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1 iple cross-linking of the kag layers by each pillar.
2 ations should remain an important prevention pillar.
3 ntial to advance, and advocacy remains a key pillar.
4 surfaces, and 3D patterned surfaces such as pillars.
5 on and functionalization of the quadrangular pillars.
6 d by eight 1,4-bis(diphenylphosphino)benzene pillars.
7 ghter cells return to the confinement of the pillars.
8 roach while considering the d6Rs as building pillars.
9 , metal nanoantennas have been fabricated on pillars.
10 high-aspect-ratio shape-memory polymer (SMP) pillars.
11 to produce uniform high aspect ratio silicon pillars.
12 push into the otic vesicle and fuse to form pillars.
13 via stepwise depinning from the edge of the pillars.
14 ure of fusion to form the semicircular canal pillars.
15 1 with polycyclic aromatic hydrocarbon (PAH) pillars.
16 parated objects, like droplets, stripes, and pillars.
17 n change the pitch size of the silicon oxide pillars.
18 wo POM units linked by three {Mo(2)S(2)O(2)} pillars.
19 ally different on micron-scale and submicron pillars.
20 e cells by randomly varying the radii of the pillars.
21 holes to deform more substantially than the pillars.
22 ich they start to build a roof from existing pillars.
23 nanofluidic network comprising channels and pillars.
24 ace energy impedes the recovery of holes and pillars.
26 firmed by a scrambling experiment, involving pillar[5]arene and per-O-methylated resorcin[4]arene.
29 tent that the four conformational isomers of pillar[5]arene can be trapped on the dumbbell components
30 synthetic route to an A1/A2-difunctionalized pillar[5]arene containing resolvable planar chirality ha
33 ition to fixing the stereochemistries of the pillar[5]arene rings, the regiochemistries associated wi
34 f substrates in the active sites of enzymes, pillar[5]arene, a macrocycle containing five hydroquinon
35 amethylcyclopentadienyl and M=Ir or Rh) with pillar[5]arene, mono- and polynuclear pillar[5]arenes, a
38 hemical reduction of five partially oxidized pillar[5]arenes containing variable numbers (1-5) of qui
39 static potential revealed that the metalated pillar[5]arenes featured an electron-deficient cavity du
41 ional isomers of pentahydroxy-functionalized pillar[5]arenes via the deprotection of their benzylated
42 o D(5) symmetric pillar[5]arenes, asymmetric pillar[5]arenes with two different substituents in the 1
43 ) with pillar[5]arene, mono- and polynuclear pillar[5]arenes, a new class of metalated host molecules
45 embedded within the cavity of the trinuclear pillar[5]arenes, which is different to the host-guest be
48 ly influenced by the height and shape of the pillars, a feature that promotes both a variety of nontr
51 pyrazine square-grid layers with (NbOF5)(2-) pillars afforded the construction of a three-dimensional
52 ing acquired from the base to the tip of the pillars allows for detection of concentric wrapping obse
54 ct the formation of TFCDs on the top of each pillar and between neighboring pillars, leading to highl
55 at a cluster of sites in the junction of the pillar and bridge regions of Ku70 mediates the dissociat
56 to measure these dynamics on textured square pillar and irregular superhydrophobic surfaces at micron
57 We collected and analyzed the data taken on pillar and planar microcavity structures at continuous w
58 rystals (nanosheets) have been introduced in pillared and self-pillared (intergrown) architectures, o
64 tide nanotubes were confined by micron-scale pillars and subjected to monomer flows of various satura
65 d for the fractional surface coverage of the pillars and the transmittance of the pillars and referen
66 hod on various control samples, e.g., beads, pillars and validated its potential for biological inves
67 eatures, such as arrays of grooves, inclined pillars, and helical protrusions, have been shown to imp
76 , and local contractions between neighboring pillars are observed with a maximum displacement of appr
79 crometer plate heights using chromatographic pillar array columns filled with radially elongated diam
80 basis of our previous work on the design of pillar array columns for liquid chromatography, we repor
81 able a drastic reduction of the footprint of pillar array columns, allowing design of very long chann
83 or liquid chromatography, we report on a new pillar array design for high-efficiency, high volumetric
91 Deterministic lateral displacement (DLD) pillar arrays are an efficient technology to sort, separ
92 allenges in developing and utilizing ordered pillar arrays as a new platform for planar chromatograph
95 ramework deterministic or stochastic silicon pillar arrays formed by lithographic or metal dewetting
97 interacting with micrometer-scale elastomer pillar arrays presenting activation antibodies to CD3 an
98 es the fabrication and evaluation of ordered pillar arrays that are chemically modified for planar ch
99 ed high-speed pressure clamp and elastomeric pillar arrays to apply distinct mechanical stimuli to pr
101 t-ratio, open-platform, two-dimensional (2D) pillar arrays when coated with a thin layer of porous si
102 events occur, using a series of elastomeric pillar arrays with dimensions extending to the submicron
103 ubstrates, and high-resolution force-sensing pillar arrays, we find that knockdown of FHOD1 impairs s
106 re, using submicrometer polydimethylsiloxane pillars as substrates for cell spreading, we show that p
107 ing high modulus polyurethane acrylate (PUA) pillars as the support structure to maintain the structu
108 highly sensitive to the adhesion between the pillars, as determined by their surface chemistry and fu
112 with intrusion effects in low resolution 2D pillar-based methods or disruptive intermediate steps of
113 The main advantage of radially elongated pillar beds is that they enable a drastic reduction of t
114 Here, we demonstrate that FN is deposited as pillars between widely separated germ layers, namely the
116 s the hydrogel cupula and deflects the micro-pillar bundle, stretching the nanofibers and generating
121 ter droplet on the original or recovered SMP pillars can slide off the surface at a finite angle of i
122 anges in the shape and distribution of outer pillar cell and Deiters' cell phalangeal processes that
124 ieved in vivo conversion of two SC subtypes, pillar cells (PCs) and Deiters' cells (DCs), into HCs by
126 ed cells, including Deiters' cells (DCs) and pillar cells (PCs), coupled by gap-junctions composed of
127 on of connexin 26 in Deiters cells and outer pillar cells, which constrain outer hair cells standing
131 etal-organic frameworks (MOFs) with flexible pillars, [Cu2(glu)2(bpa)] and [Cu2(glu)2(bpp)] (bpa = 1,
134 Localization of myosin between submicron pillars demonstrates that submicron scale myosin filamen
135 nance of the directional alignment of the FN pillars depends on pulsatile blood flow through the dors
136 ng a micropillar array column with optimized pillar diameter (5 mum) and interpillar distance (2.5 mu
137 electron microscopy in order to measure the pillar diameter and pitch as well as analyze the pillar
140 he benzene dicarboxylate (BDC) linker in the pillared DMOF-1 [Zn2(BDC)2(DABCO)] structure is an effec
141 ure is predicted to occur in the core of the pillars during lithiation, the observed cracks are prese
142 ture on the electrode surface, the number of pillars each cell faces varies with its plasma membrane
143 tem favors the "pinning" of FCD centers near pillar edges while avoiding the opposing effect of confi
144 e types and the attraction of FCD centers to pillar edges, especially at regions of high curvature.
146 es that are optically excited in rectangular pillars etched into a semi-insulating silicon carbide su
147 illed with radially elongated diamond-shaped pillars, even when using a relatively large interpillar
148 mum spacing between surface structures (i.e. pillars fabricated on the microchannel wall) in boiling
152 dentified a new mechanism contributing to FN pillar formation by focusing on cyclic expansion of adja
153 abolished the FN pillars, indicating that FN pillar formation is dependent on the basal filopodia thr
154 ng primarily resisted by nanoscale aragonite pillars from the following sliding resisted by various m
162 olefin metathesis from occurring between the pillars in the presence of the first generation Hoveyda-
163 talin in the somitic cells abolished the FN pillars, indicating that FN pillar formation is dependen
164 robe utilizes a special design with vertical pillars inside the channel to minimize mechanical pertur
165 s) have been introduced in pillared and self-pillared (intergrown) architectures, offering improved m
170 ls that break the underlying symmetry of the pillar lattice, exhibit tunable eccentricity, and togeth
171 atoms and it provides the first example of a pillared-layered carbon nitride material that combines t
172 three-dimensional copper(II) glutarate-based pillared-layered metal-organic frameworks (MOFs) with fl
173 mework flexibility of an important family of pillared-layered MOFs based on the parent structure [Zn(
175 e top of each pillar and between neighboring pillars, leading to highly ordered square and hexagonal
176 tions related to the exchange of metal ions, pillar ligands and insertion of additional ligands betwe
180 ion and bosonic lasing regimes in planar and pillar microcavities with optical and electrical pumping
181 ule-organizing centre of the cilium and the 'pillar' microtubules, and that this network is instrumen
182 trated that the 24C6 macrocyclic ring of the pillared MIM strut is now free enough to undergo full ro
183 particular, for UWDM-3 the 24C6 rings of the pillaring MIM are positioned directly inside the square
187 nker and a disulfide to a stable beta-ribbon pillar near the center of the platform, can undergo rema
189 orate risk factor modification as the fourth pillar of AF care in conjunction with established pillar
192 of the magnetization within a soft magnetic pillar of diameter 5 micrometres with a spatial resoluti
195 ill require clinicians to integrate this new pillar of medicine with chemotherapy, radiation, and tar
196 ntial, published 60 years ago, are a central pillar of modern neuroscience research, ranging from mol
198 ity, and implementation, and propose a fifth pillar of research activity to stimulate improvement of
210 available evidence for the four WHO strategy pillars of policy, education, drug availability, and imp
212 r of AF care in conjunction with established pillars of rate control, rhythm control, and anticoagula
214 development are discussed in terms of the 3 pillars of survival in drug development, the first of wh
215 nt developments in LCA that aim to cover all pillars of sustainability (people, planet, and profit).
218 maleimide groups decorating the isophthalate pillars of the prisms provide reactive sites for post-se
222 ased on microfluidic cells made of arrays of pillars on a regular grid, and complement these experime
223 cells around an acute corner of a triangular pillar or of a bifurcation, leads to the enhanced deposi
225 series of isostructural, noncatenated, zinc-pillared-paddlewheel metal-organic framework materials h
227 -mum diameter pillars, adhesions form at the pillar periphery, forces are directed toward the center
228 f-magnitude larger than that achieved with a pillar phononic crystal of the same size, enabling effec
229 seen to be as high as 20 for four metal(IV) pillared phosphate phosphonate inorganic organic hybrid
232 ing the 5C.C7 TCR exerted traction forces on pillars presenting peptide-loaded MHCs that were similar
236 od consists of droplets suspended on plastic pillars; reactions occur in these droplets instead of th
237 We investigate here on the transdisciplinary pillars related to the modeling of LCIA on ES by conduct
239 is uniformly filled with radially elongated pillars (REPs), can produce the same separation performa
240 If generating sufficient force to deform the pillars, rounding epithelial (MDCK) cells can create spa
242 h hgDNA584 leads to a dramatic change of the pillar scale due to hgDNA584 filling inside the 2DPRG la
243 d bed columns filled with radially elongated pillars, separation efficiencies corresponding to N = 16
244 ar diameter and pitch as well as analyze the pillar sidewalls after etching and stationary phase func
247 variations such as change in dead volume and pillar size within the lateral channels within the LFMC
248 layer (e.g. grain boundaries) act as bridge-pillar spots that enable the epitaxial growth of STO thi
249 rption studies on four primitive cubic, pcu, pillared square grid materials: SIFSIX-1-Cu, SIFSIX-2-Cu
250 tal-organic framework H(2)O@iso1 featuring a pillared square/octagonal layer structure with alternati
252 ) (i.e., 2D four-building units) and a novel pillaring strategy based on four proximal isophthalate l
253 ntered to investigate the individual role of pillar structure pitch at millimeter scale, named as mod
256 ts reveal that the nanostructures and porous pillar structures can be combined together to achieve ev
257 lture substrates decorated with micron sized pillar structures of variable aspect ratios and dimensio
258 to the formation of black silicon with fine pillar structures, whose aspect ratio are approximately
259 chanically interlocked molecule (MIM) as the pillaring strut between two periodic Zn-carboxylate laye
260 the size of focal domain to the dimension of pillars such that the system favors the "pinning" of FCD
261 t optical components, we employ arrays of Au pillar-supported bowtie nanoantennas as a template struc
262 tographic film, we show that arrays of gold, pillar-supported bowtie nanoantennas could be used in a
264 Cu nanocavity surfaces, solid and porous Cu pillar surfaces, and the integrated multiscale structure
266 iscrete brachial regions referred to as "arm pillars" that expand and cover Sof-pax3/7-negative head
267 ng a large-scale pattern of regularly spaced pillars, the formation and merging of caps over the pill
268 For fully transparent or semitransparent pillars, the measured absorbance was successfully correc
269 detectable displacement on 0.5-mum diameter pillars, there is a correlation between local contractio
272 eam of a pillar, we can sequentially arrange pillars to apply the associated nested maps and, therefo
273 Cu nanocavities are coated on the porous Cu pillars to create a multiscale Cu structure, which is st
276 avior depends on the capacity of the organic pillars to transmit long-range magnetic interactions.
277 -mum diameter pillars, adhesions form on the pillar tops, and local contractions between neighboring
278 nes) would therefore constitute an important pillar towards a physical mechanism of biological signal
279 ed tools, including micro-to-nanoscale metal pillars, transistor-based kinked nanowires and nanotube
280 phase IIb, double-blind, placebo-controlled PILLAR trial investigated the efficacy and safety of two
282 al deletion and molecular mimicry, two major pillars underlying our present understanding of autoimmu
283 present the first examples of axial-to-axial pillared undulating kag layers, and they are readily fin
285 olyacrylamide gels (FN-PAG) and on FN-coated pillars used as a micro-force sensor array (muFSA), and
286 id elements from upstream to downstream of a pillar, we can sequentially arrange pillars to apply the
288 y or the other in solution instead of on the pillars, we show that force generation is associated wit
289 use of high aspect ratio radially elongated pillars which are 15 times wider in the radial than in t
291 hexadecyl trimethylammonium cation (HDTMA), pillaring with Al/Fe containing polyhydroxy cations and
292 al plate height compared to beds filled with pillars with a similar interpillar distance but with an
294 ations during uniaxial deformation of copper pillars with different orientations and is further valid
295 scale processes to create silicon nanoscale pillars with dimensions that can be tuned to maximize fl
296 ng bundled polydimethylsiloxane (PDMS) micro-pillars with graded heights and electrospinning polyviny
299 tions around a library of single cylindrical pillars within a microfluidic channel and assemble these
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