ライフサイエンスコーパス: sphere

1 tion (associated with the outer coordination sphere).

2 h interactions in the secondary coordination sphere.

3 2)H, within a metal's secondary coordination sphere.

4 ements and changes to the metal coordination sphere.

5 (H)] cofactor in its functional coordination sphere.

6 e used to infer the location and size of the sphere.

7 ived less attention than in the human health sphere.

8 ased design of functionalized polymer/carbon spheres.

9 y of docetaxel-resistant and patient-derived spheres.

10 for colloidal polymer derived porous carbon spheres.

11 deviate from random loose packings for hard spheres.

12 eraction of Mie resonances in the individual spheres.

13 the smallest spheres to 98% for the largest spheres.

14 produces single-handed chiral supramolecular spheres.

15 esonant elements, e.g. high index dielectric spheres.

16 ility and their ability to form colonies and spheres.

17 molecular gel formulated inside discrete gel spheres.

18 d their proliferation and formation of panco spheres.

19 0.1 vs 1.04 +/- 0.2) (P = 0.0001), residual sphere (- 0.01 +/- 0.2 vs + 0.29 +/- 0.7 vs + 0.27 +/- 0

20 7 radiomic features related to the 4 largest spheres (17-37 mm) in the phantom.

21 eveals dense accumulations of organic-matter spheres (30-50 mum diameter) of probable algal cyst orig

22 copolymer composition can form well-defined spheres (4 degrees C), worms (22 degrees C) or vesicles

23 > 2.49 based on deviation from a perfect 3D sphere, a 92.7% in-sample and 91.2% out-of-sample accura

24 The diameter of these spheres adapts to the cell diameter at each position.

25 1h corroborate C-N bond formation via outer-sphere addition.

26 to the encounter rate between (equal volume) spheres aggregating either by differential settling or d

27 lly steer solid objects (3-mm-diameter glass spheres), along preprogrammed paths, in a water bath, an

28 The Ti sphere also served as a conductive electrode for applyin

29 through the assembly of T-shape polymer-rod-sphere amphiphiles in the bulk state.

30 ated with SE (spherical equivalent; combined sphere and 1/2 cylinder) (p = 0.031, Spearman's rho 0.23

31 n the interplay between the secondary ligand sphere and catalytic cofactor.

32 tual and i.Scription refractions on both the sphere and cylinder values [(t = 3.12, p < 0.01), (t = 5

33 ificant differences found when comparing the sphere and cylinder values between the habitual and subj

34 ctive outcome showed a reduction of residual sphere and cylinder.

35 ysis has greatly focused on the coordination sphere and electronic effects for the design of function

36 zing the pretreatment parameters using outer-sphere and inner-sphere redox couples, we measured pH by

37 ted reasoning that now prevail in the public sphere and offer an actual example of how clearly stated

38 The mean sphere and spherical equivalent values also improved sig

39 significantly closer to emmetropia for both sphere and spherical equivalents at all time points.

40 cases, the exact nature of the coordination sphere and the oxidation state of the metal is of utmost

41 In both sphere and tumoroid culture, Mit-A inhibits cancer growt

42 oring binding of NeutrAvidin to biotinylated spheres and binding of immunoglobulin G to spheres funct

43 coli cell is a cylinder flanked by two half spheres and calculating the volumes of bacterial compart

44 atient-derived cells, in docetaxel-resistant spheres and in an in vitro model.

45 e.g., Au and quantum dots) and shapes (e.g., spheres and rods).

46 treating the cocrystallization of deformable spheres and to formulate new hypotheses about the factor

47 or the hot spheres, and between 81.4% (28-mm sphere) and 87% (37-mm sphere) for the cold spheres for

48 ion of anion (associated to the coordination sphere) and alkali cation (associated with the outer coo

49 -sized pill, swell rapidly into a large soft sphere, and maintain robustness under repeated mechanica

50 sphere) to 83.9% (22-mm sphere) for the hot spheres, and between 81.4% (28-mm sphere) and 87% (37-mm

51 uations in idealized geometries (ellipsoids, spheres, and mushroom-shaped).

52 nhancements are not anticipated for metallic spheres, and very small increases (by a factor of a few)

53 networks, neutral organic ligands, and outer-sphere anions on their phase-change thermodynamics.

54 voids molecular interpenetration in the hard-sphere approximation.

55 Deformable elastomeric spheres are evaluated experimentally as they skip multip

56 Calculations of the bulk modulus reveal that spheres are more compressible than rods in the wurtzite

57 development of polymer derived porous carbon spheres are provided based on the controlled synthesis o

58 nts as such features outside the respiratory sphere, are rapidly emerging.

59 at which water binds in the inner and outer spheres arise primarily from entropic effects.

60 critical details of the second coordination sphere around the Fe(TAML) cofactor.

61 e the shell domain forms a tight icosahedral sphere around the genome.

62 ter and refractive index of individual probe spheres as they flow down a microfluidic channel.

63 s the fatty-acid-induced formation of tumour spheres as well as tumorigenesis induced by high-fat die

64 esponsible for enantioinduction in the inner-sphere asymmetric Tsuji allylic alkylation is C-C bond f

65 in the structure of the Co(II) coordination sphere at the core of human superoxide dismutase 1 (SOD)

66 mediates revealed that the open coordination sphere at zirconium, imparted by the tethered bis(ureate

67 e studied when preparing PGMA(29)-PMOEMA(30) spheres at 10% w/w solids.

68 into an infinite network by hydrogen-bonded spheres at tetrahedral four-way junctions.

69 activation and assess the influence of outer sphere atoms, in two Rubisco forms of contrasted O(2)/CO

70 We use an integrating sphere-based method to measure the combined extinction-a

71 Electrochemical analysis of S-free carbon spheres baseline demonstrates that both the carbon matri

72 a particular class of higher-order Poincare sphere beams, are generalized forms of waves carrying or

73 ck associated with aggregation of equal-size spheres because they collide by virtue of their orientat

74 Such deviation from hard sphere behavior may be explained by the soft and deforma

75 lusion criteria were emmetropic eyes, with a sphere between -0.25 and +0.50 diopters (D), cylinder of

76 rom "elevation against the anterior best fit sphere (BFS)," "elevation against the posterior BFS" "ax

77 Eventually, the oscillating sphere breaks rotational symmetry along the future head-

78 ylpyridinium iodide, provides an early outer-sphere charge-transfer excited state that reports on sol

79 Outer-sphere chemical reduction gives the Lewis acid stabilize

80 YSO(4)(+) ion pair forms a monodentate inner-sphere complex.

81 d by the in situ spectroscopic data of inner-sphere complexation of phytic acid at the ferrihydrite-w

82 from Tc(VII) to Tc(IV) and subsequent inner-sphere complexation of Tc(IV)-Tc(IV) dimers onto a Fe ox

83 ormed via the sluggish conversion from outer-sphere complexes during interrupted flow.

84 absorption spectra (XAS) for distinct inner-sphere complexes of iron.

85 rect bonds with the mineral surface as inner-sphere complexes, and phosphate groups in polyphosphate

86 les were tested for beer detoxification, and spheres composed of alginate and activated carbon or pec

87 diations of [Formula: see text] nanoparticle spheres, cubes and plates.

88 ecellularized scaffolds, a co-culture, and a sphere culture methods.

89 )) and with increasing diameter of the glass spheres (d(GS)).

90 Porous carbon spheres derived from polymer colloids with regular geome

91 The assembled PDMS sphere diameters scale linearly with BBCPs molecular wei

92 l role of intramolecular second coordination sphere effects exerted by the phosphonate groups in lowe

93 lectron transfer with secondary coordination sphere effects in the metal-organic framework Co(2)(OH)(

94 ity dependence on both primary and secondary sphere effects.

95 ticle characterization, the breadth of inner-sphere electrochemical reactions makes this a promising

96 ic analysis of field-effect-controlled outer-sphere electrochemistry on ultrathin back-gated ZnO work

97 lective adsorption mechanism involving outer-sphere electron transfer from the framework to form supe

98 apable of binding O(2) through such an outer-sphere electron transfer mechanism represents a promisin

99 ical formation, and contrasts with the outer-sphere electron transfer pathway observed for (PPh(3))(4

100 dynamic properties, consistent with an outer-sphere electron transfer process, the set of ligated Co(

101 ition, outer-sphere electron transfer, inner-sphere electron transfer, and concerted halogen-atom abs

102 could take place: oxidative addition, outer-sphere electron transfer, inner-sphere electron transfer

103 whereas the larger particles were defective spheres, ellipsoids, and bacilliform cylinders, with reg

104 ored from aggregated nanoparticles to hollow spheres even mesoporous bulk.

105 ne (PDMS) show that the manufactured diamond spheres, even though possessing a rough surface, can be

106 Using the simple outer-sphere Fc(0/+) process (Fc = ferrocene) as a model syste

107 icle shapes of typical microplastics such as spheres, films, and fibers.

108 A sphere fitting approach was introduced for the computati

109 The ligand sphere fixation in the macrocyclized complex 1 even reac

110 ithelial SCs which generated highly cellular spheres following a novel in vitro strategy.

111 sphere) and 87% (37-mm sphere) for the cold spheres for a given sphere-to-background ratio of 4:1.

112 cess to achieve highly functionalized carbon spheres for practical applications.

113 between 81.4% (28-mm sphere) and 87% (37-mm sphere) for the cold spheres for a given sphere-to-backg

114 ed from 54.3% (10-mm sphere) to 83.9% (22-mm sphere) for the hot spheres, and between 81.4% (28-mm sp

115 of stem cell factors and stemnness markers, sphere formation and self-renewal, along with growth of

116 Wound healing and Matrigel invasion assay, sphere formation assay, and in vivo mice tumor model wer

117 SVC112 reduced sphere formation by cell lines and CSCs.

118 ZNF498 decreased the proportion of SP cells, sphere formation capacity and single cell clonogenicity.

119 tes, reactive oxygen species production, and sphere formation in vehicle- or gemcitabine-treated mono

120 ncrease in apoptosis and a decrease in tumor sphere formation of PCa cells.

121 ir following radiation, enhancing colony and sphere formation radiation effects.

122 not SMO signaling inhibition, reduces tumor sphere formation, a characteristics of tumor initiating

123 ysis revealed increased migration, invasion, sphere formation, and tumor development in mice after TG

124 4s is a key ATG7 downstream regulator of the sphere formation, invasion, and lung metastasis of BCs,

125 erated SP cells exhibit greater capacity for sphere formation, single cell clonogenicity, and in vivo

126 ng flow cytometry and characterized by tumor sphere formation, tumor formation in nude mice, and expr

127 APKi resistance, increased cell adhesion and sphere formation.

128 eased soft-agar clonogenic ability and tumor sphere formation.

129 ificant inhibition of self-renewal and tumor-sphere formation.

130 y decreased the number of SP cells and their sphere forming ability.

131 ation and apoptosis and additionally blocked sphere-forming ability of medulloblastoma stem-like canc

132 cancer cell lines reduced their invasive and sphere-forming activities in culture and formation of or

133 found activation of the PI3K/AKT pathway in sphere-forming cells.

134 m a rearrangement of the copper coordination sphere from a five-coordinate distorted square pyramid t

135 Nevertheless, supramolecular spheres from short helical stacks of crown-like dendrime

136 d spheres and binding of immunoglobulin G to spheres functionalized with protein A.

137 in a novel 3D heterotypic glioblastoma brain sphere (gBS) model consisting of glioblastoma tumor cell

138 assic isotropic supramolecular micellar-like spheres, generated from conical dendrons, is unknown.

139 Silica spheres >200 nm in diameter achieved higher scattering t

140 tic barrier, entropic contributions to outer sphere H(2) splitting lead to a unique temperature depen

141 and (BNPA(Ph2)O(-)) with second coordination sphere H-bonding groups has been synthesized for stabili

142 se include reactions initiated through outer-sphere, halide-to-metal, and metal-to-ligand charge-tran

143 Here, we synthesize a pair of hollow carbon sphere (HCS) nanoreactors with presynthesized PdCu nanop

144 s easily leachable 8- to 9-coordinated outer-sphere hydrated complexes, dominantly onto kaolinite.

145 characterize and quantitate trends in inner-sphere hydration across the periodic table.

146 parameters for discernible inner- and second-sphere hydration events, and discuss their application t

147 and computational data indicate that second-sphere hydrogen bonding induces structural distortion of

148 the catalyst follows the prototypical "outer sphere" hydrogenation mechanism, comprehensive studies o

149 rce spectroscopy using robust diamond-coated spheres, i.e., colloidal particles.

150 ence of the increased rigidity of the ligand sphere in 1 was provided by proton T(2) relaxation NMR e

151 ving the location of the Cu(II) coordination sphere in the N42C Az mutant, proximal to the (larger) s

152 ics test was performed using a titanium (Ti) sphere in the presence of a pH 7.5 aqueous buffer.

153 y reduced invasive index and ability to form spheres in 3D culture.

154 crofluidic system can enumerate micron-sized spheres in a single assay using barcoded particles of va

155 lls that overexpressed KDM3A formed foci and spheres in culture and formed tumors and metastases in m

156 leted of PAF1 formed smaller and fewer tumor spheres in culture and orthotopic tumors and metastases

157 found that peripheral implantation of these spheres in mice led to remarkable improvements in genera

158 ning and increase permeability compared with spheres in ordered packed beds.

159 This allows us to overcome the "blind sphere" in paramagnetic proteins, and to observe and ass

160 Spherical lesions were emulated by acquiring sphere-in-air data and combining them with the phantom d

161 their approximants plus helical columns and spheres, including some that disregard chirality.

162 ntal understanding of secondary coordination sphere influences in metalloenzymes.

163 Secondary coordination sphere interactions are critical in facilitating the for

164 in mixtures where different degrees of hard-sphere interactions are present.

165 Extended-coordination sphere interactions between dissolved metals and other i

166 y the appended chiral scaffold through outer-sphere interactions.

167 g also promoted fragmentation of the ceramic spheres into micron-size particulate matter, which provi

168 n initial assembly of identical "deformable" spheres into two or more size- or shape-distinct sets of

169 water] and a range of model potentials (hard sphere, inverse power, Lennard-Jones, and Weeks-Chandler

170 ions, across economic, political, and social spheres, involve choices to "leave".

171 se reactions are likely facilitated by inner-sphere iron-CIP complexes formed via the sluggish conver

172 bound, while for the WT Az that coordination sphere is closest to the other Au electrode, with which

173 During regeneration, a hollow bilayered sphere is formed that undergoes osmotically driven shape

174 s just above, giving the impression that the sphere is walking across the water surface.

175 Sphere-like aggregates and spindle-shaped structures wer

176 sing computer simulations, we find that hard sphere-like liquids have on intermediate and large scale

177 concentration gradient-tailored agglomerated-sphere LLOs are designed with linearly decreasing Mn and

178 th a proton hosted in the outer coordination sphere, [mCH]Cu(kappa(2)-O(2)N)(ClO(4))(2) (3), also rea

179 g spectra extracted from double integrating sphere measurements, good PSD estimates were obtained fo

180 Our results support an inner-sphere mechanism and indicate that the particular heme-t

181 tivity of naked In(I)(+) ions, with an outer sphere mechanism for the C-N bond formation and a potent

182 We propose an outer-sphere mechanism in which protons do not seem to be invo

183 oceed via either an inner-sphere or an outer-sphere mechanism, remained unclear.

184 the effects of solvation on inner- and outer-sphere mechanisms.

185 cussed, including comparisons between "outer sphere" mechanisms and "metal-ligand cooperation" mechan

186 The behavior is characterized by the sphere moving nearly parallel to the water surface with

187 ype R2lox and targeted primary and secondary sphere mutants indicate that the efficiency of C-H bond

188 le to provide hydrogen bonding to the second-sphere N-H groups.

189 aracterized, indicating a key role of second-sphere N-H residues as proton donors during N(2) O reduc

190 Colloidal carbon sphere nanoreactors have been explored extensively as a

191 n, the functionalization of colloidal carbon sphere nanoreactors, including the nanoengineering of co

192 The spheres (NHCNC-1), low-concaves (NHCNC-2), semi-concaves

193 charged and strongly electron-donating outer sphere nucleophile, result in the lowest reaction barrie

194 yst is a Ni-pai-allyl complex, and the outer-sphere nucleophilic attack of H-bonded amine aggregates

195 inhibition of miR-155 decreased PNF-derived sphere numbers in vitro, and we identified Maf as a miR-

196 orming measurements with a (252)Cf source, a sphere of 4.5 kg of alpha-phase weapons-grade plutonium

197 lkylamine group into the second coordination sphere of an Fe(II) complex allows to switch its reactiv

198 a mean difference in spherical equivalent or sphere of less than 0.5 diopters (D); most were less tha

199 ade plutonium known as the BeRP ball, a 6 kg sphere of neptunium, and a canister of 3.4 kg of plutoni

200 g the Biot-Savart integral of vorticity in a sphere of radius R.

201 g cleft and modulate the second coordination sphere of the catalytic zinc ion.

202 The coordination sphere of the Fe(II) terpyridine complex 1 is rigidified

203 y2) orbitals into the secondary coordination sphere of the MCl(2) fragment.

204 where at some stage, the first coordination sphere of the metal center becomes seven coordinated.

205 functionalized ligand from the coordination sphere of the metal.

206 stematic control of the primary coordination sphere of the Ru(2) sites within an isoreticular family

207 ch is evaluated experimentally with metallic spheres of known diameters ranging from 0.79 to 3.18 mm.

208 The primary and secondary coordination spheres of metal binding sites in metalloproteins have b

209 eyond the primary and secondary coordination spheres of the P-cluster.

210 polyacrylamide (PAAm), and agarose hydrogel spheres on smooth surfaces.

211 s afforded spherical assembly attached small spheres on the surface, which retained ribonuclease acti

212 c wrinkling induced by the impact of a solid sphere onto an ultrathin polymer sheet floating on water

213 tion, that could proceed via either an inner-sphere or an outer-sphere mechanism, remained unclear.

214 tral interaction conforms to either the hard-sphere or induced-dipole model.

215 tor of a few) may be expected for dielectric spheres or metallic cylinders." The work of ref.

216 intermolecular electron transfer to an outer-sphere oxidant coupled to intramolecular proton transfer

217 ituted fluorenyl-benzoates and varying outer-sphere oxidants.

218 Complex 2 is distinct from the outer-sphere oxidation product 1(ox) (UV-vis (lambda(max) = 43

219 nd spherical equivalent (-1.42 D vs. -0.50 D sphere; P = 0.02) on objective refraction, mean keratome

220 introduce the notion of a "crystallographic sphere packing," defined to be one whose limit set is th

221 L) = 0.25 - 0.33) situated between the sigma-sphere phase and hexagonally close-packed cylinders.

222 Here, we report the discovery of the A15 sphere phase in single-component diblock copolymer melts

223 energy for a series of mutations at a second sphere phenylalanine positioned in proximity to the boun

224 ne that performs the extrusion into 3D using spheres placed along the topological skeletons of the 2D

225 Refractive error was calculated as sphere plus half negative cylinder, while AL, anterior c

226 Polymer dynamic organic theranostic spheres (PolyDOTS) are being studied as a photothermal a

227 In an alternative outer-sphere process, nucleophilic attack of a metal-phosphido

228 azolium groups in the secondary coordination sphere promote the formation of a local hydration shell

229 e C-N bond formation and a potentially inner sphere protodemetallation.

230 the 4Cu(I) :1S redox state, use of a second-sphere proton donor, and reactivity dependence on both p

231 complexes may serve as models for the inner-sphere protonolysis reactions required for catalytic tur

232 Therefore, outer sphere protons have no influence on the reaction and dir

233 The hypercrosslinked hollow polymer spheres provide a confined microenvironment for the in s

234 001) correlated positively with age, whereas sphere (r = -0.23; P < 0.001), J0 (r = -0.31; P < 0.001)

235 The myopic group sphere (r = 0.044; P < 0.001) had a positive correlation

236 Preoperative sphere ranged between -1.00 and -10.00 diopters (D), wit

237 isk electrodes for the oxidation of an outer-sphere redox couple (ferrocene methanol) and two inner-s

238 ox couple (ferrocene methanol) and two inner-sphere redox couples (potassium ferrocyanide and dopamin

239 ment parameters using outer-sphere and inner-sphere redox couples, we measured pH by reducing the sur

240 Although results show that outer-sphere redox probes are unproductive for particle charac

241 radical cross-coupling products via an outer-sphere reductive elimination step via triplet spin state

242 ecies prior to undergoing irreversible inner-sphere reductive elimination.

243 ge to the PCET process by lowering the inner-sphere reorganization energy by limiting the elongation

244 TPA(+/0) make them excellent probes of outer-sphere reorganization energy, lambda(o), as lambda(i) <<

245 The small inner-sphere reorganizations, lambda(i), for Ru(III/II)P and T

246 Especially at high coverage, a hard-sphere repulsion of the molecules and the confinement at

247 d with catalytic species, analogous to outer-sphere residue cooperativity within the active sites of

248 Here, we identified a second coordination sphere residue that directs the divergent reactivity of

249 ovide insight into the role of the secondary sphere residues in nitrogenase enzymes.

250 the mesostructural evolution of amphiphilic sphere-rod conjugates (giant lipids), and study the role

251 thus their relative reactivity towards outer-sphere S(N) 2-type bond-forming reactions.

252 lacks a mechanism to ensure that the patchy spheres select the staggered orientation of tetrahedral

253 host, creating sulfur-grafted hollow carbon spheres (SHCS) for KIB anodes.

254 on [VSOTF], effective range of focus [EROF], sphere shift [SS], EROF-SS), pupil size measurements at

255 usly reported isotope effects suggests outer-sphere-single-electron transfer or S(N)2 as possible und

256 Two sphere sizes and uptakes were used: 9.89-mm-diameter sph

257 It allows for second coordination sphere strategies to control the selectivity and activit

258 asic ionic liquid gels, and ionic liquid gel spheres structured via a modified Stober synthesis formi

259 s traveling through randomly packed sapphire spheres subjected to uniaxial compression.

260 ray imaging of the film collapse on a heated sphere submerged in liquid-water.

261 e independent role of isomerism of secondary sphere substituents over their nature, a factor often ov

262 Critically, inner-sphere substrate coordination turns on O(2) activation a

263 ra did not indicate any involvement of inner-sphere surface complexes in the sorption process.

264 rimarily as bidentate binuclear ((2)C) inner-sphere surface complexes.

265 t interactions in the secondary coordination sphere than from steric hindrance.

266 erritories organized into an inner and outer sphere that are removed from the centrosome at different

267 e lipid bilayer-enclosed, cytosol-containing spheres that, when released by plants and phytopathogens

268 eferentially bind with transferrin via inner-sphere thiol complexation.

269 bond formation and bond activation at the Al sphere: thus, not only does it undergo electron redistri

270 nematic structures that range from roughened spheres to 'flower' shapes to branched filamentous netwo

271 d increased from ca. 10-30% for the smallest spheres to 98% for the largest spheres.

272 ion in the diblock copolymer morphology from spheres to worms to vesicles are observed.

273 covery coefficients varied from 54.3% (10-mm sphere) to 83.9% (22-mm sphere) for the hot spheres, and

274 -mm sphere) for the cold spheres for a given sphere-to-background ratio of 4:1.

275 issions, and monodispersed polystyrene latex spheres under controlled laboratory conditions and also

276 n the shear wave field and around the silica spheres using finite element modelling, giving clarity t

277 te two differently shaped objects (cubes and spheres) using only touch (in darkness) or vision (in li

278 with rates depending on both outer and inner-sphere vibrational interactions.

279 netic effects on the motility of Pt-PS Janus sphere was recently discussed.

280 hanistically, secretion of exosomes by these spheres was essential for enhancing survival while produ

281 and distinguish complexes with several inner-sphere water ligands by inspection of temperature-depend

282 sensitive paraCEST agent that lacks an inner-sphere water molecule but contains one Ln-bound -OH grou

283 oxylate oxygen atom, and its remaining inner-sphere water molecules make hydrogen bonding interaction

284 f the complexes has a single, integral inner-sphere water that exchanges rapidly on the NMR timescale

285 The glass spheres were considered as an analogy for natural sedime

286 to produce strong shear or strain around the sphere, which requires careful tuning of the viscous bou

287 r because the convex geometry of the ceramic spheres widened the waterjet and reduced its velocity by

288 morphology of the resulting nickel particles-spheres, wires and chains-could be controlled through an

289 e favors SUV(25) followed by SUV(peak) for a sphere with a volume of 14 mm(3) (SUV(P14)) as optimal m

290 s manipulation of the secondary coordination sphere with proton relays and these enhance overall reac

291 izes and uptakes were used: 9.89-mm-diameter spheres with 6:1 (lung) and 3:1 (cylinder) local activit

292 y concentration uptakes and 4.95-mm-diameter spheres with 9.6:1 (lung) and 4.5:1 (cylinder) local act

293 nt rates loaded with a lung insert and 6 hot spheres with a 12:1 target-to-background ratio of (177)L

294 signatures from a model of polydisperse hard spheres with additional weak attraction.

295 sely, this paper establishes that Riemannian spheres with all geodesics closed and sufficiently many

296 apes was investigated using columns of glass spheres with different grain diameters.

297 tate cancer patients, on docetaxel-resistant spheres with stem cell characteristics, on CSCs obtained

298 dendrons self-assemble to form micellar-like spheres, with a molar mass of up to 1.1 x 10(6) g/mol, t

299 cal model approximating the capsules as Born spheres within a continuum dielectric.

300 range of block copolymer nano-objects (e.g., spheres, worms or vesicles) in various media.

301 rmation of sterically-stabilized PGMA-PMOEMA spheres, worms or vesicles, depending on the precise rea