ライフサイエンスコーパス: monodisperse

1 layers that are well-defined and potentially monodisperse.

2 act that all the oligorotaxanes are pure and monodisperse.

3 In our strategy, monodisperse 1.5 nL agarose-in-oil droplets are produced

4 Monodisperse 11 nm indium tin oxide (ITO) nanocrystals (

5 munication describes the synthesis of highly monodispersed 12 nm nickel nanocubes.

6 Analysis of PEG surface packing on monodisperse 200 nm latex spheres indicates that the siz

7 Among monodisperse 4, 6, 8, and 10 nm NPs tested, the 8 nm Au

8 cA and rhodamine-MIPNANA were synthesized as monodispersed 400nm sized particles and were found to bi

9 Monodisperse 5 nm AuMn nanoparticles were synthesized by

10 perimental measurements were performed using monodisperse 5, 50 and 400 nm gold particles supported o

11 riments using a mutant RAIDD-DD that forms a monodisperse 5:5 complex with PIDD-DD show that the spec

12 In this study, superparamagnetic, highly monodispersed 8 nm IONPs were synthesized and transferre

13 While the self-assembly behavior of monodisperse AB diblock and ABA triblock copolymers is b

14 s for a desired particle size and produces a monodisperse agent.

15 er, and a laboratory-synthesized, relatively monodisperse AgNP aqueous dispersion-were studied.

16 As the longest monodisperse alpha-oligofuran synthesized to date, 16F-6

17 this study we investigate the deposition of monodisperse, amine functionalized silica nanoparticles

18 Here, we demonstrate that purified, monodisperse amphiphilic diblock copolypeptoids, with ch

19 Monodisperse amphiphilic oligoethyleneimine (OEI)-beta-c

20 ernary nanocrystal aggregates are moderately monodisperse and exhibit well-defined band gap energies

21 oparticles (ca. 5 nm in diameter) are nearly monodisperse and homogeneous in nature.

22 ion function at the known freezing points of monodisperse and moderately polydisperse systems.

23 Both monodisperse and polydisperse particles are considered i

24 High-Env VLPs, or hVLPs, were shown to be monodisperse and to display more than a 10-fold increase

25 sessed hierarchical multipod structures with monodisperse and tunable arm lengths.

26 G segments was critical for the formation of monodisperse and uniformly shaped filamentous complexes.

27 nsuming synthesis and preparation as stable, monodisperse, and biocompatible liposomes and polymersom

28 ar weight of the reaction products is nearly monodisperse, and can be manipulated by the feed ratio o

29 The protein is pure, homogeneous, monodisperse, and well-folded after solubilization in An

30 helix, which self-assembles into ultrasmall, monodisperse, anionic virus-like shells that encapsulate

31 ere we show a method to generate diverse and monodisperse anisotropic gold nanoparticle shapes with v

32 e properties of the dimer, leading to highly monodispersed aqueous metamaterials with tailored symmet

33 chain reaction is applied to produce stable, monodisperse assemblies with custom scaffold length and

34 transmission electron microscopy shows that monodisperse, atomically smooth Ag polyhedra can self-as

35 k demonstrates the great potentials of using monodisperse Au NPs to optimize the available reaction i

36 We prepared monodisperse Au25(SR)18(0) and studied by cyclic voltamm

37 The monodispersed BHP-Mn2O3-SCs exhibit high specific surfac

38 Such mimics can produce monodisperse biosilica nanospheres, but in vitro product

39 lpha-helical form of the LK peptide produces monodisperse biosilica nanospheres.

40 nitiated by short cylindrical seed micelles, monodisperse block comicelles of controllable length wit

41 Combining monodisperse building blocks that have distinct folding

42 m solution samples that were confirmed to be monodispersed by electrospray ionization mass spectromet

43 into water as stable suspensions (remaining monodispersed) by way of an interfacial oleic acid bilay

44 trahydrofuran (THF), 1 self-assembles into a monodisperse, C4-symmetric GQ-1 with small spatial intra

45 A monodisperse, C4-symmetric octamer of a guanine-perylene

46 udy describes a bottom-up assembly route for monodisperse carbon dots (CDs) into different sizes of C

47 2[Cd(SePh)4]: the first is a superlattice of monodisperse [Cd54Se32(SePh)48(dmf)4](4-) nanoclusters;

48 The monodisperse CDs can self-assemble into blue-, green-, y

49 to dynamically image cellular uptake of the monodisperse CDs in MCF-7 cells and Huh-7 liver cancer c

50 The highly monodisperse CDs were prepared via solvent-thermal treat

51 based on Fe(III)-induced aggregation of the monodisperse CDs.

52 gonal thiol-ene click reactions to fabricate monodisperse, cell-laden microgel particles.

53 Monodisperse ceria nanoclusters now permit investigation

54 Importantly, in the monodisperse circle limit, the predicted varphiMRJ = 0.8

55 We generate jammed packings of monodisperse circular hard-disks in two dimensions using

56 In this study, monodisperse citrate, PVP, and PEG coated AgNPs with a c

57 ed to five sizes (10, 20, 30, 60, 100 nm) of monodispersed citrate- and polyvinylpyrrolidone-coated s

58 thods allow for the production of atomically monodisperse clusters of silver atoms stabilized in solu

59 Monodisperse cobalt (Co) nanoparticles (NPs) were synthe

60 On solvent evaporation, non-interacting monodisperse colloidal particles self-assemble into a cl

61 We report a facile synthesis of highly monodisperse colloidal Sn and Sn/SnO2 nanocrystals with

62 ess in the synthesis and characterization of monodispersed colloidal superparticles, which are import

63 However, well-defined and monodisperse colloids of semiconducting polymers, which

64 Herein we report access to a series of monodisperse complex and hierarchical colloidally stable

65 of the high-index planes, we then fabricated monodispersed concave nanocages via a material-independe

66 tudy reports a method for the fabrication of monodisperse conducting polymer microcups.

67 Well-defined monodisperse conjugated oligomers, which have planar bac

68 Monodispersed conjugated oligothiophenes are receiving a

69 odification of the alkyne side-chains of the monodisperse copolymers.

70 ties that greatly exceed those of equivalent monodisperse copolymers.

71 We report a procedure to prepare highly monodisperse copper telluride nanocubes, nanoplates, and

72 We report a facile synthesis of monodisperse core/shell 5/1.5 nm Au/CuPt nanoparticles b

73 We report a size-controllable synthesis of monodisperse core/shell Ni/FePt nanoparticles (NPs) via

74 Our studies provide a robust approach to monodisperse core/shell NPs with nonprecious metal core,

75 ng, arrested structures and their well-known monodisperse counterparts, colloidal gels.

76 on the inside of the DNA cage, consist of a monodisperse crosslinked polymer core with a predetermin

77 The porous and thermally robust monodisperse crystalline solids consist of tetrahedral p

78 ctide nanocrystals with group 13 ions yields monodisperse, crystalline III-V nanocrystals, including

79 By using highly monodisperse CsPbBr3 NWs as templates, the NW compositio

80 Monodisperse Cu2O of different microstructures, such as

81 Monodisperse Cu2ZnSnS4 (CZTS) nanocrystals with tunable

82 have developed a facile synthesis of highly monodisperse, cubic-shaped formamidinium lead bromide na

83 Here, we report the programmed assembly of monodisperse cylindrical block comicelle building blocks

84 -scale fibres and macroscopic films based on monodisperse cylindrical block copolymer micelles.

85 These PFS-ONB-P2VP materials form monodisperse cylindrical micelles by living crystallizat

86 Herein, we report the preparation of monodisperse cylindrical micelles with a LC poly(2-(perf

87 e have created short (about 130 nanometers), monodisperse cylindrical seed micelles that grow unidire

88 ALDI-TOF approximated Mn well for the highly monodisperse (D < 1.1), low molecular weight (degree of

89 of these systems impedes the measurement of monodispersed data.

90 The utilization of monodisperse dendrons as the stimuli-responsive block en

91 We use monodisperse dendrons that allow control over functional

92 hat is strongly biased toward generating the monodisperse disk MRJ state.

93 on codoping methodology for the synthesis of monodisperse, doped metal-oxide nanocrystals (NCs) that

94 s capillary devices enable the production of monodisperse double emulsion drops, which can then be us

95 now establish a protocol for the creation of monodisperse double-emulsion droplets in two steps in mi

96 Aerosol diameters were measured during monodisperse droplet drying experiments and during polyd

97 e two regimes it is more probable to produce monodisperse droplets because fluctuation-dominated pinc

98 ges, both lytic T4-LacZ and nonlytic M13, in monodisperse droplets can also be used for rapid enumera

99 Calibration with monodisperse droplets consisting of standard solutions a

100 on system presented here can generate highly monodisperse droplets in the size range of 40-60 mum at

101 phototunable 3D photonic superstructure from monodisperse droplets of one-dimensional cholesteric liq

102 ibrating orifice aerosol generator providing monodisperse droplets, which are oxidized in a subsequen

103 along the interface causes the detachment of monodisperse droplets, without the need for a flow of th

104 mented droplet-based microfluidics, in which monodispersed droplets containing fluorescent marker are

105 ADCs with a conserved site of conjugation, a monodisperse drug loading, a lysosomal release functiona

106 ision particle fabrication (PPF) technology, monodisperse DWMS were fabricated with model protein bov

107 c layer to satisfy multiple criteria: nearly monodisperse, easily imaged and magnetic interaction tha

108 luidic methods have been applied to generate monodisperse emulsions for applications in the pharmaceu

109 SiO2 shells were first deposited on monodisperse Fe3O4 microspheres by a sol-gel method.

110 rly demonstrate the successful attachment of monodisperse Fe3O4 nanoparticles to graphene sheets.

111 A simple process to prepare monodisperse ferrimagnetic cobalt-substituted magnetite

112 organic-inorganic nanocomposites comprising monodisperse ferroelectric nanoparticles directly and pe

113 Monodisperse fiber-like micelles with a crystalline pi-c

114 a metastable product characterized by short monodisperse fibres that interfere with adhesion and can

115 Monodisperse filamentous bacteriophages self-assembled i

116 In this study, we engineered monodisperse FN nanofibers using a surface-initiated ass

117 reversible structural transition in bilayer monodisperse foams by changing the foam liquid fraction

118 papaya fruit, are chemically stable, remain monodispersed for >6 months in buffer, and show utility

119 lyl-benzyl-capped silicon nanoparticles into monodisperse fractions within the range of 1 nm to 5 nm.

120 can successfully separate polymersomes into monodisperse fractions.

121 actionation of nanoparticles into apparently monodisperse fractions.

122 ies on the microfluidic generation of highly monodisperse gas bubbles in the liquid reaction medium a

123 hosphate-buffered saline led to unilamellar, monodisperse glycodendrimersomes (GDSs) with dimensions

124 erefore, this work presents the synthesis of monodisperse glycooligomers carrying different sugar lig

125 substrate was developed by depositing nearly monodisperse gold and silver nanoparticles on the carbon

126 etching or seed-mediated growth of purified, monodisperse gold bipyramids.

127 ent conjugation of functionalized atomically monodisperse gold clusters with 1.5-nm metal cores to vi

128 Establishing that the MRJ state for monodisperse hard disks is isostatic and qualitatively d

129 ive, this procedure allows the production of monodisperse heterogeneous catalysts for studying a vari

130 By hydrothermal heating of milk, we produced monodispersed, highly fluorescent carbon dots with a siz

131 oisotope in clinical practice, was coated to monodispersed hollow gold nanoparticles with a diameter

132 experimentally, 21 were found to form stable monodisperse homo-oligomers in solution, and 15 (four ho

133 nerally assume that the chains are perfectly monodisperse; however, typical experimental copolymer pr

134 theranostic' CP-mag-micelles are composed of monodisperse hydrophobic superparamagnetic iron oxide na

135 w a collection of fibers that are relatively monodisperse in diameter, not uniformly distributed, and

136 drophobic (H) or polar (P) segments that are monodisperse in length are able to self-assemble side by

137 icates that the FtsZ polymers are remarkably monodisperse in length, independent of the concentration

138 s and the individual segments were virtually monodisperse in length, which facilitated their predicta

139 The microcapsules produced are extremely monodisperse in size and can encapsulate target molecule

140 The resulting particle is highly stable, monodisperse in size, and maximizes the therapeutic pote

141 Although the clusters are monodisperse in size, structural diversity is apparent.

142 periments demonstrated that HMGA2 and RF are monodisperse in solution, and form an equimolar complex.

143 ercially available gold nanoparticles, AuNCs monodisperse in water and are composed of a discrete num

144 The combined nanoparticles composite is monodispersed in aqueous medium.

145 ls for accurate site-specific conjugation of monodisperse inorganic nanoparticles to biological mater

146 Monodisperse iron oxide magnetic nanoparticles assemble

147 Moreover, the RE-CPCSs can be transformed to monodisperse lanthanide oxide spheres via simple heat tr

148 The RPS provided diameters of monodisperse latex nanoparticles agreed within the exper

149 used to link the clusters together, forming monodisperse linear Mn Anderson oligomers, here with exa

150 Monodisperse lipid nanodiscs are particularly suitable f

151 lt, high throughput, high-yielding routes to monodisperse liposomes with multiple compartments have n

152 port the fabrication of a series of discoid, monodisperse, low-modulus hydrogel particles with diamet

153 We synthesized monodisperse M/CuPd NPs by the coreduction of palladium

154 The resulting monodisperse macrocycles provide important insights into

155 Dendrimers are highly branched and monodisperse macromolecules that display an exact and la

156 exterior of the alpha-helical bundle yields monodisperse macromolecules with programmable folding an

157 ce the dispersity as much as possible (truly monodispersed materials are not possible).

158 t membrane-based pathway for the assembly of monodisperse membrane clusters that is complementary to

159 ptical two-dimensional fusion assay based on monodisperse membrane-coated microspheres is introduced,

160 eded-growth methodology for the synthesis of monodisperse metal-doped plasmonic oxide heterodimer nan

161 The diblock copolymers self-assemble into monodisperse micelles of defined hydrodynamic diameters

162 gether with doxorubicin, self-assembled into monodispersed micelles [NP(BTZ-DOX)] with small particle

163 od-brain barrier (BBB) opening in vivo using monodisperse microbubbles with different phospholipid sh

164 e and mass determination of ENPs employing a monodisperse microdroplet generator (MDG) with transport

165 the ability to generate two well-controlled monodisperse microdroplet streams and collide (and thus

166 three variations of a device for generating monodisperse microdroplets in two distinct size regimes

167 n single-cell encapsulation in droplets of a monodisperse microfluidic double water-in-oil-in-water e

168 put biological method to prepare spore-based monodisperse microparticles (SMMs) and then form the nan

169 ate comprised of a closely packed lattice of monodispersed microspheres.

170 branched micelles possessed structures with monodisperse middle segments and, in most cases, two bra

171 Monodispersed mixtures of 6-nm Cu and Ag nanoparticles w

172 Monodisperse multifunctional and nontoxic Au@MnO Janus p

173 s that has been validated with dendrimers as monodisperse multivalent analytes binding to lectin clus

174 uded dendrimer chemistry in order to provide monodisperse multivalent glycoconjugates.

175 The monodisperse nanocapsules in the range of 50-200 nm cons

176 We report the colloidal synthesis of monodisperse nanocrystals (NCs) of InSb, which is an imp

177 of organic solvent- and water-soluble nearly monodisperse nanocrystals with desired composition and a

178 ese ligands used for the direct synthesis of monodisperse nanocrystals, but nanocrystals coated with

179 of SnTe NCs with shapes tunable from highly monodisperse nanocubes, to nanorods (NRs) with variable

180 nanodiscs and protein aggregates results in monodisperse nanodisc preparations ideal for structural

181 individual cells for growth and analysis in monodisperse nanoliter aqueous droplets surrounded by an

182 can produce structurally and electronically monodisperse nanomaterial populations.

183 of their ethanol solution into PBS produced monodisperse nanometer size assemblies.

184 Using monodisperse nanoparticle (NP) catalysts, we have studie

185 Synthesis of truly monodisperse nanoparticles and their structural characte

186 Monodisperse nanoparticles are prepared through the self

187 resulting hierarchical assemblies are dense monodisperse nanoparticles composed of ca. 50 POMs that

188 The volume change of these monodisperse nanoparticles comprising spiropyran, which

189 e with similar resolution as SEM mixtures of monodisperse nanoparticles having partially overlapping

190 Producing monodisperse nanoparticles is essential to ensure consis

191 self-assemble into approximately 60 nm near-monodisperse nanoparticles that increased the systemic e

192 omplex double-stranded oligonucleotides into monodisperse nanoparticles with 15, 23, or 30 nm in diam

193 ly because of the challenges in synthesizing monodisperse nanoparticles.

194 production of single nanopores and arrays of monodisperse nanopores for atomic-scale selectively perm

195 The monodisperse nanorods have a band gap of 1.43 eV and can

196 ectrometry because they provide a relatively monodisperse nanoscale lipid bilayer environment for del

197 H as a SERS marker supported on Au deposited monodispersed nanospheres monolayers (Au-MNM) of polysty

198 The fabrication of monodisperse nanostructures of highly controlled size an

199 This peptide spontaneously forms monodisperse nanotubes (NTs) above a critical concentrat

200 y of capitalizing on judiciously synthesized monodisperse NaYF4 :Yb/Er upconversion nanoparticles (UC

201 led carbon nanotube (MWCNT) supported highly monodisperse nickel nanoparticles modified on glassy car

202 d lipoproteins bind to sharp edges to enable monodisperse NPL encapsulation with long-term stability

203 ibe a new synthetic approach to regioregular monodisperse oligo(3-alkylthiophene)s allowing for simpl

204 prove delivery of PTX by PEG-b-PLA micelles, monodisperse oligo(l-lactic acid), o(LA)8 or o(LA)16, ha

205 The synthesis and application of monodisperse oligo(para-phenyleneethynylene)s (oligoPPEs

206 Monodisperse oligodimethylsiloxanes end-functionalized w

207 ydrophilic dendrons and can be thought of as monodisperse oligomers of a single amphiphile.

208 rphology, and charge transport properties of monodispersed oligothiophenes with up to six didodecylqu

209 a scaffold for directing the construction of monodisperse one-dimensional assemblies in which the fun

210 er demonstrated by the preparation of nearly monodisperse P2VP nanotubes of tunable length using a st

211 mal encapsulation and cellular uptake of the monodisperse particles and found them to have generally

212 sed to describe the nucleation and growth of monodisperse particles and next takes a closer look at t

213 ed oligonucleotides or siRNA and lipids into monodisperse particles of approximately 30 nm in diamete

214 wever, for the same reaction times, the more monodisperse particles were fully transformed to Ag(2)S,

215 phingolipids, and cholesterol into discrete, monodisperse particles with mass of approximately 27 kDa

216 s, difficulties associated with synthesizing monodisperse particles, and oxidative instability.

217 ynthesis and characterization of a series of monodisperse PBTTT oligothiophenes (n = 1-5) and systema

218 e PAA-b-PEDOT diblock copolymer as template, monodisperse PEDOT-functionalized lead telluride (PbTe)

219 signing a series of sequence-defined, highly monodisperse peptoid diblock copolymers poly-N-decylglyc

220 to controlled polymer architectures, such as monodisperse PFS homopolymers and block copolymers.

221 presence of either zwitterionic micelles or monodispersed PIs.

222 Our method leads to monodisperse PLNPs as small as ca. 8 nm.

223 P2-(PEO-HA)2, composed of a dendron with two monodisperse poly(ethylene oxide) (PEO) branches termina

224 Monodisperse polyhedral metal-organic framework (MOF) pa

225 e, one-step, bottom-up approach to fabricate monodisperse polymer (polyvinylpyrrolidone)-encapsulated

226 the effectiveness of our method, an array of monodisperse polymers (PLA(x)-ran-DME(1-x))n bearing var

227 tography analyses indicated the formation of monodisperse polymers with controlled comonomer sequence

228 acy of amino acid residues and production of monodisperse polymers with specific function and physico

229 technology has allowed for the production of monodisperse polymers with specifically defined sequence

230 spersity, allowing gram-scale fabrication of monodisperse polymersomes within minutes.

231 To that end, we designed monodisperse polypeptide-based polyvalent inhibitors of

232 ed by conventional protein chromatography as monodisperse polypeptides of exact length and sequence.

233 tics including the ability to produce nearly monodisperse polysaccharides with an expanded range of s

234 We fabricate large area 2-D close-packed monodisperse polystyrene (PS) particle monolayers at air

235 explained using conical pores and nominally monodisperse polystyrene particles 200-800 nm in diamete

236 initially applied to measure the density of monodispersed polystyrene latex nanoparticles.

237 This strategy for the rational design of monodisperse polyvalent molecules may not only be broadl

238 nm) material that combines precisely defined monodisperse pores of ~9 A with a high pore density of 3

239 Highly monodisperse porous silicon nanospheres (MPSSs) are synt

240 Exposure to oxygen leads to a monodisperse, porous heterogeneous catalyst, named Mo-SI

241 interlocked polymers, which present precise monodisperse primary structures that are produced both c

242 laxing the synthesis requirements to achieve monodisperse products.

243 to characterize Rheb tethered to nanodiscs, monodisperse protein-encapsulated lipid bilayers with a

244 y, a facile method for the synthesis of size-monodisperse Pt, Pt3 Sn, and PtSn intermetallic nanopart

245 The method guarantees highly monodisperse Pt-Co alloy nanoparticles with precise cont

246 croscopy and X-ray absorption studies of the monodisperse Pt/theta-Al2O3 are also presented.

247 ble to effect the formation of unprecedented monodisperse quantized superstructures.

248 the same coordination number, the density of monodisperse random packings follows the sequence of inc

249 Highly monodisperse RE-CPCSs with homogeneous mixing of RE elem

250 In doing so, we achieve monodisperse reaction volumes with an aqueous interior w

251 We describe the formation of uniform, monodisperse rectangular platelet micelles of controlled

252 cteristics of a series of precisely defined, monodisperse, regioregular oligo(3-hexylthiophene)s (3HT

253 In the presence of a nonadsorbing polymer, monodisperse rod-like particles assemble into colloidal

254 AXS minimized data artifacts caused by a non-monodispersed sample, allowing structural analysis of Pr

255 Four differently sized monodispersed samples were produced by using different P

256 that ITAMeD may be the method of choice for monodispersed samples with "discrete" distributions of d

257 ionalization strategy for the preparation of monodispersed selenium nanoparticles (SeNPs) functionali

258 ncing methodology to read codes encrypted in monodisperse sequence-coded oligo(triazole amide)s.

259 ew synthetic strategy for the preparation of monodisperse, sequence-defined glycooligomers or so-call

260 work shows a proof of concept of the use of monodisperse Si and C nanocomposite spheres toward pract

261 k proposes the use of multimodal mixtures of monodispersed silica nanoparticles (SiO2-NPs) standards

262 Herein, facile synthesis of monodisperse silicon and carbon nanocomposite spheres (M

263 -flow capillary device is used to synthesize monodisperse silk fibroin micro- and submicron-spheres w

264 This system spontaneously generates monodisperse silver particles at fairly regular distance

265 Here, we report the CO oxidation activity of monodisperse single Pt atoms supported on an inert subst

266 scattering shows that these particles have a monodisperse size distribution with an average diameter

267 well-defined capsule-like structures with a monodisperse size.

268 much colder region, giving rise to growth of monodisperse, size-tailored nanoclusters.

269 solid-state films of mixed-valent states of monodisperse, small (<2 nm) Au monolayer protected clust

270 reveal that the growth and shape-focusing of monodisperse SnTe nanocubes likely involves interparticl

271 Restructuring of monodisperse soot aggregates due to coatings of secondar

272 The restructuring of monodisperse soot aggregates due to coatings of secondar

273 Monodisperse soot particles are exposed to the oxidation

274 mplating with colloidal crystals composed of monodisperse spheres is a convenient chemical method to

275 s sections, we use Mie scattering theory for monodisperse spherical particles and for spherical parti

276 ections agree with Mie scattering theory for monodisperse spherical particles, the results for calciu

277 be modulated by tuning the potential between monodisperse, spherical colloidal silica particles using

278 We present a novel approach giving access to monodisperse square SnS nanoplatelets, whose dimensions

279 lf-assembling amphiphiles capable of forming monodisperse, stable, and multifunctional unilamellar an

280 Smectic ordering in aqueous solutions of monodisperse stiff double-stranded DNA fragments is know

281 nspired templating method to generate highly monodispersed sub-100-nm unilamellar vesicles, where lip

282 polymerization; this method produces highly monodisperse submicrometer particles of a variety of sem

283 Similarly, for non-circular monodisperse superdisks, we predict MRJ states with dens

284 boxyl-terminated species covalently bound to monodisperse superparamagnetic iron oxide nanoparticles,

285 classical light scattering measurements from monodisperse suspensions is examined from both the Rayle

286 Chromatographic isolation of a monodisperse tetrameric PAH, in the absence of Phe, faci

287 igomeric chains are undoubtedly discrete and monodisperse, they nevertheless appear to be infinite in

288 Although most polymers are so-called monodisperse, they still have a molecular weight dispers

289 This urease-mediated synthesis yields nearly monodisperse TiO(2) nanostructures with high surface are

290 lytic hydrogen evolution to be studied using monodisperse TiO(2) NCs.

291 ralizable synthetic route toward phase-pure, monodisperse transition-metal-substituted ceria nanopart

292 The fabrication of monodisperse transmembrane barrels formed from short syn

293 Length-monodisperse triazine-derivatized polymers were prepared

294 date no method has been reported to prepare monodisperse vesosomes of controlled size.

295 ry technique able to generate such series of monodisperse water-in-oil droplets (with a frequency of

296 energy of two ordered structures for bilayer monodisperse wet foams with arbitrary liquid fraction.

297 The microspheres were monodisperse with a mean diameter of 65 to 75 mum and un

298 The cylindrical pores are monodisperse, with a radius in the range of 1-2 nm.

299 eport a plasmonic nanocrystal that is highly monodisperse, with unprecedentedly small size variabilit

300 tering analysis showed that the samples were monodispersed, with an unchanged size when suspended in