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1 the nucleus (typically on the order of 5-10 microns).
2 a wayward cell has ventured a fraction of a micron.
3 s, with the photon pairs residing within one micron.
4 r permeability at a resolution of nearly one micron.
5 dynamic extravasation events on the scale of microns.
6 rtion loss and device length as small as 100 microns.
7 erage over a large area: thousands of square microns.
8 arger spatial scale covering several hundred microns.
9 skimming in arterioles of diameters 20 to 32 microns.
10 n extending length scales from nanometers to microns.
11 ransport of this membrane cargo over several microns.
12 ion over length scales of even a few hundred microns.
13 with characteristic scales from angstroms to microns.
14 ted a theoretical resolution on the order of microns.
15 ers of magnitude, from tens of nanometers to microns.
16 icus at cellular resolution over hundreds of microns.
17 um) with a mean diameter of 1.15+/-0.59 (SD) microns.
18 ered bioactuator that can generate up to 300 microN (0.56 kPa) of active tension force in response to
20 exhibiting enhanced depth of field over 300 micron along the optical axis with potential for perform
21 linated type II afferents extend hundreds of microns along the cochlear duct to contact many outer ha
22 nts that extend dendritic arbors hundreds of microns along the cochlear spiral, contacting many outer
25 erials, with controlled pore features on the micron and nanometer scales, are explored as advanced al
29 th of 19.3 mum and length of several hundred microns and are prepared into transparent paper by vacuu
30 herence tomography (EDI-OCT) at 500 and 1500 microns and in five different regions (FCT, T1500, T500,
32 r with aerodynamic diameter of less than 2.5 microns and particulate matter with aerodynamic diameter
35 hey arise from the interaction of light with micron- and submicron-sized physical structures spatiall
36 s with wavenumbers larger than a few inverse microns are dominated by concentration fluctuations with
38 asma membranes of cells it contacts, tens of microns away from the wound, allowing direct calcium ent
40 collagen on the scale of tens to hundreds of microns by using holographic optical tweezers to apply p
41 ctures having a mean grain size down to 0.35 microns can be obtained without high-strain deformation
42 all ions in a solid-density plasma of a few microns can be uniformly accelerated to about 25% of the
43 ssue: structures of interest in the order of microns can move over a hundred times their width during
44 posed methodology provides new tools for sub-micron characterization of heterogeneous samples using f
46 of only a few microns instead of the tens of microns currently attained, allowing sub-cellular detail
47 ces may vary significantly (sub-nanometer to microns) depending on ambient physical and chemical cond
49 regional TPP values that vary on the hundred micron distance scale, causing micro-heterogeneous limit
53 the limitation of refining grains to several microns even though employing high-strain deformation.
54 to giant vesicles with radii larger than 10 microns, exhibiting several emergent properties, includi
55 rovides a robust methodology to quantify sub-micron features within large tissue sections.Optical cle
57 cal routing to or from objects 10 s-100 s of microns from a chip surface, but benefitting from the pa
58 wo dimensions and thickness of up to several microns from nanocrystals with tens of nanometres in dia
59 iations from the main Gaussian lobe up to 25 microns from the focus and down to the 5 x 10(-6) level
60 ty of exciton resonances measured for 15 few-micron GaAs crystal slabs with different values of N, re
61 age form, we demonstrate that the use of sub-micron gas-stabilising polymeric nanoparticles (nanocups
62 or plate midline perpendicularly at about 20 microns/h and in a manner dependent on the Robo3 but not
63 microbubbles in vessels of approximately 20 microns have shown that expansion is constrained, sugges
64 arrier diffusion length reaching hundreds of microns; (ii) a low exciton binding energy; and (iii) a
66 various size fractions of PM [PM10 (</=10mum microns in diameter), PM2.5 (</=2.5mum in diameter), and
69 ion of conducting walls of up to hundreds of microns in length can be achieved through locally applie
70 s are formed, which are nanotubes of several microns in length, with inner and outer diameters of 100
73 e mean global RNFL OCT measurement was 140.5 microns in such eyes compared with 107.8 microns in the
74 0.5 microns in such eyes compared with 107.8 microns in the 57 nonglaucomatous, quiescent, uveitic ey
75 gy transfer range can be extended to tens of microns in the hybrid structure mediated by an exciton-s
79 final visit was 0.12 (0.08) and 0.11 (0.06) microns, in the non-myopes, and 0.15 (0.08) and 0.15 (0.
80 well even at film thicknesses approaching a micron, indicating improved carrier transport in the QD
81 mm thick with depth resolution of only a few microns instead of the tens of microns currently attaine
83 r and irregular superhydrophobic surfaces at micron length scales and at micro-second temporal scales
92 n energy transfer can be extended to tens of microns, mediated by an exciton-surface-plasmon-polarito
93 tly discovered ultralong (>10 to hundreds of microns) membrane protrusions [tumor microtubes (TMs)] e
94 ration of 5% of total liver, were 8 x 10 ten-micron microspheres infused with a 29 G needle directly
95 that can create high resolution (up to a few microns), multimaterial shape memory polymer (SMP) archi
99 omic DNA, based on the employment of two sub-micron oligonucleotide labels - one for magnetic collect
100 tation of the microplastic into particles of microns or smaller, their transference to the ocean inte
101 slightly acidified aqueous solution with the micron outer diameter tips, but some apo-myoglobin ions
102 er with aerodynamic diameter of less than 10 microns, ozone (O3), nitrogen oxides (NOx), sulfur dioxi
104 ; nasal-500 microns, P = 0.033; temporal-500 microns, P = 0.033; and temporal-1500 microns, P = 0.019
105 al choroidal thickness, P = 0.042; nasal-500 microns, P = 0.033; temporal-500 microns, P = 0.033; and
107 angle theta=74 degrees ) for sufficient sub-micron particle adhesion, air pockets within the fibers
108 cting the protein-induced aggregation of sub-micron particles, using a one-step procedure followed by
109 facile general route for high throughput sub-micron patterning of soft materials, using spatially sel
111 m gaps of 60 nm and spiral inductor coils of micron pitch we realize microwave resonant circuits with
113 mosome-like mitotic stability of the yeast 2 micron plasmid is conferred by the plasmid proteins Rep1
114 ith an aerodynamic diameter of less than 2.5 microns (PM2.5) and maternal stress and childhood asthma
115 served values for particulate matter </= 2.5 microns (PM2.5) for this cohort to create the six exposu
116 ch employs the compaction of metal-oxide sub-micron powders with a graphite fugitive phase that is bu
118 0 microns, r = -0.287, P = 0.005; nasal-1500 microns, r = -0.245, P = 0.016; and temporal-1500 micron
120 ted with the hemoglobin values (temporal-500 microns, r = -0.287, P = 0.001; nasal-500 microns, r = -
121 00 microns, r = -0.287, P = 0.001; nasal-500 microns, r = -0.287, P = 0.005; nasal-1500 microns, r =
124 ided by amplified Rayleigh scattering on sub-micron refractive index inhomogenities randomly distribu
126 er than the mean global RNFL thickness (65.3 microns) reported in eyes with the same stage (moderate)
128 tent, type and spatial distribution with sub-micron resolution in living mammalian oocytes and embryo
135 ucture, individual taxa are localized at the micron scale in ways suggestive of their functional nich
136 ts that SXRLs have the potential for imaging micron scale objects with sub-20 nm resolution in orders
137 articles are 30-50 times more expensive than micron scale particles and possess safety and environmen
139 keleton, recognize membrane curvature at the micron scale, a common morphological hallmark of eukaryo
149 ure consisting of homogenous distribution of micron-scale and nanoscale alpha-phase precipitates with
150 e applications, they have limited utility in micron-scale applications due to restricted modulation r
151 mer assembly perturbs the formation of these micron-scale assemblies in vitro and Cnn-scaffold assemb
152 Impeding filopodia-mediated nucleation and micron-scale assembly of E-cadherin adhesion complexes b
153 formed by filopodia-mediated nucleation and micron-scale assembly of E-cadherin clusters, which coul
154 e DNA strand suspended between surface-bound micron-scale beads, quantum-dot tagged UvrA2 molecules b
155 of this important property is complicated by micron-scale beam sizes, and the presence of intense fie
156 ciated with actomyosin rings are expelled as micron-scale bundles containing multiple actomyosin ring
157 he silk gland of Bombyx mori silkworms, into micron-scale capsules with controllable geometry and var
158 initial activation of alpha-catenin requires micron-scale clustering that may allow the development o
161 le matrix protein BuGZ is sufficient to form micron-scale compartments that recruit and activate Auro
163 also use nanometer-scale components to sense micron-scale contours, such as the cytokinetic furrow an
166 areas of the plasma membrane where there is micron-scale curvature, including the cytokinetic furrow
167 ctric waveguides to free-space beams forming micron-scale diffraction-limited spots a designed distan
169 lopmentally regulated and cell-type-specific micron-scale domains within extrasynaptic somatodendriti
172 s that adhesion complexes, which can undergo micron-scale elastic deformation, regulate the coupling
173 nanoparticles and active microrheology using micron-scale ellipsoidal magnetic microparticles, in bot
174 n-uniform phase distribution, as well as the micron-scale essence of the spatial and temporal instabi
176 elf-assembly strategy for the preparation of micron-scale fibres and macroscopic films based on monod
177 ncrease the light collection efficiency from micron-scale fluorescent objects using self-assembled va
178 ilaments and molecular motors facilitate the micron-scale force generation necessary for the distribu
179 ls, the recovered specimen contains numerous micron-scale grains of a quasicrystalline phase displayi
181 ne oxide membrane leads to the opening up of micron-scale inter-lamellar voids due to the expansion o
182 structural organization can emerge from the micron-scale interactions of its constituent organisms.
184 um of electrons that have been affected by a micron-scale magnetic dipole, thus establishing that our
185 y neuropil, we report the first non-invasive micron-scale mapping of cerebral Po2 in awake, resting m
186 troduce a molecular-level fMRI technique for micron-scale mapping of serotonin transport in live anim
191 zation of GABAergic interneuron synapses and micron-scale organization of extrasynaptic membrane that
193 metal species were co-localized in the same micron-scale particles as result of corrosion processes
194 mena have come from colloidal systems, whose micron-scale particles mimic basic properties of atoms a
195 ronments, peptide nanotubes were confined by micron-scale pillars and subjected to monomer flows of v
196 novel proteomics technique for interrogating micron-scale regions of interest (ROIs) in mammalian tis
198 on in the dimensions of hypodermic needle to micron-scale size has gained tremendous interest among r
199 he pump-probe polarimetric measurements with micron-scale spatial resolution reveal the dynamics of t
200 A slightly longer version of the LZ can form micron-scale structures with CM2, whose assembly is stim
202 e function, but the mechanisms that organize micron-scale structures within cells are not well unders
203 en studied for both synthetic and biological micron-scale systems, a similar phenomenon was presumed
204 ated to be sufficient for pure propulsion of micron-scale therapeutics in magnetic resonance targetin
205 ron-injection detector allows utilization of micron-scale tunable laser sources (e.g. VCSEL) and elim
206 at phase-separate into a conglomerate of 100 micron-scale, helical nanofilament domains that differ i
207 hographically-induced strain relaxation in a micron-scaled device fabricated from epitaxial thin film
209 ing resolutions down to the single- and sub- micron scales, and when coupled with contrast-enhancing
210 the CFH risk -allele had a mean thickening (microns +/- SEM) of 66.9 +/- 70.4 versus a mean thinning
213 nsions of nanoparticles compared to those of micron size powders cannot be explained by current visco
214 within a few minutes of reaction and grew to micron-size aggregates after half an hour reaction.
215 andwich assay in which immune complexes link micron-size beads via DNA tethers to a sensor surface.
216 sts of calcite dissolution by slurry flow of micron-size calcite particles with acidified desalinated
217 "cross" supermicelles as kinetically stable, micron-size colloidally stable structures in solution.
223 tability of nano-CuO, nano-Cu, and Kocide (a micron sized Cu(OH)2-based fungicide) was investigated o
225 anotube (LFO/CNT) composites composed of sub-micron sized LFO and a nanocarbon with high electrical c
227 This study aimed to evaluate the effects of micron sized non-thermal atmospheric pressure plasma ins
228 (3-D) cell culture substrates decorated with micron sized pillar structures of variable aspect ratios
229 ct that most of diseases are originated from micron sized structures, an elastography imaging system
233 We have programmed the self-assembly of micron-sized colloidal clusters with structural informat
236 as biofuels and nutritional lipids, several micron-sized droplets were present already initially dur
239 on of nZVI resulted in the slow formation of micron-sized fibrous chukanovite (Fe2(OH)2CO3) particles
240 h only metallic starting materials, numerous micron-sized five-component icosahedral quasicrystals, a
241 e recorded position fluctuations of injected micron-sized fluorescent beads with kHz sampling frequen
242 proteins generating forces that scale with a micron-sized geometric feature, such as microtubule over
244 low-energy electron microscopy, we find that micron-sized graphene islands on Ir(111) rotate to a pre
245 ing lattice system and show that we can form micron-sized lattices, with well-formed structures up to
246 uch as carbon nanotubes and biopolymers have micron-sized lengths, so continuum descriptions are expe
253 ell, V-LFP was cycled against an inexpensive micron-sized metallurgical grade Si-containing anode.
254 , microneedle patches containing an array of micron-sized needles on an adhesive backing have been de
256 nvolve attaching the molecule of interest to micron-sized or larger force probes via compliant linker
257 Ultimately, plastic materials degrade to micron-sized particles (microplastics), which are persis
258 nd two differently sized magnetic particles (micron-sized particles acting as capture particles and n
259 ulation and persistence of non-biodegradable micron-sized particles in liver and spleen precludes the
261 re that involves implantation of radioactive micron-sized particles loaded with yttrium-90 (Y90) insi
262 d mechanical pulses in aqueous monolayers of micron-sized particles of controlled microstructure.
264 We employ this platform for the studies of micron-sized particles, viscoelastic monolayers of DNA a
266 The direct deformation and shape recovery of micron-sized polystyrene particles via nanoimprint litho
267 ateral growth of free-standing graphene over micron-sized pre-fabricated holes, opening exciting oppo
268 rmed on pristine and chemically-delithiated, micron-sized single crystals reveal the thermal behavior
269 cts of the Schrodinger-Newton equation for a micron-sized sphere trapped in a harmonic oscillator pot
271 ystallization in an emulsion droplet creates micron-sized superstructures, termed photonic balls.
272 er (ENM biosolids), (2) AgNO3, Zn(SO4)2, and micron-sized TiO2 (dissolved/bulk metal biosolids) intro
273 enic magnetite (Fe3O4) in the form of giant (micron-sized) spearhead-like and spindle-like magnetofos
274 enetration around the CGM to several hundred microns sought to reduce sensor fibrosis to extend CGM f
275 dered amorphous molecular materials forms at micron spatial resolution in the uppermost surface of a
276 ps will open opportunities for dating at sub-micron spatial resolution, thus, marking a step change i
278 re cross sections of samples maintaining sub-micron structures, an Ar2500(+)-gas cluster ion beam (GC
279 bstantially in size from a few nanometers to microns, suggesting that nonspecific interactions over a
282 Here we report polarization-insensitive, micron-thick, high-contrast transmitarray micro-lenses w
283 tedly transferred back and forth between sub-micron thickness crystalline layers of Si and LN bonded
284 Thermoelectric films of several tens of microns thickness were screen printed onto a flexible po
286 focused on providing this information in the micron to millimeter scale while ultrasound, X-ray, and
287 ptive' materials at the scale of hundreds of microns to a millimeter, each can be programmed by shape
289 standing of tableting across dimensions from microns to millimeters for the macrostrcuture of tablet.
293 celerators suffer from low bunch charge, sub-micron tolerances and sub-femtosecond timing requirement
294 lopment, as egg diameters range from tens of microns up to millimeters across animal phyla, and decre
295 a that are initially located several hundred microns ventrally from their future pre-synaptic partner
297 r of 2.2 +/- 0.2 nm and length up to several microns were successfully synthesized and purified using
298 increasing the antenna size into hundreds of microns, which makes reporting on an individual neuron i
299 requencies over large areas (several 10's of microns) with spatial resolution equal to amplitude-modu
300 ork highlights the importance of using a sub-micron x-ray beam to unravel the structures of poorly or
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