ライフサイエンスコーパス: self-assembly

1 sparent crystalline DNA films formed through self assembly.

2 a chain-branching growth of DNA dendrimer by self-assembly.

3 a dramatic impact on polymer properties and self-assembly.

4 ves should be equally effective in designing self-assembly.

5 rophilic and hydrophobic forces in molecular self-assembly.

6 ally programmed multistate reorganization of self-assembly.

7 erization-induced and crystallization-driven self-assembly.

8 and other sought-after lattices, have eluded self-assembly.

9 and the possibility of an amorphous gyroid's self-assembly.

10 rtance as a general mechanism of hydrophobic self-assembly.

11 prepared by iron(II)-templated subcomponent self-assembly.

12 mechanism based on long-range orientational self-assembly.

13 lcoholic solvents via crystallization-driven self-assembly.

14 sing a novel approach based on electrostatic self-assembly.

15 vior unreachable by conventional equilibrium self-assembly.

16 garding the physical principles for DNA tile self-assembly.

17 rature as well as the pressure limits of GMP self-assembly.

18 al prisms have been prepared by subcomponent self-assembly.

19 ectroactive groups or groups that can prompt self-assembly.

20 Au25 (SG)18 @ZIF-8) by coordination-assisted self-assembly.

21 and then coated with silver nanoparticles by self-assembly.

22 uilding blocks) and processes resulting from self-assembly.

23 resulted in designing a multistate transient self-assembly.

24 c manifestation of a temporally programmable self-assembly.

25 effect of the membrane matrix on global GPCR self-assembly.

26 ilar or distinct blocks intimately influence self-assembly.

27 on is thought to simply involve a process of self-assembly [2], this concept suffers from a number of

28 to the significance of the interplay between self-assembly and antimicrobial activity and establishes

29 e costly and time-consuming, whereas natural self-assembly and bottom-up fabrications often result in

30 Cation-pi interactions drive the self-assembly and cohesion of many biological molecules,

31 s guiding the molecular recognition, such as self-assembly and complementarity, have inspired the dev

32 iscovery of new gigantic molecules formed by self-assembly and crystal growth is challenging as it co

33 that charged residues in Csm3 facilitate its self-assembly and dictate the extent of maturation cleav

34 ent advances in designing and regulating the self-assembly and disassembly of small molecules, especi

35 sults obtained for a better understanding of self-assembly and disassembly of the HIV capsid and prot

36 We first briefly introduce the self-assembly and disassembly processes in the context o

37 anding of the principles that underlie their self-assembly and disassembly.

38 hment of a hydrophobic block on PEG leads to self-assembly and formation of spherical micelles.

39 provide a detailed mechanistic study on the self-assembly and gelation behavior of a class of ABA tr

40 dues with Ala dramatically impairs both IAPP self-assembly and hetero-assembly with Abeta40(42).

41 w RL and SDS follow similar overall rules of self-assembly and interactions with proteins, but that d

42 results emphasize the extreme sensitivity of self-assembly and its great importance in regulating the

43 wn great interest in areas such as topology, self-assembly and material micropatterning.

44 The combination of protein self-assembly and microscale mechanical constraints is u

45 her minor, points to the critical roles that self-assembly and polydispersity play in designing biode

46 es relative to PhF2,3, which in turn impacts self-assembly and polymer chain alignment on nanogrooved

47 A combination of metal-organic self-assembly and reversible imine formation is used to

48 ains, if and how charge influences FG-domain self-assembly and selective binding of nuclear transport

49 we examined the influence of minerals on the self-assembly and survival of vesicles composed of singl

50 her biological and physical systems in which self-assembly and synchronization interact.

51 Particle size is controlled by the self-assembly and unique phase transition behavior of el

52 tion on timescales comparable with those for self-assembly and without an intermediate fluid phase, a

53 onstrate that this 2D crystallization-driven self-assembly approach can be extended to heteroepitaxia

54 Herein, we describe a novel multicomponent self-assembly approach that has the prospect of furnishi

55 By employing the subcomponent self-assembly approach utilizing 5,10,15,20-tetrakis(4-a

56 y fabricated through a facile emulsion-based self-assembly approach, containing Au nanoparticles (NPs

57 Here following a stepwise synthesis and self-assembly approach, pentagonal and hexagonal metallo

58 It was shown that FF self-assemblies are not toxicity and enhance accumulatio

59 s showed that energetics and kinetics of NTD self-assembly are highly conserved across spider species

60 of artificial systems featuring this mode of self-assembly are rare.

61 Metal coordination and peptide-directed self-assembly are two proven methods for creating define

62 ng forces governing the intrinsically driven self-assembly are yet to be fully understood.

63 mi structure, design, assembly, and directed self-assembly, as well as its broad applications.

64 (SARs) have been identified to predict lipid self-assembly at mineral surfaces.

65 ivative, and cucurbit[8]uril undergo aqueous self-assembly at multiple length scales to form the SPCH

66 The self-assembly-based process described here for Fe3O4 for

67 structures with nanoscale resolution through self-assembly by basic interactions rather than top-down

68 time-dependent regulation of supramolecular self-assembly by connected, kinetically competing enzyma

69 ten unclear use of the term "non-equilibrium self-assembly" by subdividing systems into dissipative,

70 s of gold nanoprisms, finding that nanoscale self-assembly can be understood within the framework of

71 s defluorinated coupling, demonstrating that self-assembly can efficiently steer on-surface reactions

72 y between reversible disulfide chemistry and self-assembly can give rise either to molecular diversit

73 Self-assembly capabilities under defined conditions were

74 ing, we show that impairment of ameloblastin self-assembly causes disorganization of the enamel organ

75 In this system, self-assembly changes the HOMO and LUMO energies, making

76 We demonstrate self-assembly, characterization and bioelectrocatalysis

77 ent highlights, including out-of-equilibrium self-assembly, chemically fuelled molecular motion, comp

78 ploited to design other quasicrystal-forming self-assembly chemistries and processes.Probing the grow

79 dization-based assay exploiting nucleic acid self-assembly circuitry and enzyme exonuclease III (Exo

80 Furthermore, molecular models of self-assembly demonstrate the presence of oligo-chain ag

81 ena are the result of two different modes of self-assembly, demonstrating that control over self-asse

82 Such self-assemblies describe not only the basic structural m

83 le liquid mirror based on voltage-controlled self-assembly/disassembly of 16 nm plasmonic nanoparticl

84 However, self-assembly does not entail formation of a hydrophobic

85 The use of dissipative self-assembly driven by chemical reaction networks for t

86 tion of the catalytic process with molecular self-assembly driven by noncovalent interactions, and dy

87 Directed self-assembly (DSA) of block copolymers (BCPs) has been

88 Directed self-assembly (DSA) of the domain structure in block cop

89 Here, we monitor real-time self-assembly dynamics at the single nanoparticle level,

90 ansmission electron microscopy, the stepwise self-assembly dynamics of hydrophobic gold NPs into long

91 hin films via the electrochemically assisted self-assembly (EASA) technique.

92 Enzyme-instructed self-assembly (EISA) represents a dynamic continuum of s

93 aterials, such as layer-by-layer deposition, self-assembly, electrophoretic deposition, hydrogel cast

94 Supramolecular self-assembly enables access to designer soft materials

95 which showed mass peaks up to the pentameric self-assembly, even in the gas phase.

96 significance of targeting the early amyloid self-assembly events for potential disease management.

97 this paper, we demonstrate that controlling self-assembly external conditions when coupled to membra

98 The self-assembly feature enhances biodistribution and the h

99 of colloidal suspension using a flow-enabled self-assembly (FESA) strategy to yield large-area period

100 ing was combined with crystallization-driven self-assembly for precise control over micelle formation

101 expected charge-like attraction mechanism of self-assembly for star-shaped polyglutamates in nonsalty

102 In order to exploit molecular self-assembly for the bottom-up synthesis of nanomateria

103 rsal strategy based on amphiphilicity-driven self-assembly for the crafting of high aspect ratio, 2D

104 e cubic nanoparticles of block copolymers by self-assembly from aqueous solutions at room temperature

105 ) into fabrics through direct solution-phase self-assembly from simple molecular building blocks.

106 zed Surface Plasmon Resonance biosensor with self-assembly gold nanoislands (SAM-AuNIs) can be used t

107 Furthermore, colloidal self-assembly has been utilized to help manufacturers ma

108 Although multicomponent self-assembly has produced complex synthetic nanostructu

109 Although recent advances in E. coli self-assembly have greatly simplified cloning, these hav

110 active immunization agent targeting amyloid self- assembly in a diabetes-associated phenotype transg

111 s, can significantly alter the efficiency of self-assembly in a biological context.

112 prepared via aqueous polymerization-induced self-assembly in either the presence or absence of silic

113 studied, the energetics of cation-pi-driven self-assembly in molecular films remains uncharted.

114 microscopy imaging to visualize nanoparticle self-assembly in real time.

115 Polymer self-assembly in solution prior to film fabrication make

116 e a soft repulsive shoulder that governs the self-assembly in this system.

117 Controlling supramolecular self-assembly in water-based solutions is an important p

118 s are discussed, including their spontaneous self-assembly into aggregates.

119 amyloid-beta (Abeta) peptide modulates their self-assembly into amyloid fibrils and may link the path

120 beta-sheet region of lysozyme for initiating self-assembly into amyloid fibrils.

121 ng is to control and program the directional self-assembly into chiral structures.

122 fferent point chiralities, and observe their self-assembly into europium (Eu) tetrametallic tetrahedr

123 ile platform for genetically pre-programming self-assembly into micelles of varied size and shape.

124 (IND), to a phospholipid that allows prodrug self-assembly into nanovesicles or incorporation into a

125 After self-assembly into polymeric micelles, they are capable

126 d chemical reactivity, and demonstrate their self-assembly into size-specific cylindrical micelle bui

127 cule surfactant that undergoes water-induced self-assembly into spherical micelles, which pack into a

128 l groups with >2 carboxylic acids diminished self-assembly into ThT-positive fibrils and instead prom

129 governing their spatial organization, i.e., self-assembly, into functional materials.

130 tures formed via the mechanisms of molecular self-assembly is a challenge that could yield a range of

131 Biotin/(strept)avidin self-assembly is a powerful platform for nanoscale fabri

132 riangular nanoprisms, we show that colloidal self-assembly is analogous to polymerization in three as

133 The degree to which forces of self-assembly is conserved across spider glands and spec

134 Self-assembly is likely to play an important role in the

135 One key challenge in synthetic molecular self-assembly is to construct artificial structures that

136 Although dissipative self-assembly is ubiquitous in nature, where it gives ri

137 Here, colloidal self-assembly is used to organize polystyrene-grafted Au

138 Bs) and can be easily modified to control EB self-assembly kinetics.

139 Controlling self-assembly leads to robust, machinable formats that e

140 Ordered amphiphile self-assembly materials with a tunable three-dimensional

141 tamaterials can undergo intrinsically driven self-assembly, metaphorically pulling themselves up into

142 A rapid supramolecular self-assembly methodology at ambient conditions to synth

143 for soft lyotropic materials in general, the self-assembly methodology enables the development of lar

144 combining top-down fabrication and bottom-up self-assembly methods.

145 odern soft matter science is to discover new self-assembly modalities to precisely control the placem

146 Here we report two self-assembly modes of nanoparticles in linear defects-d

147 de with some research directions (predicting self-assembly, multi-components systems, and nonmetallic

148 Circular dichroism studies indicated that self-assembly occurs at concentrations as low as 0.01 mu

149 ized through iron(II)-templated subcomponent self-assembly of 2-formylpyridine and C2-symmetric diami

150 The self-assembly of 4-fold-symmetric porphyrins with Fe(II)

151 This represents the first demonstration of self-assembly of a carborane-based molecule in the absen

152 dels, on multiple scales, to investigate the self-assembly of a spherical cage, focusing on the regul

153 like a Star of David were synthesized by the self-assembly of a tetratopic pyridyl ligand with a 180

154 Although the self-assembly of alpha-synuclein (alphaS) into oligomers

155 rch progress on the molecular and mesoscopic self-assembly of amyloid-beta, alpha synuclein, human is

156 ne, Ru=Ruthenium) was initially used for the self-assembly of an anticipated hexagram upon reaction w

157 B6 (pyridoxal phosphate, P5P) modulates the self-assembly of ASC, we rationally designed an N-termin

158 Temperature-induced self-assembly of block copolymers allows the formation o

159 Micelles formed by the self-assembly of block copolymers in selective solvents

160 Rectangular platelets formed by the self-assembly of block copolymers in selective solvents

161 e in determining capsid structure during the self-assembly of CCMV-like particles.

162 The self-assembly of cellulose nanocrystals is a powerful me

163 We propose that self-assembly of centromeric chromatin into an extended

164 ll model through the spontaneous interfacial self-assembly of copolymer molecules on biopolymer coace

165 Self-assembly of coupled molecular devices provides an o

166 Here the authors show the self-assembly of crystalline block copolymers into size-

167 les-has proven a versatile tool to guide the self-assembly of defects such as scars, pleats, folds, b

168 sent three-dimensional microshells formed by self-assembly of densely-packed 5 nm gold nanoparticles

169 Crystallization-driven self-assembly of diblock copolymers into cylindrical mic

170 s can be prepared via crystallization-driven self-assembly of diblock copolymers.

171 he most widely used molecules for programmed self-assembly of discrete nanostructures.

172 Here, the authors program the sequential self-assembly of DNA functionalized emulsions by alterin

173 Here, we demonstrate programmed sequential self-assembly of DNA functionalized emulsions.

174 e we describe a cubic host obtained from the self-assembly of Fe(II) and a zinc-porphyrin-containing

175 This work establishes that the self-assembly of ferritin-MOFs is highly robust and that

176 The direct self-assembly of G2 and G3 triangles by mixing organic l

177 ctured nanomaterials is demonstrated through self-assembly of graphene quantum dots.

178 The self-assembly of graphene sheets is driven thermodynamic

179 poly(NIPAAm-co-DEAEMA) directed hierarchical self-assembly of GrO and glucose oxidase (GOx).

180 ar-bonding structures in the two-dimensional self-assembly of halogenbenzene molecules on a metal sur

181 proteins as a generic mechanism driving the self-assembly of highly dynamic, nonequilibrium, protein

182 Self-assembly of individual building blocks into highly

183 Here, Camilli et al. show the self-assembly of large arrays of highly-uniform graphene

184 s (>10 GPa) have been fabricated through the self-assembly of ligand-stabilized inorganic nanocrystal

185 Mixed self-assembly of ligands 1, 2, 1,6-hexanediamine (HDA),

186 cubic two-phase structure, reported for the self-assembly of low molecular weight surfactants, for e

187 Hydrogels formed by the self-assembly of low-molecular-weight gelators (LMWGs) a

188 We have programmed the self-assembly of micron-sized colloidal clusters with st

189 ects of chemical and entropic control on the self-assembly of molecules adsorbed to metal surfaces.

190 terials can serve as templates for selective self-assembly of molecules or nanoclusters, as well as f

191 Self-assembly of multiple building blocks via hydrogen b

192 Self-assembly of nanomaterials to yield a wide diversity

193 ficial) templates, the amphiphilicity driven self-assembly of nanoparticle vesicles from polymer-graf

194 This mode of self-assembly of nanoparticles in disclinations expands

195 ns demonstrate an evolved set of linkers for self-assembly of nanoparticles into volumetric materials

196 etamaterials by manipulating the directional self-assembly of nanoparticles using programmable surfac

197 ynthesis of nanostructured materials through self-assembly of nanoparticles.

198 olecular building block for the programmable self-assembly of nanostructured systems-was to use DNA t

199 ructural motif can be exploited to guide the self-assembly of naphthalene diimide and perylene diimid

200 e constructed helical fibrils through chiral self-assembly of nucleobase-peptide conjugates (NPCs), w

201 r has been a great challenge in programmable self-assembly of organic molecules.

202 We report here on the self-assembly of peptide amphiphiles and fatty acids dri

203 ngth of a supramolecular nanofiber formed by self-assembly of peptide amphiphiles.

204 t, electrochemical immunosensors prepared by self-assembly of peptides afforded higher sensitivities

205 rs within micro-architectures that guide the self-assembly of physio-mimetic laminar cardiac tissues.

206 Gels, in particular those obtained via self-assembly of pi-conjugated molecules, are dynamic ma

207 Self-assembly of plasma membrane-associated Ras GTPases

208 Self-assembly of PNPs on PGE surface and adhesion of DLD

209 conventional MOFs can also be applied to the self-assembly of protein-based crystalline materials.

210 Dynamic covalent chemistry enables self-assembly of reactive building blocks into structura

211 es, efforts on understanding and controlling self-assembly of small molecules have produced a large l

212 ecular scientists to explore the bioinspired self-assembly of small molecules in cell milieu.

213 These observations indicate that the self-assembly of small molecules, as multifaceted entiti

214 Controlling the self-assembly of supramolecular structures is vital for

215 Alzheimer's disease is characterized by the self-assembly of tau and amyloid beta proteins into olig

216 , that is crucial for higher order structure self-assembly of the key intrinsically disordered EMPs,

217 The self-assembly of the microtubule associated tau protein

218 ide directional information that enables the self-assembly of the particles into higher-order structu

219 Thanks to the in situ supramolecular self-assembly of the pi-gelator occurring within the cav

220 force microscopy to analyze the kinetics of self-assembly of the planar CA lattice on a substrate an

221 Self-assembly of the reactants in well-defined molecular

222 ucture and thermodynamics is a result of the self-assembly of the sequence-designed copolymer in the

223 We find that self-assembly of the tiles into arrays is unaffected by

224 fabricate an electrochemical aptasensor via self-assembly of thiol-modified aptamer on gold electrod

225 oidal particles, we demonstrate the parallel self-assembly of three-dimensional microconstructs, evin

226 utocatalysis successfully leads to continual self-assembly of three-dimensional nanospheres.

227 hT-positive fibrils and instead promoted the self-assembly of ThT-negative fibrils and amorphous comp

228 A novel supramolecular cage built from the self-assembly of tris(2-pyridylmethyl)amine zinc complex

229 The self-assembly of two derivatives of KLVFF, a fragment Ab

230 Its crystal structure revealed the self-assembly of two Pt-centered Ag icosahedra through v

231 Our results indicate that self-assembly of two-dimensional rotor crystals produces

232 nt a dual fluorescent-nuclear probe based on self-assembly of vancomycin (Van) on Gram-positive bacte

233 ed imprinted micelles was synthesized by the self-assembly of vinylic-C60-monoadduct with sodium dode

234 Self-assembly offers a general strategy for the preparat

235 Self-assembly offers a powerful way to control the compl

236 programming and theoretical analysis of tile self-assembly often makes use of abstract logical models

237 Here, we show the self-assembly on Au(111) of an expanded aza-porphyrin, n

238 sed to prepare the bio-recognition layer via self-assembly on interdigitated gold surfaces.

239 the intermediate stages of fluid-mediated NP self-assembly on patterned surfaces will have important

240 st of the key papers describing bicomponents self-assembly on solid surface in an ultrahigh vacuum en

241 However, the thermodynamic stability of such self-assemblies over an extended temperature and pressur

242 Unlike typical self-assembly paradigms, these structures are held toget

243 lf-assembly, demonstrating that control over self-assembly pathways can enable control over covalent

244 structural basis for understanding LC domain self-assembly, phase separation, and regulation by post-

245 ombic dodecahedra, we investigate the entire self-assembly process from disordered suspensions to lar

246 nchored on the outer surface of MOF NPs in a self-assembly process generating multifunctional nanosys

247 The self-assembly process leads to giant vesicles with radii

248 n) and entropic control (temperature) on the self-assembly process should be clarified.

249 In this work we develop a new model of the self-assembly process starting from the underlying physi

250 e diamond structure, using DNA to direct the self-assembly process.

251 dipolar interactions induced the anisotropic self-assembly process.

252 red the mechanism for length control of this self-assembly process.

253 of desired nanostructures from the molecular self-assembly process.

254 y of the ligand is expected to influence the self-assembly process.

255 decipher the full sequence of this oriented self-assembly process.

256 e shape and topology are known to guide this self-assembly process.

257 they allow control of the morphology through self-assembly processes and, furthermore, are capable of

258 Although self-assembly processes have been developed to exploit b

259 By properly controlling the self-assembly processes, the authors report the fabricat

260 Nanoparticle self-assembly promises scalable fabrication of composite

261 macromolecules with programmable folding and self-assembly properties.

262 iguration happens on shorter timescales than self-assembly, providing guidance for developing means o

263 We also show that this self-assembly reaction is compatible with a 6-TG-modifie

264 Further experiments show that self-assembly reduces the rate of the reaction of the fa

265 Molecular self-assembly refers to the spontaneous assembly of mole

266 tide-based autocatalysts that are capable of self-assembly represents a promising method for the deve

267 Anion-templated aqueous self-assembly resulted in the formation of an endohedral

268 Co Prism is obtained in one self-assembly step that organizes six total building blo

269 We report the discovery of self-assembly strategies leading to the emergence of lip

270 We report a protein-templated polymer self-assembly strategy for forming a sheath around the p

271 ategy applied to on-surface chemistry allows self-assembly structures to be generated from molecules

272 Additive manufacturing and self-assembly techniques enable lattice design at the na

273 A solvent-free induced self-assembly technology for the synthesis of nitrogen-d

274 ussion, we introduce a unified model of tile self-assembly that clarifies the relationships between s

275 the micelles to membranes, thus rescuing by self-assembly the cargo-induced loss of the CPP affinity

276 Self-assembly, the autonomous organization of components

277 as template-directed synthesis and stepwise self-assembly, this design enables the formation of 2D a

278 t pi-conjugated peptides prior to initiating self-assembly through solution acidification.

279 fundamental aspects of the thermodynamics of self-assembly through to the development of new material

280 vitro, UvrD needs to be activated either by self-assembly to form a dimer or by interaction with an

281 3), a boron cluster amino acid that exhibits self-assembly to form micron-sized constructs.

282 r-based fabrication methods based on protein self-assembly to generate 3D silk fibroin bulk materials

283 any biological and synthetic systems exploit self-assembly to generate highly intricate closed supram

284 Here we present a method using molecular self-assembly to generate hydrogel-based 3D architecture

285 Here we demonstrate self-assembly to nanoscale cuboidal particles with a bic

286 y semiconducting carbon nanotube source, and self-assembly to pack nanotubes into full surface-covera

287 Besides enabling the self-assembly to result in supramolecular hydrogels upon

288 s and remains significantly hydrated even as self-assembly triples the extent of non-polar side chain

289 Block polymer self-assembly typically translates molecular chain conne

290 ed with hydrophobic small molecules and post self-assembly undergo covalent cross-linking using coppe

291 The approach provides insights into dynamic self-assembly using competing pathways that may aid the

292 olymer synthesis and the resulting molecular self-assembly using fluorescence microscopy.

293 Self-assembly via oriented attachment of crystalline nan

294 sidues in isolation plays a key role in IAPP self-assembly, whereas simultaneous substitution of four

295 its role in amyloid seeding and homogeneous self-assembly, which applies both in vitro and in vivo,

296 e capabilities for molecular recognition and self-assembly, which have fostered its widespread incorp

297 approach to monitor the formation of polymer self-assemblies with multiple and complex morphological

298 ification, and quantitation of these complex self-assemblies with regards to morphology, size, molar

299 ield (overall 53%) using coordination-driven self-assembly with no chromatographic purification steps

300 g targeted cell penetration and non-covalent self-assembly with therapeutic cargo, forming HER3-homin