ライフサイエンスコーパス: submicrometer

1 tation is used to photocrosslink proteins at submicrometer 3D coordinates.

2 iented myosin motors align relatively short, submicrometer actin filaments into motile surface domain

3 Two-photon lithography (TPL)-based submicrometer additive manufacturing is a promising cand

4 One-minute detection limits for submicrometer aerosol are <0.04 microg m(-3) for all spe

5 led the time- and size-resolved emissions of submicrometer aerosols from the printer in a chamber stu

6 was primarily associated with micrometer- to submicrometer aggregates of Mn-bearing nanoparticulate g

7 ound that several nonspecific compounds form submicrometer aggregates, and it has been suggested that

8 tified the optical properties of individual, submicrometer amorphous carbon spheres that are ubiquito

9 hese microtubule bundles exhibit restricted, submicrometer-amplitude motions, which are weakly correl

10 ucture with pitch [Formula: see text] in the submicrometer and micrometer range.

11 ere, we describe an approach to apply ESI to submicrometer and nanometer scale aerosol particles, whi

12 Glass-sealed Pt electrodes with submicrometer and nanometer size have been successfully

13 Damage-free Pt electrodes with submicrometer and nanometer sizes are pivotal for reliab

14 , creates double-strand breaks (DSBs) at the submicrometer and second scales.

15 An evaluation using submicrometer antimony suggests that our emission estima

16 In contrast, samples of submicrometer atmospheric particles from marine air mass

17 re thus likely to enhance the CCN ability of submicrometer atmospheric particles.

18 e hygroscopicity and chemistry of individual submicrometer atmospheric particles.

19 t attogram to femtogram levels in individual submicrometer atmospheric particles.

20 erosol (SOA) constitutes a major fraction of submicrometer atmospheric particulate matter.

21 rom biosensor, and 10 nM and 0.27 amol for a submicrometer biosensor, respectively.

22 The submicrometer capillaries are batch-fabricated on silico

23 Submicrometer capillaries can be used to resolve small m

24 We observe that the use of submicrometer capillaries did not result in a significan

25 The results suggest that submicrometer capillaries do not result in significant c

26 The use of submicrometer capillaries for nanoelectrospray ionizatio

27 techolamines have been accomplished in these submicrometer capillaries using both capillary zone elec

28 otein complexes ionized using micrometer and submicrometer capillaries were compared to determine if

29 puller is required for pulling reproducible submicrometer capillaries, and disruption in spray due t

30 btain both negatively and positively charged submicrometer capillary channels conveniently.

31 n with a truncated cytoplasmic tail generate submicrometer, cell-associated, membranous particles tha

32 uantification of intracellular signaling and submicrometer cellular structures as well as large-scale

33 t only in small cells, such as sperm, but in submicrometer cellular structures, such as epithelial mi

34 based polarization technique to detect rapid submicrometer changes in plasma membrane topology as a r

35 polarized TIRFM demonstrate rapid and varied submicrometer changes in plasma membrane topology at sit

36 d metabolomics and in situ three-dimensional submicrometer chemical imaging of single cells by gas cl

37 ) nanocrystals are first self-assembled into submicrometer clusters containing relatively uniform mes

38 ity, and particle size distribution of these submicrometer colloids.

39 led investigation of how the introduction of submicrometer crevices to a surface affects attachment o

40 roduce polymer field-effect transistors with submicrometer critical features in planar and vertical c

41 An interplanetary dust particle contains a submicrometer crystalline silicate aggregate of probable

42 The graphene fibers exhibit a submicrometer crystallite domain size through high-tempe

43 l sieving matrix based on the highly regular submicrometer cylindrical glass capillary segments alter

44 chip for driving liquid phase separations in submicrometer deep channels.

45 rogen peroxide (H(2)O(2)) using pH-buffered, submicrometer, deliquesced aerosol particles at relative

46 An all-metallic submicrometer device is demonstrated experimentally at r

47 ng optical microscope pulled fiber tips with submicrometer diameter (250 nm active region).

48 sitivity for detecting material ablated from submicrometer diameter craters, the effective lateral re

49 work, we demonstrate direct 3D machining of submicrometer diameter, subsurface fluidic channels in g

50 icroscopy to show that microbially generated submicrometer-diameter iron oxyhydroxide (FeOOH) filamen

51 Arrays of submicrometer-diameter particles were printed with up to

52 pherical supported lipid bilayers (SSLBs) on submicrometer-diameter SiO(2) beads.

53 chemical characterization of electrodes with submicrometer dimensions (2 nm < r(app) < 1000 nm) is re

54 technical challenge owing to the organelle's submicrometer dimensions and close proximity to the cell

55 Sampling areas with submicrometer dimensions are achieved by using reduced l

56 ltiplexer architecture for bridging from the submicrometer dimensions of lithographic patterning to t

57 r, the metal ions within biolattices and the submicrometer dimensions of typical biotemplates result

58 orded at room temperature from crystals with submicrometer dimensions using intense femtosecond pulse

59 o allows creating microfluidics circuitry of submicrometer dimensions with great control.

60 ometers are controllably deformed to produce submicrometer dimensions.

61 Revealing the submicrometer distribution of crystalline zinc soaps in

62 T) has become an important tool to study the submicrometer distribution of proteins and lipids in mem

63 metamorphism, where ion imaging has revealed submicrometer domains that are sufficiently heterogeneou

64 irect measurements of spontaneous fission of submicrometer droplets have not been possible.

65 needed to move within the brain, which has a submicrometer effective pore size.

66 Vehicle engines produce submicrometer exhaust particles affecting air quality, e

67 Although depletion of dislocations from submicrometer face-centered-cubic (FCC) pillars provides

68 regions contacted by the stamp, resulting in submicrometer feature definition.

69 tical fiber but could also be prepared using submicrometer fiber tips.

70 Submicrometer fiber-optic biosensors have been developed

71 r tweezers, force-dependent reinforcement of submicrometer fibronectin-coated beads and early formati

72 In this paper we describe the synthesis of submicrometer fluorescent particles with pH sensing capa

73 hile, Hg and Se were found to be enriched on submicrometer fly ash at higher levels in oxy-firing tha

74 ated emission rates of particulate carbon on submicrometer fly ash, each corresponding to its respect

75 used using high numerical aperture optics to submicrometer focal spots, creating instantaneous intens

76 am emitter structure that takes advantage of submicrometer footprint size, small divergence angle, hi

77 te carbon emissions can easily double if the submicrometer fraction of the native fly ash has a low c

78 quantum vortices in superfluid (4)He, using submicrometer frozen air tracers.

79 nsistent with released serotonin from single submicrometer granules (250 aL each) were evident, each

80 We describe how submicrometer hard x-ray beams with the ability to penet

81 mast cells, upon activation, release stable submicrometer heparin-based particles containing tumor n

82 valuable tool for mapping samples containing submicrometer heterogeneities.

83 By using our newly developed submicrometer high-pressure single-crystal XRD, cryogeni

84 pproach for the synthesis of multifunctional submicrometer hollow silica spheres (smHSSs) using micro

85 spacer-free method for creating controllable submicrometer hydrogel films on planar substrates that c

86 with Total Variance regularization, enabling submicrometer image fidelity, demonstrated in the analys

87 Although it is submicrometer in size, electron diffraction tomography o

88 tomic resolution, despite crystallites being submicrometer in size.

89 Currently, direct viscosity measurements of submicrometer individual atmospheric aerosols are limite

90 The use of state-of-the-art submicrometer integrated circuit technologies should all

91 in the near-infrared region show promise for submicrometer lateral resolution by laser desorption-bas

92 mnidirectional dielectric mirror fibers with submicrometer layer thickness.

93 nce, band bending, and contact potentials at submicrometer length scales on the surface of this semic

94 power-law size effect at the micrometer and submicrometer length scales, with the strengthening expo

95 tely 0.03 the materials are ordered on three submicrometer length scales.

96 es has not been defined, particularly at the submicrometer level.

97 operties have been characterized only at the submicrometer level.

98 atmospheric PM focused at the micrometer and submicrometer levels.

99 g a laser beam at the pipet tip to produce a submicrometer light source.

100 The technique does not rely on submicrometer lithography or precision mechanical manipu

101 rostructures from crosslinked avidin enables submicrometer localization of controllable quantities of

102 orted here, in which networks of interacting submicrometer magnetic dots are used to perform logic op

103 oxygen, sodium, and magnesium and providing submicrometer maps of element molar concentration, cell

104 eld stress observed in recent experiments of submicrometer metallic pillars provides a unique opportu

105 Two-dimensional colloidal crystals of submicrometer microspheres provide a convenient model so

106 attributed to confinement effects due to the submicrometer morphology and to the surface, thermal, an

107 easurement of infrared absorption spectra of submicrometer objects.

108 The reaction of ozone with submicrometer oleic acid particles is measured to demons

109 ate that pONs account for 3% and 8% of total submicrometer organic aerosol mass, on average, during t

110 ion, while accounting for up to 30% of total submicrometer organic aerosol mass, the IEPOX-derived SO

111 provided quantitative measurements of total submicrometer organics, nitrate, sulfate, and ammonium.

112 Elevated submicrometer particle mass concentrations were also gen

113 ifiers in removing ultrafine (<0.10 mum) and submicrometer particles (0.10-0.53 mum) in an apartment.

114 eria in the form of microcolonies, while the submicrometer particles and colloids (1-5 mum and 100 kD

115 rays offer a new format in which immobilized submicrometer particles are arrayed on hydrogel-coated s

116 The results indicate that submicrometer particles are promising for improving the

117 These results demonstrate that fractal submicrometer particles are responsible for the increase

118 tely quantify the water uptake of individual submicrometer particles at ambient conditions over a wid

119 directly for the phase states of individual, submicrometer particles by using nanoindentation and nan

120 tigate the phase separation behavior of dry, submicrometer particles composed of ammonium sulfate mix

121 PM(2.5) ratios (>=0.56 +/- 0.15) showed that submicrometer particles constitute the majority of fine

122 ethod is applied to complex internally mixed submicrometer particles containing organic and inorganic

123 of gyration approximately 10 nm and fractal submicrometer particles formed by a slow reaction-limite

124 lume fraction, and ice nucleating ability of submicrometer particles from jet drops differ from those

125 The average concentrations of HBCD in these submicrometer particles generated from the thermal cutti

126 The ability to characterize micrometer and submicrometer particles in solution is of fundamental im

127 stochastic method to model the transport of submicrometer particles in the device and predict the mi

128 Predicting the activation of submicrometer particles into cloud droplets in the atmos

129 Furthermore, by packaging submicrometer particles into rapidly sinking fecal pelle

130 The mechanisms of disintegration of submicrometer particles irradiated by short laser pulses

131 on; this method produces highly monodisperse submicrometer particles of a variety of semiconducting p

132 Submicrometer particles of diethyl p-phenylenediacrylate

133 multiple parameters of suspended individual submicrometer particles offers a crucial complement to c

134 ticle deposition rates for the ultrafine and submicrometer particles using a nonlinear regression met

135 Submicrometer particles were generally more hygroscopic

136 cal composition of a substantial fraction of submicrometer particles will not be controlled by the co

137 O-PTIR and Raman spectra were collected for submicrometer particles with different substrates, parti

138 in microfluidics that require sorting of the submicrometer particles, and the analytical method can a

139 for ultrafine and coarse particles than for submicrometer particles, as expected.

140 For submicrometer particles, on the other hand, the non-osci

141 ation was the dominant removal mechanism for submicrometer particles, whereas deposition could play a

142 ssessment of human exposure to ultrafine and submicrometer particles.

143 et substance particulate mass was carried by submicrometer particles.

144 ator into a microfluidic channel to separate submicrometer particles.

145 suppresses Rayleigh streaming effects on the submicrometer particles.

146 ociated with chemically impregnated carbons, submicrometer particulate carbon emissions can easily do

147 size all lead to increases in the estimated submicrometer particulate carbon emissions.

148 rt on a new method for analyzing atmospheric submicrometer particulate organic matter which combines

149 phases of semiconducting polymers, enabling submicrometer patterning accuracy and compact molecular

150 We report on the possibility to realize submicrometer plate heights using chromatographic pillar

151 Here, using submicrometer polydimethylsiloxane pillars as substrates

152 sitive dye) to the surface of amino-modified submicrometer polystyrene particles.

153 Estimated emission rates of submicrometer powdered activated carbon are compared to

154 o resolve tight junction permeabilities with submicrometer precision.

155 ovement-corrected 3D two-photon imaging with submicrometer precision.

156 pproaches enabled a resolution of ~10 nm for submicrometer protein particles in suspension.

157 proteins, showing these raft markers are in submicrometer proximity in the plasma membrane.

158 ear capped despite dynamic PRC1 turnover and submicrometer proximity to growing microtubules.

159 ing occurs through plasma membrane wounds of submicrometer radius that reseal over time through the a

160 borne particles collected in a filter with a submicrometer range (<0.95 mum) showed a decrease in car

161 cattering with a spot size in the micro- and submicrometer range as a high-resolution and label-free

162 Bromide exhibited a peak in the submicrometer range during fire and nonfire periods, wit

163 erns in the wavelengths in the micrometer to submicrometer range, from simple one-dimensional wrinkle

164 st observed %Cl(-) depletion occurred in the submicrometer range, with maximum values of 98.9% (0.32-

165 greatest influence on Cl(-) depletion in the submicrometer range.

166 ave difficulty manipulating specimens in the submicrometer regime.

167 Particle diameter has recently entered the submicrometer region, with the back-pressure requirement

168 for patterning a variety of structures with submicrometer resolution are important in many areas of

169 the Li(2)O(2) phase evolution with atomic to submicrometer resolution during cycling a custom-built i

170 perform in vivo sarcomere measurements with submicrometer resolution is a long-standing challenge in

171 etry imaging (MSI) at ambient pressures with submicrometer resolution is challenging, due to the very

172 TOF-SIMS imaging has been carried out at submicrometer resolution obtaining localization and char

173 ometry of the central 3 mm was measured with submicrometer resolution optical interferometry, before

174 tempts at parallelization either do not have submicrometer resolution or cannot pattern complex struc

175 Molecular mapping of live biofilms at submicrometer resolution presents a grand challenge.

176 canning electrochemical cell microscopy with submicrometer resolution to show that grain-boundary sur

177 have been patterned with trapped charge with submicrometer resolution using a flexible, electrically

178 an image of a model sample under buffer with submicrometer resolution using ion conductance distance

179 a one-dimensional imaging of exocytosis with submicrometer resolution was accomplished within the are

180 tu and in vivo biochemical quantification at submicrometer resolution without sectioning and staining

181 we combine synchrotron X-ray diffraction at submicrometer resolution, analysis of crystallite orient

182 echnique that measures sarcomere length with submicrometer resolution.

183 opropanol, was quantitatively monitored with submicrometer resolution.

184 ution of various molecules on a surface with submicrometer resolution.

185 e capable of defining critical features with submicrometer resolution.

186 bedaquiline in infected human macrophages at submicrometer resolution.

187 ss sections, with the possibility to acquire submicrometer-resolution mass spectrometry images of the

188 l's three-dimensional (3D) histology down to submicrometer resolutions.

189 The obtained submicrometer resolved three-dimensional compositional d

190 o show the distribution of zinc soaps on the submicrometer scale and how this information is used to

191 onstrates that nuclei maintain autonomy at a submicrometer scale and simultaneously maintain a normal

192 f mineral and organic soil components on the submicrometer scale in an intact soil aggregate (40 meas

193 root-soil interface processes in situ at the submicrometer scale remain poorly understood.

194 nto spatially organized domain structures on submicrometer scale within topographically patterned thi

195 alize and characterize organic matter at the submicrometer scale, such as Nano Secondary Ion Mass Spe

196 and polysaccharides varying spatially at the submicrometer scale.

197 ial within individual globular features on a submicrometer scale.

198 of adsorbed proteins on crystal faces at the submicrometer scale.

199 were used to study cellular adhesion at the submicrometer scale.

200 manipulation of particles from millimeter to submicrometer scale.

201 distribution of excipients and drugs at the submicrometer scale.

202 ajor challenge is to understand how precise, submicrometer-scale control of kinetochore micro-tubule

203 to measure the dye diffusion coefficients in submicrometer-scale film regions.

204 These forces can also be used to manipulate submicrometer-scale particles.

205 ating surfaces with complex, micrometer- and submicrometer-scale patterns was demonstrated by the pro

206 Forces at submicrometer scales are weak and slow, control is hard

207 ion optodes, toward probes at micrometer and submicrometer scales.

208 e heating method was also applied to bubbled submicrometer (Sea Sweep), generated bulk (Bubbler), and

209 viscosity of substrate-deposited individual submicrometer semisolid aerosol particles as a function

210 This allows the tailoring of selective submicrometer sensors for use in intracellular measureme

211 for ultrasonic spray pyrolysis and produced submicrometer silica particles that are porous on the na

212 a relatively thin film composed of connected submicrometer silica particles.

213 Combining these techniques with submicrometer single-particle tracking, we directly meas

214 led data collection with micrometer and even submicrometer size crystals, which have resulted in amaz

215 ncies, and protein crystals were sorted into submicrometer size fractions as desired for future seria

216 nian fungal spores and subsequent release of submicrometer size fragments after exposure to high humi

217 opy imaging of an interdigitated array and a submicrometer size test substrate.

218 Conical carbon fiber tips of submicrometer size were used to approach, image, and pun

219 effective sorting of small particles down to submicrometer size, which is challenging for existing fl

220 of growth layers involves the association of submicrometer-size droplets of the dense liquid to the c

221 The submicrometer-size grafted spots produced on the HOPG su

222 We found that submicrometer-size magnesium samples exhibit high plasti

223 cts, which is attributed to the formation of submicrometer-size whirlpools in the electron flow.

224 imate is not well understood, especially for submicrometer sized aerosol particles that typically hav

225 ere, we compare the effect of micrometer and submicrometer sized capillaries on the native structures

226 In this study, we compare GFs of submicrometer sized particles composed of single compone

227 This process leads to a submicrometer-sized bubble of plasma that can ablate tis

228 In the current study, submicrometer-sized bubbles were created in a flow-throu

229 om-i.d. fused-silica capillaries packed with submicrometer-sized C18-bonded porous silica particles a

230 The hypothesis that PIP2 forms submicrometer-sized clusters in the membrane by electros

231 ream signaling molecules into micrometer- or submicrometer-sized clusters.

232 he method can generate more than one billion submicrometer-sized colonies in a single lane of a next-

233 can be obtained by 3D ED from nanometer- and submicrometer-sized crystals and samples containing mult

234 Its structure was solved from submicrometer-sized crystals by continuous rotation elec

235 The structure of ITQ-51 was solved from submicrometer-sized crystals using the rotation electron

236 d to the electrochemical detection of DNA at submicrometer-sized DNA biosensors integrated into bifun

237 observed circular dichroism associated with submicrometer-sized domains showing helicoidally twisted

238 he fabrication of polishable integrated dual submicrometer-sized electrodes has been reported.

239 crylate/acrylate mixture, was patterned into submicrometer-sized features on a silicon wafer using a

240 Submicrometer-sized fluorescent microspheres were loaded

241 Bacterial chromosomes are confined in submicrometer-sized nucleoids.

242 ns to investigate the collective behavior of submicrometer-sized particles immersed in a nematic mice

243 rode assembly consists of two closely spaced submicrometer-sized platinum disks.

244 Urease multilayers were assembled onto submicrometer-sized polystyrene spheres by the sequentia

245 The two submicrometer-sized Pt disk electrodes can work either i

246 Submicrometer-sized silica gel particles were coated wit

247 mparing calibration streams of gas-phase and submicrometer-sized solid-phase carbon species.

248 ords in the literature and the fact that the submicrometer-sized soot particles can be dispersed regi

249 Discrete, submicrometer-sized spherical aggregates are found to fo

250 Regularly spaced, submicrometer-sized spherical beads of amorphous carbon

251 thologic abnormality was the accumulation of submicrometer-sized vesicles extracellularly near the ju

252 vels of large extracellular vesicles (lEVs), submicrometer-sized vesicles released from plasma membra

253 ogy (UPT) is based on lanthanide-containing, submicrometer-sized, ceramic particles that can absorb i

254 Here, we demonstrate submicrometer-sized, plasmonic lasers using cesium-lead-

255 acon (MB) DNA biosensors, with micrometer to submicrometer sizes, have been developed for DNA/RNA ana

256 the 3D angles of molecular orientations with submicrometer spatial resolution acquired through polari

257 f mass spectrometry can now be achieved with submicrometer spatial resolution and <10 nm depth resolu

258 hnique can depth-profile into ice films with submicrometer spatial resolution and high sensitivity.

259 protein to be imaged by light microscopy at submicrometer spatial resolution and subsecond time reso

260 (SECCM) with photoillumination, to create a submicrometer spatial resolution cell that opens up high

261 he simultaneous IR and Raman microscopy with submicrometer spatial resolution described herein has co

262 sarcolemma with submillisecond temporal and submicrometer spatial resolution in real time.

263 se experiments demonstrate the potential for submicrometer spatial resolution MS imaging by fs-LDPI.

264 spheric aerosol particles with micrometer or submicrometer spatial resolution, on the basis of the re

265 aser ablation of material from surfaces with submicrometer spatial resolution, which can be ionized f

266 in vivo at up to 3,000 frames per second and submicrometer spatial resolution.

267 it allows near real-time imaging in 3D with submicrometer spatial resolution.

268 hysiological concentrations with potentially submicrometer spatial resolution.

269 l surface were obtained with a micrometer or submicrometer spatial resolution.

270 been measured with nanonewton precision and submicrometer spatial resolution.

271 different biochemically complex samples with submicrometer spatial resolution.

272 sized materials ranging from quantum dots to submicrometer spheres and recent upscaling advancement t

273 Force ranged from a few nanonewtons at submicrometer spots under the lamellipodium to several h

274 te that jet drops produce up to 43% of total submicrometer SSA number concentrations, and that the fr

275 the factors controlling the mixing state of submicrometer SSA particles and must be taken into consi

276 Submicrometer SSA particles could be separated into two

277 It is often assumed that submicrometer SSAs are mainly formed by film drops produ

278 The resulting arrays have submicrometer SSLBs with 3 mum periodicity where >75% of

279 timetal microrods intrinsically encoded with submicrometer stripes.

280 cylindrical metallic particles, with various submicrometer striping patterns, may be readily distingu

281 wide-angle X-ray diffraction to characterize submicrometer structural changes and synchrotron X-ray c

282 Other potential applications of these submicrometer structures for DNA analysis are discussed.

283 ing chemical or physical processes, allowing submicrometer structuring in stereolithography and three

284 We have identified submicrometer supramolecular structures that mediate the

285 higher resolution of electron microscopy for submicrometer thick specimens, and the molecule-specific

286 We found that submicrometer-thick membranes made from graphene oxide c

287 chlorate-selective electrode is based on the submicrometer-thick plasticized poly(vinyl chloride) mem

288 as adapted to prepare durable, freestanding, submicrometer thickness films for transmission infrared

289 of >25 mum, the structural properties of the submicrometer thickness materials can be probed in mid-i

290 of particles is focused to a flow layer of a submicrometer thickness that allows imaging the particle

291 ld (np-Au) thin film electrode coatings with submicrometer thicknesses, as a model system to investig

292 be applied to the bioanalytical arena where submicrometer to 100 mum separations are required.

293 This new experimental approach with submicrometer to approximately micrometer sized UMEs exc

294 es tiny photoelectrochemical currents at the submicrometer to nanoscale, in the fA range, which are c

295 ed for rapid prototyping of devices wherever submicrometer- to micrometer-sized features are incorpor

296 The nanoscale micelles transform into submicrometer vesicles and grow to giant vesicles as a c

297 We identified platelet microparticles--submicrometer vesicles elaborated by activated platelets

298 o orders of magnitude for enzymes trapped in submicrometer water nanodroplets suspended in 1,2-dichlo

299 The transfer of insulated submicrometer wide wires from the raised stamp features

300 is concept is experimentally demonstrated on submicrometer wires and on an array of 150 silicon nanow