novel delivery system using micron-scale grape skin powder (GSP) was developed that

169 In this study, the micron-scale Haines jump of the air-water interface in r

170 After heat treatment, the micron-scale intermetallic phases were dissolved into th

171 uced graphitization technique that generates micron-scale islands of nano-graphitic carbon materials

172 evidence of ballistic superconductivity over micron-scale lengths.

173 um of electrons that have been affected by a micron-scale magnetic dipole, thus establishing that our

174 y neuropil, we report the first non-invasive micron-scale mapping of cerebral Po2 in awake, resting m

175 troduce a molecular-level fMRI technique for micron-scale mapping of serotonin transport in live anim

176 ions that move in similar directions enables micron-scale measurements of actin-wave speed and direct

177 Here, by directly imaging micron-scale membrane domains of yeast vacuoles both in

178 se-Bin/Amphiphysin/Rvs (I-BAR) domains drive micron-scale membrane remodeling.

179 tion of S(0), as a practical non-destructive micron-scale method for use on wet material and living c

180 magnitude higher than that of conventional, micron-scale microfluidic devices.

181 The MNAs are composed of micron-scale needles featuring pyramidal heads supported

182 We demonstrate reconfigurable micron-scale optical control of both magnetization (whic

183 proteins at the plasma membrane can produce micron-scale organization of signaling molecules, and ho

184 metal species were co-localized in the same micron-scale particles as result of corrosion processes

185 mena have come from colloidal systems, whose micron-scale particles mimic basic properties of atoms a

186 In contrast, shedding of non-expiratory micron-scale particulates from friable cellulosic fibers

187 de of aluminum oxide or stainless steel with micron-scale projections designed to create microscopic

188 Thus, a nanometer- and micron-scale reorganization of activating and inhibitory

189 etric visualization of ocular vasculature at micron-scale resolutions.

190 Micron-scale robots require systems that can morph into

191 on in the dimensions of hypodermic needle to micron-scale size has gained tremendous interest among r

192 he pump-probe polarimetric measurements with micron-scale spatial resolution reveal the dynamics of t

193 Micron-scale structure illuminates the roles of individu

194 A slightly longer version of the LZ can form micron-scale structures with CM2, whose assembly is stim

195 e function, but the mechanisms that organize micron-scale structures within cells are not well unders

196 Micron-scale surface features, which are artifacts of ma

197 en studied for both synthetic and biological micron-scale systems, a similar phenomenon was presumed

198 ated to be sufficient for pure propulsion of micron-scale therapeutics in magnetic resonance targetin

199 ron-injection detector allows utilization of micron-scale tunable laser sources (e.g. VCSEL) and elim

200 ability to localize mechanical energy into a micron-scale volume.

201 d the ability to measure carrier dynamics in micron-scale volumes, much smaller than is possible with

202 for building a dense array of miniaturized (micron-scale) electrochemical sensors with high performa

203 g the cells with microprojectiles, which are micron-scale, typically gold particles.

204 hographically-induced strain relaxation in a micron-scaled device fabricated from epitaxial thin film

205 tance, following the discoveries made in sub-micron scales of biological material.

206 d phases can organize proteins and lipids on micron scales within unperturbed, living cells.

207 light manipulation on sub-nanosecond and sub-micron scales, and allow for the observation of the nove

208 ing resolutions down to the single- and sub- micron scales, and when coupled with contrast-enhancing

209 with thermal fluctuations up to seconds- and microns-scales.

210 ted, fractures with apertures in the tens of microns seal while those greater than hundreds of micron

211 /-0.5 versus 3.3+/-0.3 cardiomyocytes per 10-micron section, N=8-9 mice per group, n=16-24 sections p

212 Our best performing deep sub-micron sensors, based on a wire width of 85 nm, display

213 Motion of micron and sub-micron size magnetic particles in alternating magnetic f

214 of SMOLT is generated by the displacement of micron-size beads tethered by DNA probes that are betwee

215 sts of calcite dissolution by slurry flow of micron-size calcite particles with acidified desalinated

216 "cross" supermicelles as kinetically stable, micron-size colloidally stable structures in solution.

217 wth in vitro compared to the non-treated and micron-size commercial copper controls.

218 Migration through micron-size constrictions has been seen to rupture the n

219 adin when compared with samples treated with micron-size copper or untreated.

220 type Bi(85)Sb(15) bulk samples consisting of micron-size grains.

221 ed fragmentation of the ceramic spheres into micron-size particulate matter, which provided an abrasi

222 COFs, as crystalline powders and exfoliated micron-size sheets.

223 IBA-1, CX3CR1, and P2RY12, and phagocytosed micron-size super-paramagnetic iron oxides.

224 Here, we report that sub-micron sized 'nanobubble' ultrasound contrast agents can

225 Iron deposits were typically micron sized and consisted mostly of ferrihydrite, consi

226 nto applications in many forms: as powder of micron sized crystals, as a ceramic, and even as a singl

227 sed of closely packed, multi-faceted and sub micron sized crystals.

228 The mu-plasma jet consists of micron sized hollow tube in which pure helium gas is ion

229 anotube (LFO/CNT) composites composed of sub-micron sized LFO and a nanocarbon with high electrical c

230 the synthesis and characterization of a sub-micron sized LFO/CNT composites.

231 Thus, sub-micron sized nanobubble ultrasound contrast agents provi

232 This study aimed to evaluate the effects of micron sized non-thermal atmospheric pressure plasma ins

233 ine small intestinal mucus secretions to sub-micron sized particles have been compared under simulate

234 pigs for studying colloidal transport of sub-micron sized particles in mucus under conditions mimicki

235 ct (P > 0.05) its permeability to model, sub-micron sized particles, and the microviscosity profile o

236 hich will provide sensitivity in the bulk of micron sized particles.

237 ct that most of diseases are originated from micron sized structures, an elastography imaging system

238 s and elementary solubilization steps of sub-micron sized vesicles, which are inaccessible by convent

239 ly used to apply large forces (~100 nN) onto micron-sized (~5 mum) superparamagnetic particles for me

240 nodes and spleen may be the formulation with micron-sized adjuvants that creates a local depot and re

241 Cy3, Cy5, and Alexa Fluor 555, dissolved in micron-sized aqueous droplets (microdroplets) in oil wer

242 For micron-sized aqueous droplets held in the air, the defor

243 at the ARF7 and ARF19 proteins accumulate in micron-sized assemblies within the cytoplasm of tissues

244 o a lack of sensitivity of the MRI signal to micron-sized axons.

245 rate molecular analysis, inertial sorting of micron-sized biological particles with submicron size di

246 shockwaves produced by a blast can generate micron-sized bubbles in the tissue.

247 s as it is driven by Poiseuille flow through micron-sized channels.

248 We have programmed the self-assembly of micron-sized colloidal clusters with structural informat

249 generating Pickering emulsions over typical micron-sized colloidal particles and ligand-stabilized n

250 ino acid that exhibits self-assembly to form micron-sized constructs.

251 rmine the Cyt1Aa protoxin structure from sub-micron-sized crystals produced in Bti.

252 t oxygen sites are identified in the bulk of micron-sized crystals, including battery anode materials

253 Micron-sized features of DNP are presented as densely im

254 h only metallic starting materials, numerous micron-sized five-component icosahedral quasicrystals, a

255 g high intensity illumination of X-rays in a micron-sized focused hard X-ray free electron laser (XFE

256 Fossil melanosomes, micron-sized granules rich in melanin in vivo, provide k

257 Rise (EPR) vent field are a source for (sub)micron-sized graphite particles.

258 hetic method for forming highly-crystalline, micron-sized monolayer domains of phase-pure MoS(2).

259 , microneedle patches containing an array of micron-sized needles on an adhesive backing have been de

260 nvolve attaching the molecule of interest to micron-sized or larger force probes via compliant linker

261 Ultimately, plastic materials degrade to micron-sized particles (microplastics), which are persis

262 nd two differently sized magnetic particles (micron-sized particles acting as capture particles and n

263 ulation and persistence of non-biodegradable micron-sized particles in liver and spleen precludes the

264 re that involves implantation of radioactive micron-sized particles loaded with yttrium-90 (Y90) insi

265 d mechanical pulses in aqueous monolayers of micron-sized particles of controlled microstructure.

266 PMCs are micron-sized particles with hollow cores and polymeric s

267 instrumentation, and allow creation of lower micron-sized patterns.

268 eer tunable active surface topographies with micron-sized pillars that can beat at a programmable fre

269 ndrop impact on infected plants can disperse micron-sized propagules of plant pathogens (e.g., spores

270 showed that hBEX3 undergoes condensation in micron-sized protein-rich droplets in vitro.

271 regated powders, they were recently grown as micron-sized single crystals by temporally resolving the

272 cts of the Schrodinger-Newton equation for a micron-sized sphere trapped in a harmonic oscillator pot

273 r proposed microfluidic system can enumerate micron-sized spheres in a single assay using barcoded pa

274 approach uses ultra-intense lasers to drive micron-sized, encapsulated nanofoam targets.

275 RET platform to be applicable beyond the sub-micron sizes studied here and become a unique tool to un

276 enetration around the CGM to several hundred microns sought to reduce sensor fibrosis to extend CGM f

277 e tissue by measuring differences in the sub-micron spatial mass density distribution (D) that vary t

278 ent for label-free imaging of chemicals with micron spatial resolution and high mass resolution.

279 dered amorphous molecular materials forms at micron spatial resolution in the uppermost surface of a

280 ps will open opportunities for dating at sub-micron spatial resolution, thus, marking a step change i

281 absorption spectroscopy of C(60) in the 8.5-micron spectral region (1180 to 1190 wave number).

282 f the subretinal lesion complex (measured in microns +/- standard deviation) differed among GA (48+/-

283 ticles as nanobeads and MWCNTs as conducting micron-string.

284 The 60 micron thick device was successfully implanted to 4.5 mm

285 n radiating from the laser spot within a sub-micron thick liquid sheet target.

286 dying turbid structures that are hundreds of microns thick and otherwise opaque to transmitted light.

287 The micron-thick BaM films exhibited a large remanence ratio

288 n; and the entire structure collapses into a microns-thin, self-adhering, single-centimeter-square de

289 In this work, we prepared various sub-micron thymol emulsions with high hydrophilic-lipophilic

290 focused on providing this information in the micron to millimeter scale while ultrasound, X-ray, and

291 rticle sizes were significantly reduced from micron to nanoscale level.

292 using: (1) helium ion microscopy to capture micron to sub-nanometer imagery of mineral-organic inter

293 standing of tableting across dimensions from microns to millimeters for the macrostrcuture of tablet.

294 their sizes well controlled from hundreds of microns to millimetres.

295 mous motors and pumps on scales ranging from microns to nanometers.

296 h tunable brush heights that extend up to 20 microns - two orders of magnitude thicker than standard

297 of the apoptotic cell clearance receptor Six-microns-under (Simu) leads to perturbation of macrophage

298 r ultra-broadband ranges of wavelengths from microns up to millimeters or more.

299 vertebrate model with diverse tissues, at ~1 micron voxel resolutions.

300 er with aerodynamic diameter of less than 10 microns was higher among women with asthma.