ライフサイエンスコーパス: nanostructured

1 m the Yucca extract lead to the formation of nanostructured adsorption layers which are responsible f

2 tomic defects that are generally inherent in nanostructured alloys remains a challenge.

3 n studied as a versatile route to synthesize nanostructured alloys.

4 and chemical properties that arise from the nanostructured and material characteristics of nanoparti

5 t-time demonstration of a biofunctionalized, nanostructured, and isoporous membrane integrated with a

6 The developed nanostructured aptasensor demonstrated a low detection l

7 ged Rebar Graphene (BRG) onto newly designed nanostructured aptasensor for label free impedimetric se

8 onic sensor taking advantage of the periodic nanostructured array of commercial Blu-ray discs.

9 The nanostructured arrays were fabricated by focused ion bea

10 Nanostructured artificial receptor materials with unprec

11 rface Raman scattering enhancement on chiral nanostructured Au films (CNAFs) equipped in the normal R

12 y the local electrochemical potential at the nanostructured Au STM tip.

13 aF2, by ball milling it with BaF2, to create nanostructured Ba1-xCaxF2 solid solutions and increased

14 ly, a perspective on the future direction of nanostructured BaTiO3-based materials is presented.

15 adhered bacteria was consistent for all the nanostructured bD surfaces at around 50% of the value fo

16 actericidal effect of 20-30%, shows that the nanostructured bD surfaces supported significantly fewer

17 Samples of nanostructured beta-Ga wires were synthesized by a novel

18 In this paper, a nanostructured biosensor is developed to detect glucose

19 for the formation of Al-based high-strength nanostructured bulk alloys by warm working.

20 advances in the development of heterogeneous nanostructured carbon-based catalysts for electrochemica

21 ns is vital for the development of efficient nanostructured catalysts.

22 ng from molecular systems to single-atom and nanostructured catalysts.

23 ystals outperform those of commercial Pt and nanostructured catalysts.

24 ique acid-like local reaction environment on nanostructured catalytic surfaces and cut the energy bar

25 Nanostructured cellulose fabric with an air-bubble-enhan

26 Nanostructured ceria becomes profoundly more active due

27 Here we report the synthesis of nanostructured ceria using the green Deep Eutectic Solve

28 developments in low-temperature synthesis of nanostructured ceria, facilitating its large-scale manuf

29 In particular, the nanostructured chips reveal the persistence of small int

30 -dimensional, porous electrode materials and nanostructured coatings are forging a path toward more s

31 Proteins bound within the nanostructured coatings demonstrate enhanced stability a

32 Nanostructured coatings made with chitosan (100%Q), algi

33 possible to extend guava shelf life with ZnO nanostructured coatings with 100%Q or 90%Q-10%A for up t

34 id crystalline phase, leading to solid-state nanostructured colored films upon solvent evaporation, e

35 lectron microscopy (TEM) measurements reveal nanostructured compartments of incorporating components

36 First, major classes of nanostructured components, both inorganic reporters and

37 Inspired by nacre's architecture, a ternary nanostructured composite has been developed, wherein sta

38 These unique nanostructured composite thin films with large vertical

39 e present novel Cu-based metal-intermetallic nanostructured composites (MINCs), which exhibit high ul

40 oxygen biofuel cell based on transparent and nanostructured conducting supports.

41 This study develops a tunable 3D nanostructured conductive gel framework as both binder a

42 Besides, nanostructured copper electrodes have also demonstrated

43 digestates of the proportion of amorphous or nanostructured copper sulfides as well as amorphous or n

44 n the Cu foil is distinct from that on micro/nanostructured Cu.

45 uch high-efficiency single-junction devices, nanostructured device designs must be developed that max

46 well as the complex geometries of micro- and nanostructured devices.

47 oscopy of picoliter-volume solutions using a nanostructured diamond chip with dense, high-aspect-rati

48 Kehayias et al. present a nanostructured diamond grating with a high density of NV

49 Diamond based materials, and specifically nanostructured diamond has attracted much attention due

50 s, but in many device architectures they are nanostructured, disordered and buried away from the surf

51 e of solvophobic sequestration of water into nanostructured domains around cholinium cations.

52 remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rival

53 High-performance nanostructured electro-optical switches and logic gates

54 Such phenomena on nanostructured electrocatalysts explain their widely obs

55 m these model systems are then translated to nanostructured electrocatalysts, whereby controlled Cu e

56 erstandings are inapplicable for more active nanostructured electrocatalysts.

57 A nanostructured electrochemical DNA-based biosensor was p

58 Nanostructured electrochemical interfaces (electrodes) a

59 These findings allow us to propose a nanostructured electrode architecture that optimizes opt

60 cteria-DNA interactions were captured on BRG nanostructured electrode by using specific anti-E.coli D

61 cult to adapt to the spatially heterogeneous nanostructured electrode materials that are now commonly

62 One-dimensional (1D) micro- and nanostructured electrode materials with controllable pha

63 cium verrucaria was immobilized onto the ITO nanostructured electrode surface under formation of a bi

64 pports resulting in a flocculent, porous and nanostructured electrode surface.

65 s PeSHHA can be significantly enhanced using nanostructured electrodes and demonstrate the rapid, one

66 for such full-cell LIBs based on binder-free nanostructured electrodes are discussed.

67 Furthermore, fractal shaped gold nanostructured electrodes are examined, and it has been

68 Nevertheless, nanoionics and nanostructured electrodes development has been challengi

69 ion was acquired by employing high-curvature nanostructured electrodes for sensitive sample analysis

70 Nanostructured electrodes generally enhance electrochemi

71 asing the effective surface area via thicker nanostructured electrodes hinders the analyte's permeati

72 as well as other substrates for binder-free nanostructured electrodes in LIBs are summarized systema

73 potential applications of these binder-free nanostructured electrodes in practical full-cell-configu

74 Thus, nanostructured electrodes with binder-free designs are d

75 ggest a lower limit for the pore diameter in nanostructured electrodes.

76 fference of the (13)C NMR signals of the two nanostructured enantiomers vanished.

77 S-layer (glyco)-proteins (SLPs) form a nanostructured envelope that covers the surface of diffe

78 ork is to provide optimized formulations for nanostructured etoposide solutions and validate by means

79 in-situ DLW (isDLW) strategy for creating 3D nanostructured features directly inside of-and notably,

80 e manufacturing over machining of micro- and nanostructured features to health care.

81 Nanostructured ferritic alloys are considered as candida

82 this to the differences in properties of dry nanostructured fibers.

83 Here, we report that a nanostructured film of the small molecule DFP-4T, consis

84 t SERS-active, superhydrophobic and ivy-like nanostructured films of a molecular semiconductor, alpha

85 t-free organic vapor jet printing to deposit nanostructured films of small molecular pharmaceutical i

86 ion that the ability to readily integrate 3D nanostructured fluidic motifs with the entire luminal su

87 Nanostructured forms of stoichiometric In(2)O(3) are pro

88 r for convenient and accurate detection, the nanostructured FRET sensors were assembled onto a patter

89 The proposed bioactive platforms, based on nanostructured GaN substrates modified with thiolated ss

90 A 3D nanostructured gel framework with continuous electron pa

91 This 3D nanostructured gel-based framework represents a powerful

92 Here, recent developments and challenges for nanostructured gel-based materials for electrocatalysis

93 developed a novel conductometric device with nanostructured gold (Au) sensitive layer which showed hi

94 anti-PSA, are immobilized onto two adjacent nanostructured gold electrodes.

95 ined with both conventional unstructured and nanostructured gold film SPRI sensor chips show a clear

96 The catalytic properties of nanostructured gold have been connected to increased bin

97 roduct of spinoidal decomposition, possesses nanostructured grains and enhanced grain hardening.

98 chromatocytes, where the pigment resides in nanostructured granules, we find the lens protein Omega-

99 This nanostructured graphite allows fast and reversible inter

100 The nanostructured hafnium oxide (nHfO2) was used as a model

101 rodes with high local current density (e.g., nanostructured) have important implications on the selec

102 The wide variety of nanostructured heterogeneities in HEAs, including those

103 s based on earth-abundant metals, especially nanostructured heterogeneous catalysts, has been made du

104 following photo-cross-linking, the resultant nanostructured HRP@PGH/GNSs sensing film was successfull

105 gation) an attractive method for fabricating nanostructured hybrid films with potential applications

106 particles (HNPs), are an intriguing class of nanostructured hybrid materials with great potential in

107 Such a nanostructured hybrid organic-inorganic system represent

108 embly into crystalline frameworks or uniform nanostructured hydrogels of spherical, vesicular, or cyl

109 The anchor-like, nanostructured interface between PZT and Metglas, improv

110 of light-triggered reaction processes at the nanostructured interface.

111 Inspired by the nanostructured interfaces between tendons/ligaments/cart

112 Metasurfaces as artificially nanostructured interfaces hold significant potential for

113 Metasurfaces are engineered nanostructured interfaces that extend the photonic behav

114 So instead of just a nanostructured intermediate to be calcined, lithium tita

115 The OECT channel is integrated with a nanostructured isoporous membrane which has a strong aff

116 However, nanostructured laser desorption ionization platforms, su

117 dy reports a drug delivery system comprising nanostructured lipid carrier (NLCs) within liposomes (Li

118 drugs by different nanocarriers, we selected nanostructured lipid carriers (NLC) for the delivery bot

119 In this work, EGCG-loaded nanostructured lipid carriers (NLC) functionalized with

120 tive of this study was to develop functional nanostructured lipid carriers (NLCs) using beeswax (BW),

121 The objective of this study was to develop nanostructured lipid carriers (NLCs) with free phytoster

122 Nanostructured lipid carriers (NLCs) with mean size of 3

123 osome, solid-lipid nanoparticles (SLNs), and nanostructured lipid carriers (NLCs)), etc.

124 quential self-assembly and coacervation, and nanostructured lipid carriers (NLCs).

125 aluated as surfactants for the production of nanostructured lipid carriers (NLCs).

126 In this study, the role of nanostructured lipid carriers incorporated into whey pro

127 ulate systems (solid lipid nanoparticles and nanostructured lipid carriers), liposome entrapment, nan

128 ination of supramolecular solvents (SUPRAS), nanostructured liquids generated from amphiphiles throug

129 , and nanoporous membranes, as precursors to nanostructured magnetic ceramics, and as etch resists to

130 Nanostructured magnetic materials provide an efficient t

131 Nanostructured manganese oxides, e.g. MnO2, have shown l

132 We demonstrate depth sectioning of a nanostructured material into slices with 0.34 nm lateral

133 e oxide (GO) is conjugated with ZOL, and the nanostructured material is evaluated in terms viability,

134 ltured on nanoporous gold (np-Au) as a model nanostructured material system.

135 It reveals that the nanostructured material with plasmonic nanobiosensor pav

136 The comparable size of nanostructured materials and biomolecules enabled the in

137 he art of emerging chiral liquid crystalline nanostructured materials and their technological applica

138 interest in using electrochemistry to create nanostructured materials and to assess properties at the

139 Silica nanostructured materials are important in many fields, i

140 This work opens a new route to 1D micro- and nanostructured materials by customizing the precipitatin

141 rochemical science, in which the activity of nanostructured materials can be viewed as quantitative m

142 Nanostructured materials contain numerous grain boundari

143 Gold nanostructured materials exhibit important size- and sha

144 e found extensive use in creating functional nanostructured materials for assembly, catalysis, energy

145 , for the development of stimuli-responsive, nanostructured materials for technological applications

146 come especially powerful for screening novel nanostructured materials for their influence on cell beh

147 ty of materials ranging from noble metals to nanostructured materials have been employed as surface e

148 Advances in nanostructured materials have facilitated the developmen

149 Nanostructured materials have shown extraordinary promis

150 Bimetallic, nanostructured materials hold promise for improving cata

151 uning the magnetic anisotropic properties of nanostructured materials is a promising approach for man

152 Biological systems interact with nanostructured materials on a sub-cellular level.

153 elated research pertaining to amidoxime; and nanostructured materials such as metal-organic framework

154 A clear need exists for novel nanostructured materials that are capable to meet the pe

155 re may also aid in modeling the synthesis of nanostructured materials through self-assembly of nanopa

156 Here, we apply the proposed method to design nanostructured materials to maximize elastic properties.

157 In this work, 25 magnetic nanostructured materials were developed to remove the ma

158 niques enables the generation of macroscopic nanostructured materials with potential applications in

159 organic molecules, form a versatile class of nanostructured materials with potential applications in

160 rectly visualize the dynamics of defects and nanostructured materials, or even record molecular movie

161 Among the nanostructured materials, the carbonaceous material such

162 ry, their combination and consolidation into nanostructured materials, the strategies to electronical

163 tics and insecticides, to the fabrication of nanostructured materials, to the concentration and separ

164 ly determine the atomic structure of complex nanostructured materials.

165 vices has driven the investigation into many nanostructured materials.

166 le approach for the creation of a variety of nanostructured materials.

167 growth and stability of catalysts and other nanostructured materials.

168 on the growing area of superconductivity in nanostructured materials.

169 tio based Monte Carlo simulations in complex nanostructured materials.

170 s fields represent limit laser processing of nanostructured materials.

171 catalysts, organophosphorus scavengers, and nanostructured materials.

172 ffusion rate of molecular guests through the nanostructured matrix, as gauged by (19) F and (1) H NMR

173 ions for the electrosynthesis of other micro/nanostructured metal carbides/composites from metal oxid

174 es and still a big challenge in implementing nanostructured metal catalyst systems.

175 ts of the studies relating to fabrication of nanostructured metal oxide (NMO) based cancer biosensor.

176 Nanostructured metal oxide semiconductors have shown out

177 We demonstrate that a nanostructured metal thin film can achieve enhanced tran

178 Ultra-thin nanostructured metal-insulator-metal geometries result i

179 thermic combustion of mechanically-activated nanostructured metallic precursors in nitrogen and conso

180 By coupling to surface plasmons supported on nanostructured metallic surfaces, light can be confined

181 e design ultra-low stiffness in fully dense, nanostructured metals via the stabilization of a mechani

182 icroporous zeolites, mesoporous silicas, and nanostructured metals/metal oxides.

183 on in reacting with biological tissues, (ii) nanostructured metamaterial (Au) with special properties

184 prospect of an integrated research field on nanostructured metamaterials, microwave transmission, su

185 Here, we report the use of a nanostructured microelectrode (NME) platform for eSHHA t

186 ted strands are captured at the surface of a nanostructured microelectrode.

187 using the eSHHA approach in conjunction with nanostructured microelectrodes is an advantageous altern

188 We demonstrated that eSHHA on nanostructured microelectrodes leverages three effects:

189 roblast growth factor (bFGF) released from a nanostructured mineral coating maintains its biological

190 bilization strategy is presented, which uses nanostructured mineral coatings on medical devices.

191 biomimetic interactions between proteins and nanostructured minerals provide a new, broadly applicabl

192 ular attention has been paid to syntheses of nanostructured MIP films and MIP nanoparticles.

193 Characterization of the ZnONPs and the nanostructured modified electrode was performed by X-ray

194 Recently, the nanostructured modified molecularly imprinting polymer h

195 -design principle for creating double-gyroid nanostructured molecular assemblies based on atropisomer

196 Nanostructured molecular semiconductor films are promisi

197 hat possess good electrochemical properties, nanostructured morphology and functionality for bioconju

198 The nanostructured morphology, chemical characteristics and

199 -toxicity, good environmental stability, and nanostructured morphology.

200 Low-dimensional and nanostructured motifs impart added functionality which c

201 controlling the out-of-equilibrium state of nanostructured Mott insulators hold great promises for e

202 Here, we demonstrate that nanostructured, multilayer transition metal dichalcogeni

203 orted for the construction of a 3D honeycomb nanostructured, N,P-doped carbon aerogel incorporating i

204 ts enable the generation of 2D self-charging nanostructured networks on a large scale.

205 ing, to self-assemble two-dimensional carbon nanostructured networks on a large scale.

206 The macro-sized (meter-level) carbon nanostructured networks show extraordinary nanostructura

207 econvolution of the charge injected into the nanostructured Ni-Fe oxyhydroxide OER catalysts or into

208 Here we report that nanostructured NiFe oxide (NiFeO(x)) and nitride (NiFeN(

209 Nanostructured (NS) and ultrafine-grained (UFG) material

210 ption, scattering, and emission processes in nanostructured optoelectronic devices.

211 the two peptides to TiO(2) surfaces (either nanostructured or single-crystal TiO(2)(110)) was found

212 -thin high-k dielectric layer (Al2O3) with a nanostructured organic functional tail to create a platf

213 properties of the substantially more complex nanostructured oxide particles.

214 One-dimensional (1D) nanostructured oxides are proposed as excellent electron

215 We envision that embedded nanostructured oxygen carriers have the potential to ser

216 The nanostructured PDMS/titania tubes are superhydrophobic w

217 Our new approach using nanostructured phase transformation provides new opportu

218 all-solid-state thermal switching device by nanostructured phase transformation, i.e., modulation of

219 cerbates these uncertainties, especially for nanostructured photoanodes benefiting from small charge-

220 e fundamental theories of charge dynamics in nanostructured photoelectrodes, the development of photo

221 array on slides coated with a noncontinuous, nanostructured plasmonic gold film, enabling quantitativ

222 near-infrared-fluorescence amplification by nanostructured plasmonic gold substrates, for the simult

223 Nanostructured plasmonic materials can lead to the extre

224 device is presented, which is based on a 3D nanostructured polymer scaffold of the amorphous blue ph

225 A thin layer of a biocompatible nanostructured polypyrrole (PPy) was electrochemically d

226 photonic and plasmonic applications, we grew nanostructured porous silicon (n-PS) and hybrid n-PS/Ag

227 as realized through two main features of the nanostructured, porous fabric: a low solid fraction with

228 al of genetically modified VLPs as selective nanostructured probes for autonomous sensor functionaliz

229 design and optimization strategy to generate nanostructured probes that combine distinct plasmonic ma

230 Nanostructured Pt materials are the most popular and eff

231 t successful catalysts for this reaction are nanostructured Pt-alloy with a Pt-skin.

232 A comparative study of nanostructured PuO2 and Pu colloids produced by sonochem

233 Nanostructured quantum well and quantum dot III-V solar

234 In this work, we report a hierarchically nanostructured reduced graphene oxide nanosheets-polypyr

235 The PDOS of all nanostructured samples shows a slightly increased number

236 for the first time, is a method of producing nanostructured semiconductors in which an oxidant (Ox1 )

237 The performance of the ZnO nanostructured sensor electrode was evaluated against go

238 le method based on a novel electroanalytical nanostructured sensor has been developed to perform quan

239 unique structural and optical properties of nanostructured Si(2)Te(3) hold great potential applicati

240 The designed metasurface consists of nanostructured silver and indium tin oxide (ITO) electro

241 The particular characteristics of the nanostructured silver thus obtained are studied by elect

242 there are a few elastomeric composites with nanostructured silvers and carbon nanotubes showing mode

243 The nanostructured, single-component scaffold, obtained by i

244 Crack-free, ligand-free, phase-pure nanostructured solids, using colloidal nanocrystals as p

245 water molecules from the hydration shells of nanostructured solutes and calculate the free energetics

246 The work demonstrates the ability of the nanostructured SPRI chips to resolve fine morphological

247 rt an artificial phototropic system based on nanostructured stimuli-responsive polymers that can aim

248 Several nanostructured substrate-enabled CTC/CFNC assays are obs

249 Therefore, nanostructured substrates constitute a novel tool for in

250 Nanostructured substrates offer a unique solution to add

251 itive reagent-triggered release on different nanostructured substrates, allow for on-demand retrieval

252 ure/release, multimarker antibody cocktails, nanostructured substrates, and microfluidic chaotic mixe

253 investigated the impact dynamics on elastic nanostructured superhydrophobic substrates having membra

254 bound to organic absorber molecules to form nanostructured superlattices.

255 ated with this nanocomposite was employed as nanostructured support for the cross-linking of the enzy

256 Nanostructured supramolecular polymers (SPs) are filamen

257 mol.L(-1) of HAuCl(4) generates an adequate nanostructured surface and is a highly reproducible meth

258 o study the electrochemical responses of the nanostructured surface and the immobilization processes

259 zymatic fuel cell, as a result of the higher nanostructured surface area as confirmed by electrochemi

260 I) was reduced and deposited as As(0) on the nanostructured surface by applying a potential of -0.3 V

261 However, the effect of nanostructured surface on fluorescence intensity has lar

262 An optimized nanostructured surface shows a reduced surface reflectiv

263 ayer of the immobilized half-antibody on the nanostructured surface was carried out by incubation at

264 Stepwise modifications of the nanostructured surface were characterized by electrochem

265 en-oligonucleotide probes immobilized on the nanostructured surface.

266 our electrodynamic simulations suggest that nanostructured surfaces alter the fluorescence intensity

267 hysico-mechanical interactions between these nanostructured surfaces and bacteria lead to bacterial k

268 This review considers how high-aspect-ratio nanostructured surfaces are used to both stimulate and s

269 The mechano-bactericidal activity of nanostructured surfaces has become the focus of intensiv

270 od based on molecular dynamics simulation of nanostructured surfaces providing in silico predictions,

271 The development of new antibacterial nanostructured surfaces shows excellent prospects for ap

272 etection limit of eSHHA, taking advantage of nanostructured surfaces to allow the use of longer captu

273 Nanostructured surfaces with quasi-random geometries can

274 The confinement of noble gases on nanostructured surfaces, in contrast to bulk materials,

275 Here, we report a vivid self-assembled nanostructured system which overcomes these challenges v

276 Thus, switching rates can be controlled in nanostructured systems by designing geometrical paramete

277 Nanostructured systems have the potential to revolutioni

278 to our knowledge the investigation of novel nanostructured systems with this natural raw material, s

279 block for the programmable self-assembly of nanostructured systems-was to use DNA to construct three

280 ion, and electrochemical characterisation of nanostructured Te films has been studied.

281 ectroscopy were employed to characterize the nanostructured Te films on FTO surface.

282 h light is significantly enhanced due to the nanostructured/textured top surface.

283 These nanostructured thin COF films demonstrate remarkable sol

284 at a buried metal-dielectric interface in a nanostructured thin film.

285 e authors demonstrate how a CMOS-compatible, nanostructured, thin junction structure can make use of

286 ble for the enhancement of TE performance in nanostructured Ti1-x Hfx NiSn1-y Sby half-Heusler alloys

287 To achieve large current densities, a nanostructured TiO2 scaffold, processed at low temperatu

288 The nanostructured tip has a low work function of 2.07 eV (l

289 tigated by synthesizing catalytically active nanostructured TMDs in bulk quantity using a liquid-base

290 Designing nanostructured TMNs with tailored morphology and good di

291 ro)catalysis, and energy storage are usually nanostructured to expose particular surface sites, but p

292 s with aligned or randomly organized fibrous nanostructured topographies.

293 usly produced microphase-separated sub-10-nm nanostructured ultrathin films in the form of alternatin

294 es hinders the analyte's permeation into the nanostructured volume and limits its access to deeper el

295 tivated organic light emitting device with a nanostructured, wide band gap semiconductor layer.

296 Since, nanostructured WO3 is a well known catalyst, the simulta

297 s were fabricated by facile spray coating of nanostructured WO3 on stainless steel meshes and compare

298 ured copper sulfides as well as amorphous or nanostructured zinc sulfides and zinc phosphate as compa

299 ariation) for cTnT in HS was demonstrated on nanostructured ZnO electrodes.

300 Nanostructured ZOL-GO with an optimum performance is syn