ライフサイエンスコーパス: submicron

1 anufactured nanofibrous filters demonstrated submicron aerosol retention efficiency of > 99.999999%,

2 ogen dioxide (NO(2)), other trace gases, and submicron aerosol were measured continuously.

3 count for 50-80% of total Na(+) and Cl(-) in submicron aerosols (PM(1)).

4 to demonstrating Cl(-) depletion (aging) in submicron aerosols and quantifying ssNa(+), nssNa(+), ss

5 imental and modeled absorption properties of submicron aerosols measured in an urban Indian city (Kan

6 transmission ( TIT) in particular, of these submicron alumina ceramics has been examined with the Ra

7 lutes into complex ordered structures on the submicron and longer length scales.

8 e different enrichment behaviors of PFAAs in submicron and supermicron particles might be a result of

9 c hydroxyl groups measured during ICEALOT in submicron atmospheric aerosol exceeded those measured in

10 A large fraction of submicron atmospheric aerosol particles contains both or

11 phase transitions and physical properties of submicron atmospheric aerosol particles is needed to bet

12 SOA) accounts for a dominant fraction of the submicron atmospheric particle mass, but knowledge of th

13 microscope counts are often error-prone for submicron bacteria.

14 tes demonstrated that microparticles form as submicron beads along the lengths of slender, unbranched

15 ion to effective and uniform manipulation of submicron biological particles in large scales, which ha

16 ther types of cargo molecules or other small submicron biological particles.

17 nce of molecular building blocks of life and submicron biomorphic structures in the oldest rocks on E

18 In this paper the controlled separation of submicron bioparticles is demonstrated.

19 have similar size and optical properties to submicron black carbon (BC) and thus could increase BC r

20 ree motion, while others are confined within submicron boundaries that reduce the frequency of sponta

21 melting of the vortex lattice in a wide YBCO submicron bridge preceded by magnetoresistance (MR) osci

22 which was found to reach tens of MPa inside submicron bubbles.

23 products from hydroxyindoles fractionated in submicron capillary electrophoresis channels.

24 free of crystallographic defects due to the submicron cavity footprint (250 nm x 250 nm) being small

25 the invasion and persistence of S. aureus in submicron channels of cortical bone, and the diagnostic

26 re demonstrated by grabbing and manipulating submicron clusters and nanowires.

27 ne redistribution of active LFA-1 into dense submicron clusters where multimeric interactions occur.

28 hat dissolved (7)Be and (210)Pb are bound to submicron colloids.

29 Our data suggest that the submicron component of exported POM is an important cont

30 ith simultaneous atomic force microscopy and submicron confocal fluorescence imaging, allowing charac

31 ty to solve high-resolution structures using submicron crystals.

32 ived Ca(2+) transients that were confined to submicron dendritic stretches.

33 ed processing technique for the formation of submicron diameter fibers of polymeric and ceramic mater

34 , stability, and biodistribution behavior of submicron-diameter molecular imaging agents.

35 ent separations of particles with micron and submicron dimensions are extremely useful in preparation

36 However, the submicron dimensions of spines have hindered examination

37 uctuations in internal scaffold density over submicron distances.

38 ansferred to individual nuclei, resulting in submicron distributions of displacements, with compressi

39 oping and testing two methods of identifying submicron domains in biomimetic membranes.

40 xpected for a GPI-anchored protein alone and submicron domains of even higher resistance were observe

41 preferentially adsorbs to liquid-disordered submicron domains within the lipid membranes, attributed

42 receptors exhibits transient confinement to submicron domains.

43 Submicron dot and line molecular patterns were generated

44 t of the heterogeneous transport behavior of submicron drug carriers and pathogens in biological envi

45 Finally, we show how the use of submicron emitters and suppression of nonspecific bindin

46 specific adduct formation observed using the submicron emitters is dramatically suppressed, allowing

47 The concentration of Fru-Phe in submicron emulsions was similar to that in water, while

48 Microparticles (MPs) are submicron extracellular vesicles exposing phosphatidylse

49 rimetric sorting devices are fabricated with submicron feature sizes and experimentally validated in

50 d via synchrotron microtomography, while the submicron features are revealed by electron microscopy a

51 he interaction of reservoir gases with their submicron features have direct relevance to many geoener

52 ine silicon (100) surfaces, in patterns with submicron features, in a straightforward, two-step proce

53 s known about the mechanical behavior at the submicron, fibrillar level.

54 Here, we present submicron field-effect transistors with specially design

55 ocessable branched polymer was formed into a submicron film and characterized for permeance and selec

56 ; whereas unexpected mobility is observed in submicron gel domains for the phospholipid probes.

57 echnical gap in scalable synthesis of larger submicron gene delivery vehicles by electrostatic self-a

58 nced phospho-signalling within, leading to a submicron gradient of activated CtrA-P(19) that is stabl

59 iconductors thin films is challenging due to submicron grain sizes and the presence of numerous struc

60 and mechanical properties of a new class of submicron grain-sized alumina ceramics relative to the c

61 rength and translucency, the newly developed submicron grain-sized alumina may be considered a suitab

62 The strength of these submicron grain-sized aluminas was significantly higher

63 ly precipitated to isolate the most reactive submicron grains and then annealed at 600 degrees C to d

64 on the hypervelocity impact of organic-laden submicron ice grains for in situ mass spectrometric char

65 The resultant capsules were submicron in size with remarkable uniformity in size dis

66 contact, far-field reflection mode, offering submicron IR spectroscopy and imaging.

67 Using these methods, we can achieve submicron lateral resolution of photolysis and probe bio

68 ography, it is shown that different types of submicron latex spheres can be spatially separated.

69 by coating both sides of the membrane with a submicron layer of platinum.

70 uctures and processes, however, occur on the submicron length scale.

71 OR-PAM) has pushed the technical envelope to submicron length scales and millisecond timescales.

72 e scaling of active photonic devices to deep-submicron length scales has been hampered by the fundame

73 udy the ion spatial distributions from mm to submicron length scales in wood, fungal hyphae with the

74 of the chromatin structure, particularly at submicron length scales where chromatin fractal globules

75 offers significant geometric versatility at submicron length scales.

76 eflecting surface with regular structures at submicron length scales.

77 in probes recognize discrete structures with submicron lengths that are excluded from chromatin-rich

78 e per area) during fibroblast migration at a submicron level and correlated it with nuclear transloca

79 tative Fluorescent Speckle Microscopy to the submicron level.

80 -down and bottom-up design principles at the submicron level.

81 For small, submicron liposomes, membrane viscosity affects pore kin

82 quantitatively assess smaller (nanoscale and submicron) liquid domains have been limited.

83 Submicron LNPs (d(43) ~ 570-780 nm) were stabilized with

84 An mCherry-tagged nuclease targets the submicron locus, causing DNA cleavage and recruiting rep

85 and unbound organics in a complex mixture at submicron (<500 nm) resolution.

86 rt large plasticity in c-axis compression of submicron magnesium single crystal achieved by a dual-st

87 Transfer of submicron material to mesopelagic depths in this locatio

88 ve led to direct and quantitative imaging of submicron membrane domains in vitrified, hydrated vesicl

89 Exosomes, submicron membrane vesicles (30-200 nm) secreted by almo

90 MPs are submicron membrane vesicles shed by compromised or activ

91 Extracellular vesicles (EVs) are submicron membranous structures and key mediators of int

92 n two parallel plates with controlled micron/submicron-meter distance to minimize convection of the l

93 In this study, we characterized the submicron microstructure of arterial wall collagen and e

94 For all types of plastics, a dominant submicron mode of emitted particles is observed.

95 at spine bases exhibited highly constrained submicron movements.

96 ration during ICEALOT correlated strongly to submicron Na concentration and wind speed.

97 optical helicity is further demonstrated in submicron nano-kirigami at near-infrared wavelengths.

98 , anthropogenic species made up 30% of total submicron nascent sea spray aerosol organic mass under t

99 Two submicron oil-in-water (O/W) emulsions consisting of wat

100 s, including sparse transcript discovery per submicron (or micron)-sized spatial units and data fragm

101 The coupling of a levitated submicron particle and an optical cavity field promises

102 to show that it is indeed possible to drive submicron particle and cell concentration down to 200 nm

103 08, organic mass accounted for 15-47% of the submicron particle mass in the air masses sampled over t

104 The observed submicron particle ratios of marine organic mass to Na w

105 The technique can serve as the basis for submicron particle separation, disease diagnosis, cell l

106 The use of resistive pulse sensors for submicron particle size measurements relies on a clear u

107 Antibody-conjugated submicron particle suspension is then added to the paper

108 enter-of-mass motion of an optically trapped submicron particle.

109 Emission factors of submicron particles (0.5-769 g kg(-1)) and VOCs (46-393

110 Submicron particles (4.0:1.0 mass ratio only) were found

111 In this report, we demonstrate that submicron particles (800-900 nm) composed of the polyket

112 Exposure to submicron particles (PM1) is of interest due to their po

113 Considering the importance of submicron particles and bioparticles that are common in

114 for elasto-inertial focusing and sorting of submicron particles and exosomes.

115 n aid understanding of relationships between submicron particles and health outcomes for indoor/outdo

116 beta-IEPOX, the predominant IEPOX isomer, on submicron particles as a function of composition, acidit

117 n is capable of concentrating and patterning submicron particles at two poles of each pillar in an ar

118 Measurements of submicron particles by Fourier transform infrared spectr

119 By visualizing the motion of submicron particles dispersed in superfluid (4)He, we ha

120 ise mainly because the surface properties of submicron particles dominate their dielectrophoretic beh

121 er to explore the heterogeneous structure of submicron particles for describing physical and chemical

122 erize the chemical composition of individual submicron particles in air, comparatively fewer approach

123 scovery, not only for viruses but also other submicron particles including exosomes, microvesicles, a

124 anics are measured by ballistic injection of submicron particles into the cytoplasm of living cells a

125 Submicron particles of known pH (0 or 6) were deposited

126 l mucotomy, the presence of solid micro- and submicron particles present in their nasal mucosa was as

127 ncy, existing acoustofluidic manipulation of submicron particles require actuation at MHz and even GH

128 Submicron particles such as latex spheres and viruses ca

129 N. gonorrhoeae antibodies were conjugated to submicron particles then pre-loaded and dried in the cen

130 s paper, we present a method to flash freeze submicron particles to measure phase transitions as a fu

131 Chitosan (CH)-tripolyphosphate (TPP) submicron particles were formed as carriers of entrapped

132 In the analysis of food-grade TiO(2) submicron particles, accurate Ti-mass per particle is de

133 Peptides were crosslinked to submicron particles, and peptide-bacteria interactions o

134 eanic particle-size distributions shows that submicron particles, due to their higher abundances, are

135 ed-phase reactions within sulfate-containing submicron particles, leading to low-volatility organic p

136 one), to determine the acidity of individual submicron particles.

137 nanoparticles, quantum dots, and pure silica submicron particles.

138 particles (p < 0.05, r(2) > 0.8), but not in submicron particles.

139 resents land-use regression (LUR) models for submicron particulate matter (PM(1)) components from an

140 erstanding of the size spectrum evolution of submicron particulate matter is critical to making effic

141 of total measured organic aerosol (29-49% of submicron particulate matter, PM1) in the southeastern U

142 s work, we study renoxification of suspended submicron particulate sodium and ammonium nitrate throug

143 We go on to demonstrate for the first time a submicron patterning phenomenon through the addition of

144 rolyte-based systems as a general method for submicron patterning.

145 ome settings, the formation of microscale or submicron patterns of receptors in the cell-cell interfa

146 tic wave propagation up to GHz ranges with a submicron periodicity.

147 Finally, submicron pillars can capture many details of cellular f

148 Localization of myosin between submicron pillars demonstrates that submicron scale myos

149 fundamentally different on micron-scale and submicron pillars.

150 obtain high quality FTIR spectral images at submicron pixel resolution in vivo over a duration of 18

151 hesized that microparticles (MPs), which are submicron, plasma membrane-derived vesicles released by

152 ength metal grooves can form an ultracompact submicron plasmonic dichroic splitter.

153 ansport in sub-millimeter architectures with submicron polyelectrolyte layers.

154 show that in the surface ocean, lipids from submicron POM (here called extra-small POM) are distinct

155 from a newly developed technique that allows submicron porosity to be examined in 3D within a 12 mm(3

156 epth-of-field of approximately 0.5-1 mm with submicron positioning accuracy.

157 single bacteria can direct their motion with submicron precision and reveals the hidden potential for

158 hieved with, to our knowledge, unprecedented submicron precision, resulting in arrays with an interce

159 in, conditions were elaborated that produced submicron protein particles in ethanol suspensions.

160 densities (PSDs) are membrane semi-enclosed, submicron protein-enriched cellular compartments beneath

161 Lipid rafts are submicron proteolipid domains thought to be responsible

162 Finally, submicron radii halt the monolayer, which then reconfigu

163 ates of silicates, perovskite, and silica of submicron radii.

164 For nonporous silica particles at submicron ranges, yields of oxidation were different bas

165 een BPs, where crystal features arise in the submicron regime, is found to be martensitic in nature w

166 Fluorescence nanosectioning within a submicron region above an interface is desirable for man

167 Interestingly DNA damage localized to a submicron region following a laser microbeam induction s

168 monstrating a size-based inertial sorting at submicron resolution (i.e., 0.5 mum).

169 tely 400 microm deep into intact tissue with submicron resolution and little out-of-focus photodamage

170 tive-like extracellular matrix scaffold with submicron resolution and then seeded the scaffold with c

171 Submicron resolution images are now routinely recorded f

172 ared techniques, O-PTIR spectra collected at submicron resolution of environmentally relevant mineral

173 The present inertial sorting at submicron resolution provides a simple, rapid, and effic

174 asal [Ca(2+)] in neurons and astrocytes with submicron resolution unveils heterogeneous concentration

175 n photopolymerization (TTAP), which achieves submicron resolution while using a continuous visible LE

176 iminating the need for labeling and offering submicron resolution, this vibrational microspectroscopy

177 To enable platelet force mapping with submicron resolution, we developed a force-activatable b

178 ar composition in three dimensions (3D) with submicron resolution.

179 cond variations in chromatin compaction with submicron resolution.

180 uable tool for imaging tissue structure with submicron resolution.

181 abling the study of single living cells at a submicron resolution.

182 sment of GBM intratumoral heterogeneity with submicron resolution.

183 -SIMS), a 2D chemical imaging technique with submicron resolution.

184 kinematic analysis of C. elegans behavior at submicron resolution.

185 Using this technique, we demonstrate in vivo submicron-resolution imaging of neural dendrites and mic

186 scriptome-wide data labeled with billions of submicron-resolution spatial coordinates and is compatib

187 gral part of the workstation design allowing submicron-resolution, three-dimensional, two-photon imag

188 tral information gathered from an individual submicron sample volume enables chemometric identificati

189 llar arrays with dimensions extending to the submicron scale (2, 1, and 0.5 mum in diameter covering

190 e nanometer scale and ionic diffusion at the submicron scale is leveraged to achieve strong optical r

191 s nanoelectrodes with long straight tips for submicron scale measurements.

192 between submicron pillars demonstrates that submicron scale myosin filaments can cause these local c

193 it is generally very challenging to realize submicron scale patterns on flexible substrates.

194 Thus, at the submicron scale the localization and the mobility of a p

195 local activity restricts GluR1 mobility on a submicron scale, defining an input-specific mechanism fo

196 , due to the small hydrogel thickness at the submicron scale.

197 indicator of aggregation distribution on the submicron scale.

198 lar structures, which are rarely flat at the submicron scale.

199 nhomogeneous though axisymmetric down to the submicron scale.

200 lipid monolayers reveal small domains on the submicron scale.

201 measure the directions of actin waves at the submicron scale.

202 x with spherical and polygonal shapes in the submicron scale.

203 individual particles in a population on the submicron scale.

204 ical mapping of nickel sorbed to CMAs on the submicron scale.

205 cidification, targeted excretion of ligands, submicron-scale biomechanical forcing, and mobilization

206 operation in theory, with NIL patterned deep-submicron-scale channel lengths.

207 d provide analytical recommendations for the submicron-scale characterization of complex mineral-orga

208 Submicron-scale EGaIn thin-film patterning with feature

209 Metalenses are ideally suited for producing submicron-scale focal spots for high-throughput nanolith

210 on ranging from nanoscale intra-aggregate to submicron-scale interaggregate GBs, by modulating the cr

211 CaP coating exhibited a submicron-scale needle-shaped structure.

212 Submicron-scale patterning of surfaces was achieved by i

213 origami have enabled robust self-assembly of submicron-scale shapes from a multitude of single-strand

214 Here we use bulk and submicron-scale spectroscopic synchrotron methods to exa

215 namically probe the endothelium by extending submicron-scale, actin-rich "invadosome/podosome-like pr

216 resents a nanofabrication strategy to create submicron-scale, all-soft electronic devices based on eu

217 ontaneous CD45 and kinase segregation at the submicron-scale, initiates signaling even when TCR ligan

218 g fabrication technologies cannot create the submicron-scale, soft transducers needed for healthcare

219 e longitudinal pore arrangements resulted in submicron-scaled diameters (~50 microm), along with corr

220 d printing resolution for the manufacture of submicron-scaled features.

221 on of surface nanofeatures at the micron and submicron scales may have exciting applications in actua

222 PCC 7942 to investigate the distribution on submicron scales of two key respiratory electron donors,

223 trol cellular interactions on the micron and submicron scales on which cells are organized.

224 that transform microbe-mineral interfaces at submicron scales, particularly in complex field systems.

225 similar in both cell types at the micron and submicron scales.

226 s to control soft morphologies at micron and submicron scales.

227 xt] apart-we find a phoretic force which for submicron sheet lengths is parallel to, but basically in

228 Protein-rich clusters of steady submicron size and narrow size distribution exist in pro

229 ng of micron-sized biological particles with submicron size difference is highly desired, but far une

230 defined here as the quantity consumed by the submicron size fraction of ambient microbial assemblages

231 The submicron size of endosomes has made it difficult to stu

232 Propolis dispersions in the micron and submicron size range could be obtained.

233 of liquid handling systems to the micron and submicron size range entails moving into the area of sma

234 articles can be accurately classified at the submicron size range, while the Ti-nat particles are cla

235 y the hydrodynamic radius, from angstroms to submicron size range.

236 were associated with mobile colloids in the submicron size range.

237 gradients, and crystal domains in micron to submicron size samples in diamond-anvil cells.

238 queous solutions forming stable particles of submicron size with positive surface charge.

239 g that microcompartments, if present, are of submicron size.

240 anied lattice reconstruction that results in submicron-size triangular domains with the standard, Ber

241 lowed by hydrodynamic sputtering of nano- to submicron sized metal droplets.

242 Submicron-sized capsules are good models to mimic bioche

243 In conclusion, the distribution of AChR submicron-sized clusters at the cell membrane appears to

244 3 and 4 are confined to mutually exclusive, submicron-sized clusters.

245 The structure of EMM-23 was determined from submicron-sized crystals by combining electron crystallo

246 apses do not overlap even when formed on one submicron-sized dendritic protrusion.

247 rbations favor the survival and spreading of submicron-sized dust.

248 ocedure is capable of transferring micron to submicron-sized features with high fidelity over large s

249 fected red blood cells by sequestration into submicron-sized hemozoin crystals.

250 Although deformation processes in submicron-sized metallic crystals are well documented, t

251 asculature increases permeability, such that submicron-sized particles can extravasate and accumulate

252 included a significant portion of nano- and submicron-sized particles, and these can be directly dep

253 uced cycle life is caused by the presence of submicron-sized particles.

254 om the interaction of light with micron- and submicron-sized physical structures spatially arranged w

255 Microparticles (MPs) are submicron-sized shed membrane vesicles released from act

256 we report, by monitoring the deformation of submicron-sized single-crystal magnesium compressed norm

257 ng from the van der Waals forces between the submicron-sized spatulae and the substrate, which are co

258 te-free method to construct micron-sized and submicron-sized texture on isotropic glass surfaces in o

259 UCP are submicron-sized, inorganic crystals that are excited wit

260 termining aerosol phase state in situ at the submicron sizes that are implicated in long-range virus

261 cal processes in dynamic living samples with submicron spatial accuracy, fast response time, and high

262 ssion spectroscopy (ARPES) measurements with submicron spatial and spin resolution, we systematically

263 rescence microscopy (XFM) provides micron or submicron spatial resolution and direct detection with s

264 Imaging oxygen in 3D with submicron spatial resolution can be made possible by com

265 king with submillisecond time resolution and submicron spatial resolution is employed to reveal corre

266 gle-resolved photoemission spectroscopy with submicron spatial resolution to investigate an aligned W

267 ide a microfluidic reactor is achieved, with submicron spatial resolution with mM sensitivity and on

268 ded both millisecond temporal resolution and submicron spatial resolution, allowing for real-time ima

269 sively manipulating biochemical signals with submicron spatial resolution.

270 .e., core-shell), as well as IR mapping with submicron spatial resolution.

271 arly stages of propylene polymerization with submicron spatial resolution.

272 mouse brain tissue sections, which requires submicron spatial resolutions beyond those accessible by

273 Four differently sized fluorescent submicron spheres (1 mum, 500 nm, 300 and 100 nm) were u

274 thesize monodisperse silk fibroin micro- and submicron-spheres with diameters tunable over a wide ran

275 Submicron spherical molecularly imprinted polymers, used

276 us hydrogels, quantitative information about submicron structural features of the polymer matrix can

277 EV are submicron structures composed of lipid bilayers, protein

278 ere used as an example, because they contain submicron structures conveniently used to define optical

279 More generally, the ability to pattern submicron structures over large areas in a facile, relia

280 patterning periodic metallic and nonmetallic submicron structures over large areas.

281 changes in glutamate receptors at synapses, submicron structures that mediate communication between

282 Conformal HA coatings with nano-to-submicron structures, namely nHA and mHA coatings, were

283 tudies of neural circuits where neurons form submicron synapses but have arbors that may span millime

284 PC micelles could provide a valuable submicron system to vectorise drugs and nutrients.

285 chieves correlation of fluorescent signal to submicron target structures in electron microscopy on th

286 t COPII-coated transport carriers traverse a submicron, TFG (Trk-fused gene)-enriched zone at the ER/

287 Meter-scale, submicron-thick lightsail spacecraft, propelled to relat

288 pled bowtie nanoantenna arrays (BNAs) with a submicron-thick, thermosensitive hydrogel coating.

289 Submicron thin films were prepared through spin coating

290 al resolution paves the way for quantitative submicron three-dimensional mapping of elemental distrib

291 ome apo-myoglobin ions are produced with the submicron tips.

292 cause the majority of porosity within CCs is submicron to micron in size, previous lab efforts have b

293 rbon and nutrients therein drive fundamental submicron- to global-scale biogeochemical processes and

294 (nanometer scale), supramolecular complexes (submicron-to-micron scale), and within subcellular domai

295 tion, pinning, and nucleation occur over the submicron-to-nanometer scale.

296 r length scales than microscopy experiments (submicron versus micron-scalp), and complex behavior is

297 icroparticles (EMPs) are endothelium-derived submicron vesicles that are released in response to dive

298 uidic experiments on an original device with submicron-wide physiologically calibrated slits.

299 er, our results show that filtration through submicron-wide slits is possible without further slit op

300 ires were transformed into analogous anatase submicron wire motifs, resembling clusters of adjoining