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1 th required for landslide initiation in each hollow.
2 ough a cell-culture substrate, incorporating hollow 150-nm-diameter nanostraws (NS) within a defined
3                                The solid and hollow 2D micelles provide a tunable platform for furthe
4 ew nanozyme was spherical (Rg/Rh=0.785), and hollow (60% water composition) nanoparticles with colloi
5  The MCF10A cell line differentiates to form hollow acini when grown in Matrigel, and expression of L
6 formed large, lobular structures rather than hollow acini.
7 ical nanolattices; (ii) recoverability, with hollow alumina samples recovering up to 98% of their ori
8 blast-stage hPSCs form spheroids surrounding hollow, amniotic-like cavities.
9  empty BMC variants are shown to be smaller, hollow and less malleable.
10 ollagen and laminin gels proliferate to form hollow and polarized spherical structures, recapitulatin
11 st hollow sites and the rotation at both the hollow and the bridge sites.
12 herbaceous plant-mediated CH4 emissions from hollows and hummocks also were measured, thus enabling a
13 ses being anionic, nonaggregating, abundant, hollow, and uniform in size, while effectively mediating
14 nto discrete, concentrated patches in barrel hollows, and the complexity of the dendritic branches in
15 demonstrated that, as predicted, spectrin is hollow at its biological resting length of ~55-65 nm.
16 rategy to dope single atoms of Ag or Cu into hollow Au nanoclusters, creating precise alloy nanoparti
17  that the single dopant is shuttled into the hollow Au24 nanoparticle either through the apex or side
18                             Microtubules are hollow biopolymers of 25-nm diameter and are key constit
19  inflicted (711 [87%] of 817) and involved a hollow-bore device (464 [56%] of 824).
20     Transcutaneous injection through smaller hollow-bore needles may decrease patient discomfort, but
21  from penetrating injuries with freshly used hollow-bore needles, developed Ebola virus disease.
22              We have succeeded in developing hollow branching structure in vitro commonly observed in
23   We calculated the failure potential of 283 hollows by comparing colluvium depths to the minimum (cr
24     Along with the structural novelty, these hollow cages show highly selective adsorptions for CO2 o
25 rolysis of the MOF-shell composites produces hollow capsules of porous nitrogen-doped carbon that bea
26                                          The hollow capsules prevent sintering and detachment of the
27 oted on the exterior surfaces of micro-sized hollow carbon cubes while other Sn nanoparticles are enc
28 e other Sn nanoparticles are encapsulated in hollow carbon cubes.
29                              The coupling of hollow carbon nanospheres with triblock copolymers is a
30  carbon framework, interconnected mesoporous hollow carbon nanospheres, is reported as an effective s
31 oped nanoporous carbons, carbon nanotubes or hollow carbon onions have been synthesized by a one-step
32 gen-substituted diamantane precursors in the hollow cavities of carbon nanotubes.
33                                          The hollow cavities of coordination cages can provide an env
34 rared absorption to plasmonic component, the hollow cavity and the pores in the outer shell can also
35             As expected, the introduction of hollow cavity between the magnetic and plasmonic portion
36 ured MPHNs comprising a Fe3 O4 core within a hollow cavity encircled by a porous Au outer shell are d
37 tructures (YSNs) composed of a core within a hollow cavity surrounded by a porous outer shell have re
38 oup; n = 161), a metal rod inserted into the hollow center of the tibia, vs locking plate fixation (p
39 ttle failure and structural instabilities in hollow ceramic hierarchical nanolattices; and (iv) a ran
40 om three material systems: (i) polymer, (ii) hollow ceramic, and (iii) ceramic-polymer composites tha
41 r folding) assembly, the open structure of a hollow-channel paper analytical device to accommodate mi
42     Herein, we describe the synthesis of new hollow Chevrel-phase NiMo3 S4 and its alkaline hydrogen
43 ncement in S compared with the properties of hollow CNTs at room temperature.
44              Natural abundance (12)CO2 forms hollow CNTs, while equivalent synthetic conditions with
45 l sacrificial-template strategy to fabricate hollow Co3 O4 microtube arrays with hierarchical porosit
46  progressed in various modifications such as hollow, coated, dissolving and hydrogel forming micronee
47 nt coupling into the TEM waveguide mode in a hollow coaxial THz waveguide.
48 Because of their unique stacked, cup-shaped, hollow compartments, nitrogen-doped carbon nanotube cups
49  The chaperonins (CPNs) are megadalton sized hollow complexes with two cavities that open and close t
50  beam is ejected in a 30 degrees -60 degrees hollow cone, which is filled with more energetic electro
51 lass of metallo-supramolecular molecules are hollow coordination cages that provide cavities of molec
52  drug and hydroxypropyl cellulose within the hollow core of the ring.
53  elaborate FERS setup with a microstructured hollow core photonic crystal fiber (HCPCF) provided a hi
54                             Several types of hollow core photonic crystal fibers were thoroughly anal
55 4 capsids have a wiffle-ball geometry with a hollow core, the observed change in current due to the c
56                                 Furthermore, hollow core-shell tetrapod ZnS@CdS heterostructures were
57 notubes due to capillary aspiration into the hollow core.
58 iNSs), which consist of a porous shell and a hollow core.
59 align in rings and radiate from the (usually hollow) core of the seed.
60 how through two independent experiments that hollow-core photonic bandgap fibres have a significantly
61                                   Gas-filled hollow-core photonic crystal fibre is being used to gene
62 ly self-nanostructured molecular hydrogen in hollow-core photonic crystal fibre.
63 power.Dispersive wave emission in gas-filled hollow-core photonic crystal fibres has been possible in
64 nostructures, synthetic approaches for their hollow counterparts are limited, largely confined to che
65                          We also show that a hollow cross-linked polymer cage can be obtained after d
66  tile units that spontaneously assemble into hollow, crystalline nanotubes in water.
67 ping, the shape of Pd17Se15 transformed into hollow cubes.
68 : at shorter molecular lengths spectrin is a hollow cylinder that extends by increasing the pitch of
69 ic scattering cancellation shell for buoyant hollow cylinders submersed in a water background.
70 d exposed hydrophobicity, they all possess a hollow cylindrical architecture with similarities to cer
71 attering, the compliant coating results in a hollow cylindrical inclusion that is simultaneously impe
72  the monolayer, which then reconfigures into hollow cysts.
73 vent for PLLA led to the formation of novel, hollow diamond-shaped assemblies.
74 quency modes bounded at the peripheries of a hollow disk.
75 orous Cu/Cu2O/Cu dented cubic composites and hollow eightling-like Cu microparticles.
76      SAXS data suggested a global shape of a hollow elliptical cylinder of size hexa-, hepta-, or oct
77 d performance and stability using so-called "hollow" ethylenediammonium and methylammonium tin iodide
78 ospheres to AgAu nanocages; importantly, the hollowing event cannot be explained by the nanoscale Kir
79         On the basis of a thin polypropylene hollow fiber (50 mum of wall-thickness and 280 mum i.d.)
80                                         Both hollow fiber and flat sheet FO membranes were tested and
81 i-tumor activity of TIR-199 was confirmed in hollow fiber assays in mice.
82 rmination of Pb(II) in aqueous samples using hollow fiber based solid-liquid phase microextraction (H
83 e model predictions were validated using the hollow fiber infection model (HFIM) system.
84 rgistic (alpha = 2.475), as was shown in the hollow fiber infection model.
85 o be a promising combination in our in vitro hollow fiber infection model.
86 iquid membrane immobilized in the pores of a hollow fiber into 20 muL of the acceptor solution.
87   This study describes a combination between hollow fiber membrane and dispersive liquid-liquid micro
88 trated that the permeation properties of the hollow fiber membrane can be facilely tailored via manip
89                                            A hollow fiber membrane system was evaluated to extract RE
90 ly permeable poly(ether sulfone) (PES) based hollow fiber membrane was developed via a one-step dry-j
91                        For the first time, a hollow fiber membrane was used in removing the ultrafine
92                   Analytes diffuse through a hollow fiber membrane, where they are then dissolved by
93                 The newly developed tight UF hollow fiber membranes display huge potential for treati
94 -nm thick, layered graphene oxide (GO)-based hollow fiber membranes with grafted, brush-like CO2-phil
95                                     Novel UF hollow fiber membranes with well-defined nanopores and s
96 hesized and engineered into high-performance hollow fiber membranes.
97 eactor (MBfR), with methane supplied through hollow fiber membranes.
98 are used to form nanoparticle-functionalized hollow fiber membranes.
99 lvent was placed into a polypropylene porous hollow fiber segment supported by capillary forces and s
100 cross section can be prepared in one step by hollow fiber spinning, double mantle spinning or centrif
101                             We then used the hollow fiber system (HFS) model of intracellular tubercu
102 ed an exhaustive review of literature on the hollow fiber system (HFS) model, murine model, and guine
103                                 The in vitro hollow fiber system model has been qualified by the Euro
104      We performed a series of studies in the hollow fiber system model of intracellular Mycobacterium
105 ifloxacin was found to be efficacious in the hollow fiber system model of pediatric intracellular tub
106                                 The in vitro hollow fiber system model of tuberculosis (HFS-TB) is ab
107                                          The hollow fiber system model of tuberculosis (HFS-TB) is de
108                                 The in vitro hollow fiber system model of tuberculosis (HFS-TB), in t
109                                          The hollow fiber system model of tuberculosis (HFS-TB), in t
110 uestions: in vitro susceptibility tests, the hollow fiber system model of tuberculosis, mice, and gui
111 ed THP-1 macrophages with Mtb and inoculated hollow fiber systems.
112 uld be easily achieved when the self-support hollow fiber was challenged with less than 300 nm partic
113 a graphene oxide-silica composite reinforced hollow fiber was prepared via sol-gel technology and use
114 phoresis and size-exclusion chromatography), hollow-fiber flow FFF coupled with MALS allows a flow-ba
115      Herein we describe a protocol that uses hollow-fiber flow field-flow fractionation (FFF) coupled
116 ds, such as tangential flow filtration using hollow-fiber membranes, suffer from membrane fouling, le
117  degrees C) pyrolysis of polyimide precursor hollow-fiber membranes.
118    Electrically conductive, graphene-coated, hollow-fiber porous membranes were used as cathodes in a
119                                 The tight UF hollow fibers also exhibit robust performance in a conti
120 e latest advances in the manufacture of M(4) hollow fibers are discussed.
121             Flexible composite polymer/oxide hollow fibers are used as flow reactors for heterogeneou
122 exclusion and charge repulsion, the novel UF hollow fibers can effectively remove various dyes with i
123                 The newly developed tight UF hollow fibers not only possess a small mean pore diamete
124                         The polyethersulfone hollow fibers used, which have a 0.8-mm inner diameter,
125 talline membranes were fabricated on alumina hollow fibers using an in situ solvothermal synthesis me
126                   Alumina- and stannia-based hollow fibers were synthesized via simple sol-gel proced
127 east milk samples were used to apply alumina hollow fibers, as a proof of concept.
128 tration of five 5'-mononucleotides using the hollow fibers.
129  For upscale applications, GO membranes in a hollow fibre geometry are of particular interest due to
130                               Defect-free GO hollow fibre membrane was successfully determined and th
131                  We demonstrate here that GO hollow fibre membranes can be stabilised by using a poro
132 ial layer, which creates a space between the hollow fibre substrate and the GO membrane thus allowing
133  were found unstable in dry state on ceramic hollow fibre substrates, mainly due to the drying-relate
134 rane tank after coagulation and the use of a hollow-fibre membrane coated with/without MnO2 nanoparti
135 llin (FliC) proteins after they traverse the hollow filament and exit the growing flagellum tip.
136                            Heterogeneous and hollow filaments can be printed using this strategy, all
137 activity of Co-NGC shells into the robust NC hollow framework with enhanced diffusion kinetics, exhib
138 g a near-infrared-radiation (NIR) responsive hollow gold nanoparticle (HGNPs) to achieve sequential r
139 inical practice, was coated to monodispersed hollow gold nanoparticles with a diameter about 120 nm,
140 uman embryonic stem cells is developed using hollow gold nanoshells (HGNs) and near-infrared (NIR) li
141 ox)-loaded, polyethylene glycol (PEG)-coated hollow gold nanospheres (HAuNS) mixed with ethiodized oi
142  is presented, upon insertion into shortened hollow graphitized carbon nanofibers (PtNP@S-GNF) toward
143 d composition, resulted from assembly of two hollow halves through a joint also acting as a partition
144 e close to their critical depth, with 62% of hollows having soils that are too thin to fail.
145 ble doping level of 3.12x10(14) cm(-2) , the hollow hexagon concentration in the ground state of 2D b
146   The numerical result for the dependence of hollow hexagon concentration on the doping level is well
147 neral strategy for the preparation of large, hollow high-symmetry structures.
148                           Native TMV forms a hollow, high aspect-ratio nanotube measuring 300x18nm wi
149                    That accomplishment rings hollow, however, if blacks continue to live in much poor
150 formation of small (0.5-20 mum in diameter), hollow, hydroxyapatite (HAP) spherules in Bruch's membra
151 oy is irregular polygonal shape with several hollows in the center and gaps on the edge.
152 The edgeless Ag-Pt bimetallic nanocages with hollow interior performed newly plasmon-induced effects,
153 ion of the HNPs is blue-shifted owing to the hollow interior.
154 of micro- and nanometer-sized materials with hollow interiors as solid catalysts.
155 ed here we demonstrated by observation of KK hollow ions that X-ray intensities in the keV range exce
156  are invisible to the unaided eye but retain hollow laminin-rich tubular structures.
157  matrix detached cells, restoring the normal hollow lumen morphology in Vitamin E treated organoids.
158 he only modification that takes place in the hollow lumen of the microtubule.
159 ystem, containing a geometrically-engineered hollow lumen, with adaptability to both large and small
160  First, the main synthesis strategies toward hollow materials are succinctly summarized, with emphasi
161 the scientific and technological interest in hollow materials as solid catalysts, or catalyst carrier
162 developed by converting the algae cells into hollow mesoporous bio-hydrochar microspheres via hydroth
163                                     By using hollow mesoporous organosilica nanoparticle (HMON) as a
164 articles on the surface of [(89) Zr]-labeled hollow mesoporous silica nanoshells filled with porphyri
165 d a number of times to gradually inflate the hollow metal nanocrystals, producing nanoshells of incre
166 sformation from solid metal nanoparticles to hollow metal oxide nanoshells via a nanoscale Kirkendall
167 tions in polymeric nanoparticles to generate hollow metal-organic nanoparticles (MOPs).
168 dergoes photo-induced reactions and produces hollow metal-oxide nanospheres (Ni0.18 Mn0.45 Co0.37 Ox
169 le and scalable synthesis and utilization of hollow micro- and nanostructures as solid catalysts.
170 spite of recent advances in the synthesis of hollow micro/nanostructures, the fabrication of three-di
171 multilayers (PEM) thin films having array of hollow microchambers produced from a layer-by-layer self
172                                            A hollow microneedle (HM) was prepared to deliver a phenyl
173  therefore shown, for the first time, that a hollow microneedle device can facilitate efficient and r
174 y is the first to explore the potential of a hollow microneedle device for the delivery and subsequen
175 administration of these microspheres using a hollow microneedle was performed in the eye of New Zeala
176 sor makes use of an array of silicon-dioxide hollow microneedles that are about one order of magnitud
177 gh the perianal skin with minimal pain using hollow microneedles, resulting in the increase of restin
178                                      Polymer hollow microparticles (PHMs) are thin-walled, hollow pol
179 rk proposes an ultrasensitive ROS-responsive hollow microsphere (HM) carrier that contains an anti-in
180                                          The hollow microspheres were used as microreactors and carri
181                                        These hollow MOPs are synthesized from self-assembled polymeri
182 erlying mechanism for the formation of these hollow MOPs has been proposed.
183 ire as the substrate for the CVD growth of a hollow multilayer graphene tube, we prepared a macroscop
184 The key to success in producing monometallic hollow nanocrystals is the effective extraction of phosp
185  Ni precursors such that either a completely hollow nanoframe or a new architecture, the excavated na
186 han Pt/C, and twice the mass activity of the hollow nanoframe.
187 ates that the high ORR activity of the Pt3Ni hollow nanoframes depends on successful formation of the
188                         This thermosensitive hollow nanoparticle system provides an excellent platfor
189 , there are no examples of lead chalcogenide hollow nanoparticles (HNPs) with controlled diameter and
190                              The drug-loaded hollow nanoparticles were effective at delivering a ther
191                         Hierarchical NiCo2O4 hollow nanorods (HR) were directly grown on stainless st
192                           Membrane nanopores-hollow nanoscale barrels that puncture biological or syn
193                  The release of O2 creates a hollow nanostructure with Li2O outer-shell and Li2O2 inn
194 all effect has been recently used to produce hollow nanostructures by taking advantage of the differe
195 any applied electric field and post etching, hollow nanostructures can be directly fabricated on GaAs
196  is beneficial yet challenging to synthesize hollow nanostructures in large quantities, with high por
197  will pave the way for the implementation of hollow nanostructures in other fields.
198 lloidal processing route for Bi2 Te2.5 Se0.5 hollow nanostructures.
199           Low-cost, single-step synthesis of hollow nanotubes of N-doped carbon deposited on CoS is e
200              The Shigella T3SS consists of a hollow needle, made of MxiH and protruding from the bact
201        Scanning electron microscopy revealed hollow needle-shaped particle ultrastructure, with a zet
202              We demonstrate the formation of hollow nickel germanide nanostructures of Ni-Ge core-she
203  or bimetallic nanoparticles confined within hollow nitrogen-doped porous carbon capsules.
204 pens new avenues toward the shape control of hollow NPs beyond the morphology of sacrificial template
205 ro-rolls and artificially reconstructed into hollow or fibre-shaped cellular 3D constructs that posse
206 icro-patterned PEC films containing array of hollow or filled microchambers by one-step casting with
207  regardless of whether they were situated in hollows or hummocks.
208 rous on the nanoscale, and either nonhollow, hollow, or spongy on the microscale.
209                               The tissues of hollow organs can routinely stretch up to 2.5 times thei
210 rgans can be complex and multiaxial, e.g. in hollow organs.
211  material, these new specimens reveal large, hollow, osseous nasal crests: a craniofacial novelty for
212 entral filaments in the bundle, leading to a hollowed-out structure.
213 od crustacean that consists of 6-8 layers of hollow, ovoid vesicles with principal axes of ~550 nm, ~
214  transform solid palladium nanocrystals into hollow palladium nanocrystals through insertion and extr
215 nked covalent organic network in the form of hollow particles or nanosheets.
216 emonstrate a method for creating an extended hollow plasma channel and measure the wakefields created
217                                              Hollow plasma channels have been proposed as a technique
218                The stepwise self-assembly of hollow plasmonic vesicles with vesicular membranes conta
219                  The voltammetric label is a hollow polyelectrolyte shell containing approx. 1.0x10(1
220 ollow microparticles (PHMs) are thin-walled, hollow polymer microcapsules with tunable nanoporous she
221                                   Bimetallic hollow, porous noble metal nanoparticles are of broad in
222 anges associated with the typically observed hollowing process.
223                            Protein cages are hollow protein nanoparticles, such as viral capsids, vir
224 m perforated platelets, such as well-defined hollow rectangular rings.
225 ling a single Ag or Cu atom into a centrally hollow, rod-shaped Au24 nanoparticle, forming AgAu24 and
226 ing an introvert with pentaradially arranged hollow scalids.
227 on of the reflection using shape-anisotropic hollow scatterers is unlike any optical structure previo
228 drogels, is developed for the fabrication of hollow self-folding tubes with unprecedented control ove
229 hesis of composite structures of metal alloy hollow shells encapsulated by TMH nanosheets, which show
230 t these artificial capsids assemble as 20-nm hollow shells that attack bacterial membranes and upon l
231 rent caped mesoporous silica particles (i.e. Hollow Silica Shells, MCM-41, SBA-15 and UVM-7) to dose
232 e synthesis of multifunctional submicrometer hollow silica spheres (smHSSs) using microfluidic spiral
233 cancer (CRC) cell line (HCA-7) formed either hollow single-layered polarized cysts or solid spiky mas
234 lsions, from which yolk-shell and dual-shell hollow SiNPs@C composites are produced via polymerizatio
235 mediate on the high density of uncoordinated hollow-site C atoms with respect to the Co lattice in th
236 ion of the CoPc molecule between the nearest hollow sites and the rotation at both the hollow and the
237 dCuM NPs stems from the catalytically active hollow sites arising from the ligand effect and the comp
238 ly adsorbed on the top, bridge and threefold hollow sites of Au(111).
239 simulations reveal that the active threefold hollow sites on the platinum-rich high-index facets prov
240  temperatures >160 degrees C, CO adsorbed on hollow sites, and atomic carbon and OH species are prese
241 ements creates unique copper-copper-titanium hollow sites, which have a hydrogen-binding energy very
242                      Our data show that most hollow soil depths are close to their critical depth, wi
243                 Fish oil was encapsulated in hollow solid lipid micro- and nanoparticles formed from
244  process causes not only an extension of the hollow space of the host but also a shrinking of the inc
245 ymmetric microporous shells combine with the hollow space to promote gas transport, and the unique so
246 issue source to enable the reconstruction of hollow sphere-shaped tissues and organs from single-cell
247  network forms either uniform self-templated hollow spheres (HS) or hollow tubes (HT).
248 ty, here, processing of 2D MXene flakes into hollow spheres and 3D architectures via a template metho
249                                    The MXene hollow spheres are stable and can be easily dispersed in
250                           Uniform Na2 Ti3 O7 hollow spheres assembled from N-doped carbon-coated ultr
251 zes and morphologies of as-prepared Gd2O2SO4 hollow spheres could be deliberately controlled by adjus
252                                 The Gd2O2SO4 hollow spheres have a mean diameter of approximately 550
253                            Eu-doped Gd2O2SO4 hollow spheres have also been prepared for the property
254     Uniform gadolinium oxysulfate (Gd2O2SO4) hollow spheres were successfully fabricated by calcinati
255 aper, AuNPs@Polyethyleneimine-derived carbon hollow spheres were synthesized by a versatile and facil
256 (DC) could be achieved for Eu-doped Gd2O2SO4 hollow spheres.
257 ating network of exfoliated sheets, defining hollow spheres.
258  by translocation of Fe(II) from outside the hollow spherical shape structure of the protein, which i
259             Its flattened body is covered by hollow spinose sclerites, and a smooth, ventral girdle f
260 thod with a specific case, using an array of hollow steel cylinders coated with thin silicone rubber
261  this study, DNA tetrahedron (DNA TH) with a hollow structure is anchored on gold electrodes to const
262                                          The hollow structure of the nanotubes suggests a role for wa
263            The mixed-valence metal oxide and hollow structure provided high chemical reactivity and a
264  domains II and IV are juxtaposed, forming a hollow structure that excludes external solvent access t
265                         By making use of the hollow structure, small pores, and high density of heter
266 llic alloy oxidation is key to the design of hollow-structured binary oxides and the optimization of
267 les are also given on the applications which hollow structures find in the emerging fields of electro
268 g material architectures and applications of hollow structures in all branches of catalysis, includin
269                                              Hollow structures with high complexity in shell architec
270 portance of rational design and synthesis of hollow structures with higher complexity.
271 ssfully fabricated by surface engineering of hollow structures with suitable corona and canopy specie
272 f tunable Janus particles possessing diverse hollow structures with various functionalities.
273 of Pd, change in shape, and formation of the hollow structures.
274                                We designed a hollow support structure using 3D DNA origami to protect
275 ng sequence on a single helix that spans the hollow support structure, we also sought to control the
276                                              Hollow thermoresponsive poly(N-isopropylacrylamide) (pNI
277 in films (modified electrodes) consisting of hollow three-dimensional hexagonally packed crystals wit
278  crack by dissolving the glue that holds the hollow tip together.
279  to monitor the growth and oscillations of a hollow tissue spheroid growing freely or when confined.
280 ethod, we observe nanostructures surrounding hollow tracts that exist in human dentine forming dentin
281   The mu-plasma jet consists of micron sized hollow tube in which pure helium gas is ionized by high
282                           We discovered that hollow-tube alumina nanolattices with 3D kagome geometry
283 niform self-templated hollow spheres (HS) or hollow tubes (HT).
284         Microtubules, the dynamic, yet stiff hollow tubes built from alphabeta-tubulin protein hetero
285  a mechanism analogous to the ovalization of hollow tubes enables us to predict quantitatively this n
286                        The N-doped carbon in hollow tubes of CoS provides a high-capacity anode of lo
287 the complex were twinned and have an unusual hollow tubular morphology that is likely to result from
288 ials, 2) a sacrificial template for creating hollow tubular structures, and 3) a precursor for in sit
289 of the current approaches is the printing of hollow tubular structures.
290 graphite networks, built from interconnected hollow tubular tetrapods of multilayer graphene, are ult
291 such as bilayer sheets, helical ribbons, and hollow tubules are potentially useful but inherently uns
292                                            A hollow tungsten sphere was interrogated to evaluate the
293 assembled materials with tailorable solid or hollow two-dimensional (2D) structures represents a majo
294                                              Hollow vesicular tissues of various sizes and shapes ari
295 em, with particular focus on damage control, hollow visceral injury (HVI), and stoma utilization.
296 siological and pathological roles of Pirt in hollow viscus are largely unknown.
297 onduit, i.e., so-called substrate-integrated hollow waveguide (iHWG) optically coupled to a compact F
298 y isolated attosecond pulses in a gas-filled hollow waveguide using synthesized few-cycle two-color l
299  and SO2 via coupling a substrate-integrated hollow waveguides (iHWG) serving as a highly miniaturize
300                   To this end, pH-sensitive, hollow ZnO-nanocarriers loaded with paclitaxel were synt

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