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1 tomic defects that are generally inherent in nanostructured alloys remains a challenge.
2  of molecular beacon biosensors based on the nanostructured aluminum oxide or anodic aluminum oxide (
3  and chemical properties that arise from the nanostructured and material characteristics of nanoparti
4                                The developed nanostructured aptasensor demonstrated a low detection l
5 ged Rebar Graphene (BRG) onto newly designed nanostructured aptasensor for label free impedimetric se
6 onic sensor taking advantage of the periodic nanostructured array of commercial Blu-ray discs.
7                                          The nanostructured arrays were fabricated by focused ion bea
8                                              Nanostructured artificial receptor materials with unprec
9                    The SEC system includes a nanostructured Au surface that serves dual roles as the
10                                          The nanostructured Au WE enables highly sensitive in situ SE
11  the iron oxidation marker band nu4 with the nanostructured Au working electrode under precise potent
12 aF2, by ball milling it with BaF2, to create nanostructured Ba1-xCaxF2 solid solutions and increased
13                                   Samples of nanostructured beta-Ga wires were synthesized by a novel
14    Experimental results illustrated that the nanostructured biosensor clearly discriminates between m
15                             In this paper, a nanostructured biosensor is developed to detect glucose
16  for the formation of Al-based high-strength nanostructured bulk alloys by warm working.
17 nsing' all-polymer phototransistors with the nanostructured bulk heterojunction (BHJ) layers of visib
18 ine alloys, opening the door to a variety of nanostructured bulk materials processed in arbitrary sha
19 lity-engineering strategy in which we design nanostructured, bulk high-entropy alloys with multiple c
20                      This paper demonstrates nanostructured capillary tubes for surface enhanced Rama
21                         The incorporation of nanostructured carbon has been recently reported as an e
22 h reactions, several molecularly defined and nanostructured catalysts have been developed and intensi
23 e origin of the electrocatalytic activity of nanostructured catalysts toward the aforementioned react
24                   Therefore, mesh-like Ti/Pt nanostructured catalysts were created using a nanosphere
25  materials available for these applications, nanostructured cationic block copolyelectrolytes offer m
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                    Proteins bound within the nanostructured coatings demonstrate enhanced stability a
30                                  Hot-pressed nanostructured compacts (Eg approximately 0.85 eV) exhib
31                      First, major classes of nanostructured components, both inorganic reporters and
32 upercapacitors with aqueous electrolytes and nanostructured composite electrodes are attractive becau
33  Inspired by nacre's architecture, a ternary nanostructured composite has been developed, wherein sta
34 e present novel Cu-based metal-intermetallic nanostructured composites (MINCs), which exhibit high ul
35 oxygen biofuel cell based on transparent and nanostructured conducting supports.
36             This study develops a tunable 3D nanostructured conductive gel framework as both binder a
37  presents the representative applications of nanostructured conductive polymers as active electrode m
38                                    Recently, nanostructured conductive polymers have aroused consider
39  and high-performance devices based on these nanostructured conductive polymers have been realized.
40 design rules, advantages, and limitations of nanostructured conductive polymers in the energy storage
41                                          The nanostructured copper is easily formed in situ during th
42 digestates of the proportion of amorphous or nanostructured copper sulfides as well as amorphous or n
43                             Here we report a nanostructured copper surface that gives high selectivit
44                                              Nanostructured CoPS electrodes achieved a geometrical ca
45 satile tool to characterize these micro- and nanostructured devices in terms of their topography.
46 led carbon nanotube (SWNT) photovoltaics and nanostructured devices is maintaining the nanotubes in t
47 ecture with profound importance for advanced nanostructured devices.
48 well as the complex geometries of micro- and nanostructured devices.
49 oscopy of picoliter-volume solutions using a nanostructured diamond chip with dense, high-aspect-rati
50                    Kehayias et al. present a nanostructured diamond grating with a high density of NV
51    Diamond based materials, and specifically nanostructured diamond has attracted much attention due
52 s, but in many device architectures they are nanostructured, disordered and buried away from the surf
53 e of solvophobic sequestration of water into nanostructured domains around cholinium cations.
54  remarkable practical utility by preparing a nanostructured earth abundant metal catalyst which rival
55 m these model systems are then translated to nanostructured electrocatalysts, whereby controlled Cu e
56 cteria-DNA interactions were captured on BRG nanostructured electrode by using specific anti-E.coli D
57 SPEC) with a mesoporous SnO2/TiO2 core/shell nanostructured electrode derivatized with a surface-boun
58 cult to adapt to the spatially heterogeneous nanostructured electrode materials that are now commonly
59              One-dimensional (1D) micro- and nanostructured electrode materials with controllable pha
60 cium verrucaria was immobilized onto the ITO nanostructured electrode surface under formation of a bi
61 pports resulting in a flocculent, porous and nanostructured electrode surface.
62 m dots, allowing the generation of localized nanostructured electrode surfaces.
63 x was adsorbed onto this chemically modified nanostructured electrode with high surface loading of el
64     In this study, we report a highly active nanostructured electrode, NanoCOT, which contains carbon
65             Furthermore, fractal shaped gold nanostructured electrodes are examined, and it has been
66 lobin (Mb) on aptamer functionalized rGO/CNT nanostructured electrodes by measuring its direct electr
67           The aptamer functionalized rGO/CNT nanostructured electrodes demonstrated a significant inc
68                 Nevertheless, nanoionics and nanostructured electrodes development has been challengi
69 ggest a lower limit for the pore diameter in nanostructured electrodes.
70     A tentative application of the developed nanostructured enzyme-based biosensor was performed eval
71 e manufacturing over machining of micro- and nanostructured features to health care.
72                                 Furthermore, nanostructured FeOF has never been reported.
73 cancies in Y-Ti-O-enriched nanoclusters in a nanostructured ferritic alloy using a combination of sta
74 ate the fast deposition of submonolayers and nanostructured films of a model electron-transporting po
75 t SERS-active, superhydrophobic and ivy-like nanostructured films of a molecular semiconductor, alpha
76 t-free organic vapor jet printing to deposit nanostructured films of small molecular pharmaceutical i
77 lectronic states and transport properties of nanostructured flower-like molybdenum disulphide grown b
78 r for convenient and accurate detection, the nanostructured FRET sensors were assembled onto a patter
79                                         A 3D nanostructured gel framework with continuous electron pa
80                                      This 3D nanostructured gel-based framework represents a powerful
81 e a platinum (Pt) surface was patterned with nanostructured gold (Au) fingers with different film thi
82 developed a novel conductometric device with nanostructured gold (Au) sensitive layer which showed hi
83 n of gold into the nanopores, resulting in a nanostructured gold electrode with a well-defined surfac
84 ium verrucaria bilirubin oxidase (MvBOx) and nanostructured gold electrodes.
85  structural changes in random semicontinuous nanostructured gold films.
86                  The catalytic properties of nanostructured gold have been connected to increased bin
87               For bioanode construction, the nanostructured gold microelectrodes were further modifie
88             Although inert in its bulk form, nanostructured gold supported on oxides has been found t
89 coherent dynamics of plasmonic hotspots on a nanostructured gold surface with spatial resolution of a
90 roduct of spinoidal decomposition, possesses nanostructured grains and enhanced grain hardening.
91 of quantum confinement of Dirac electrons in nanostructured graphene has proven surprisingly challeng
92                                         This nanostructured graphite allows fast and reversible inter
93                                          The nanostructured hafnium oxide (nHfO2) was used as a model
94 on by probing quasi-ballistic transport near nanostructured heaters down to 30 nm using ultrafast opt
95 ited on both thin film and high-aspect ratio nanostructured hematite photoanodes.
96 es higher than a Pt electrode because of its nanostructured high surface area and favorable OER kinet
97        The diatom frustule is an intricately nanostructured, highly porous biogenic silica material d
98 s an effective strategy for the synthesis of nanostructured hybrid and inorganic materials.
99 gation) an attractive method for fabricating nanostructured hybrid films with potential applications
100                                       Such a nanostructured hybrid organic-inorganic system represent
101                             The anchor-like, nanostructured interface between PZT and Metglas, improv
102 of light-triggered reaction processes at the nanostructured interface.
103 ough adhesive interactions between cells and nanostructured interfaces have been studied extensively,
104 tensively, there is a paucity of data on how nanostructured interfaces repel cells by directing cell
105                         So instead of just a nanostructured intermediate to be calcined, lithium tita
106 nation of atomic-scale crystal structure for nanostructured intermetallic alloys, such as magnetic al
107  catalysts are still much lower than that of nanostructured IrO2 and RuO2 catalysts.
108 mination of Pb(II) and Cd(II) at the bismuth nanostructured layer formed on the working electrode by
109 ined drug delivery system (CDDS) composed of nanostructured lipid carrier (NLC) and PEGylated poly(am
110 dy reports a drug delivery system comprising nanostructured lipid carrier (NLCs) within liposomes (Li
111                    In this work, EGCG-loaded nanostructured lipid carriers (NLC) functionalized with
112 tive of this study was to develop functional nanostructured lipid carriers (NLCs) using beeswax (BW),
113                                              Nanostructured lipid carriers (NLCs) with mean size of 3
114                   In this study, the role of nanostructured lipid carriers incorporated into whey pro
115  time the low temperature superplasticity of nanostructured low carbon steel (microalloyed with V, N,
116 ed on a DNA hybridization strategy utilizing nanostructured magnesium oxide (nMgO; size >30 nm) parti
117 , and nanoporous membranes, as precursors to nanostructured magnetic ceramics, and as etch resists to
118                                              Nanostructured manganese oxides, e.g. MnO2, have shown l
119 on reaction can create a highly crystalline, nanostructured MAPbI3 film with micrometer grain size an
120         We demonstrate depth sectioning of a nanostructured material into slices with 0.34 nm lateral
121 ltured on nanoporous gold (np-Au) as a model nanostructured material system.
122                          It reveals that the nanostructured material with plasmonic nanobiosensor pav
123 of the application of one particular type of nanostructured material, i.e. nanofibres, for use in ele
124   Porous anodized aluminum oxide (pAAO) is a nanostructured material, which due to its optical proper
125 osites offers new levels of tailorability to nanostructured materials and promises new opportunities
126                                       Silica nanostructured materials are important in many fields, i
127                  Resonant absorbers based on nanostructured materials are promising for variety of ap
128 This work opens a new route to 1D micro- and nanostructured materials by customizing the precipitatin
129 rochemical science, in which the activity of nanostructured materials can be viewed as quantitative m
130                                              Nanostructured materials contain numerous grain boundari
131                                         Gold nanostructured materials exhibit important size- and sha
132 e found extensive use in creating functional nanostructured materials for assembly, catalysis, energy
133 ve led to the development of a wide range of nanostructured materials for building novel electrochemi
134 , for the development of stimuli-responsive, nanostructured materials for technological applications
135 come especially powerful for screening novel nanostructured materials for their influence on cell beh
136      The control of interfaces in engineered nanostructured materials has met limited success compare
137                                              Nanostructured materials have been developed to recapitu
138                                              Nanostructured materials have shown extraordinary promis
139                                  Bimetallic, nanostructured materials hold promise for improving cata
140             Biological systems interact with nanostructured materials on a sub-cellular level.
141 stals are a fascinating class of crystalline nanostructured materials since they combine the properti
142                     The results suggest that nanostructured materials such as f-MWCNTs are an attract
143 elated research pertaining to amidoxime; and nanostructured materials such as metal-organic framework
144      In this Review, we offer an overview of nanostructured materials that are either already commerc
145 t, there is substantial interest in creating nanostructured materials that control transport of these
146 rticles during polymerisation leads to novel nanostructured materials that offer enticing prospects f
147 re may also aid in modeling the synthesis of nanostructured materials through self-assembly of nanopa
148             Complex materials are defined as nanostructured materials with combinations of structure
149 organic molecules, form a versatile class of nanostructured materials with potential applications in
150 nt progress in the design and fabrication of nanostructured materials with various optical responses
151 se anomalous behavior in a broad spectrum of nanostructured materials, and simultaneously suggest a s
152 such confined spaces can be found in various nanostructured materials, such as zeolites, nanoporous o
153                                    Among the nanostructured materials, the carbonaceous material such
154 ry, their combination and consolidation into nanostructured materials, the strategies to electronical
155 tics and insecticides, to the fabrication of nanostructured materials, to the concentration and separ
156 tio based Monte Carlo simulations in complex nanostructured materials.
157 s fields represent limit laser processing of nanostructured materials.
158 al sophistication and realize the promise of nanostructured materials.
159 cations in the synthesis of new carbon-based nanostructured materials.
160  growth and stability of catalysts and other nanostructured materials.
161 ilitating improvement and rational design of nanostructured materials.
162 deling radiation displacements and damage in nanostructured materials.
163 to grow films, form coatings, and synthesize nanostructured materials.
164 le approach for the creation of a variety of nanostructured materials.
165  on the growing area of superconductivity in nanostructured materials.
166 ions for the electrosynthesis of other micro/nanostructured metal carbides/composites from metal oxid
167 ts of the studies relating to fabrication of nanostructured metal oxide (NMO) based cancer biosensor.
168                                              Nanostructured metal oxide semiconductors have shown out
169  This method provides a new avenue to create nanostructured metal oxide/graphene materials for advanc
170                        We demonstrate that a nanostructured metal thin film can achieve enhanced tran
171 demonstrate that light transmitted through a nanostructured metal thin film without any apertures can
172                           The development of nanostructured metal-dielectric materials, suitable for
173 is work, the immobilization of DNA probes on nanostructured metal-dielectric/semiconductor substrates
174                                   Ultra-thin nanostructured metal-insulator-metal geometries result i
175                            Here we combine a nanostructured metallic surface with a heavily doped Si
176               Structural colour arising from nanostructured metallic surfaces offers many benefits co
177 By coupling to surface plasmons supported on nanostructured metallic surfaces, light can be confined
178                                Moreover, the nanostructured metallopolymer exhibits efficient electro
179                                 For example, nanostructured metals exhibit extremely high strength, b
180 e design ultra-low stiffness in fully dense, nanostructured metals via the stabilization of a mechani
181 nal SERS substrates which are based on rigid nanostructured metals, our plasmene nanosheets are mecha
182 he recognition mechanisms of biomolecules on nanostructured metals, semimetals, oxides, phosphates, c
183 on in reacting with biological tissues, (ii) nanostructured metamaterial (Au) with special properties
184 pproaching tens of centimetres, these unique nanostructured metamaterials might find use in a broad a
185  prospect of an integrated research field on nanostructured metamaterials, microwave transmission, su
186 e establish that the circular dichroism in a nanostructured metasurface occurs due to handedness-depe
187                  These findings suggest that nanostructured MGs having a higher surface to volume rat
188                 Here, we report the use of a nanostructured microelectrode (NME) platform for eSHHA t
189 zed for their gene expression profiles using nanostructured microelectrode biosensors.
190 using the eSHHA approach in conjunction with nanostructured microelectrodes is an advantageous altern
191                We demonstrated that eSHHA on nanostructured microelectrodes leverages three effects:
192 roblast growth factor (bFGF) released from a nanostructured mineral coating maintains its biological
193 bilization strategy is presented, which uses nanostructured mineral coatings on medical devices.
194 biomimetic interactions between proteins and nanostructured minerals provide a new, broadly applicabl
195 ular attention has been paid to syntheses of nanostructured MIP films and MIP nanoparticles.
196                                Recently, the nanostructured modified molecularly imprinting polymer h
197 ted Raman scattering based on optically self-nanostructured molecular hydrogen in hollow-core photoni
198 al has focused mainly on synthesizing highly nanostructured molybdenum disulfide that allows the expo
199  self-assemble in water to form a variety of nanostructured morphologies including spheres, disks, cy
200 he dynamics of water confined within a given nanostructured morphology.
201 econvolution of the charge injected into the nanostructured Ni-Fe oxyhydroxide OER catalysts or into
202                                  Binder free nanostructured NiCo2O4 were grown using a facile hydroth
203                                              Nanostructured (NS) and ultrafine-grained (UFG) material
204 ption, scattering, and emission processes in nanostructured optoelectronic devices.
205 ined with lithium negative electrodes, these nanostructured organic electrodes exhibit energy densiti
206 indings provide rational design criteria for nanostructured organic electrodes.
207 -thin high-k dielectric layer (Al2O3) with a nanostructured organic functional tail to create a platf
208 een achieved for imaging the morphologies of nanostructured organic materials, such as organic photov
209 properties of the substantially more complex nanostructured oxide particles.
210 we show that Fe was accumulated primarily as nanostructured particles within APC, whereas Cu and Zn w
211                                          The nanostructured PDMS/titania tubes are superhydrophobic w
212                       Our new approach using nanostructured phase transformation provides new opportu
213  all-solid-state thermal switching device by nanostructured phase transformation, i.e., modulation of
214 cerbates these uncertainties, especially for nanostructured photoanodes benefiting from small charge-
215 tion of compact synchrotron sources based on nanostructured plasmas.
216 introduced in this study perform better than nanostructured plasmonic absorber counterparts in terms
217 array on slides coated with a noncontinuous, nanostructured plasmonic gold film, enabling quantitativ
218 a few suitable plasmonic materials; however, nanostructured plasmonic metamaterials allow a much broa
219          Here, by using a specially designed nanostructured plasmonic surface in conjunction with hig
220  device is presented, which is based on a 3D nanostructured polymer scaffold of the amorphous blue ph
221 ise of a new concept for green manufacturing nanostructured polymeric membranes with high performance
222              A thin layer of a biocompatible nanostructured polypyrrole (PPy) was electrochemically d
223                                              Nanostructured porous silicon (PS) is a promising materi
224 entless optical biosensing platform based on nanostructured porous silicon (PSi) and aptamers is pres
225                                              Nanostructured porous silicon (PSi) is emerging as a pro
226 al of genetically modified VLPs as selective nanostructured probes for autonomous sensor functionaliz
227                                              Nanostructured Pt materials are the most popular and eff
228                       A comparative study of nanostructured PuO2 and Pu colloids produced by sonochem
229 in diffraction studies are demonstrated with nanostructured samples and with embryonic kidney 293T ce
230 for the first time, is a method of producing nanostructured semiconductors in which an oxidant (Ox1 )
231                   The performance of the ZnO nanostructured sensor electrode was evaluated against go
232         The designed metasurface consists of nanostructured silver and indium tin oxide (ITO) electro
233        The particular characteristics of the nanostructured silver thus obtained are studied by elect
234                                          The nanostructured, single-component scaffold, obtained by i
235                                              Nanostructured soft materials open up new opportunities
236            Here we show that single-junction nanostructured solar cells have a theoretical maximum ef
237                             We conclude that nanostructured solar cells offer an important route towa
238                                              Nanostructured solar cells represent a novel class of ph
239 used for the first time to build solid-state nanostructured solar cells.
240          Crack-free, ligand-free, phase-pure nanostructured solids, using colloidal nanocrystals as p
241 water molecules from the hydration shells of nanostructured solutes and calculate the free energetics
242                                   Therefore, nanostructured substrates constitute a novel tool for in
243 l plates, was transferred and refined on the nanostructured substrates.
244  investigated the impact dynamics on elastic nanostructured superhydrophobic substrates having membra
245  bound to organic absorber molecules to form nanostructured superlattices.
246 ated with this nanocomposite was employed as nanostructured support for the cross-linking of the enzy
247 prepared by a dispersion-spray method with a nanostructured surface (feature size of approximately 20
248 zymatic fuel cell, as a result of the higher nanostructured surface area as confirmed by electrochemi
249 I) was reduced and deposited as As(0) on the nanostructured surface by applying a potential of -0.3 V
250                                          The nanostructured surface of the PC biosensor resonantly re
251                       However, the effect of nanostructured surface on fluorescence intensity has lar
252 en-oligonucleotide probes immobilized on the nanostructured surface.
253  our electrodynamic simulations suggest that nanostructured surfaces alter the fluorescence intensity
254                                              Nanostructured surfaces have been shown to greatly enhan
255 etection limit of eSHHA, taking advantage of nanostructured surfaces to allow the use of longer captu
256 uorocarbons act as a Teflon-like coating for nanostructured surfaces to assist in desorption/ionizati
257                                              Nanostructured surfaces with quasi-random geometries can
258            The confinement of noble gases on nanostructured surfaces, in contrast to bulk materials,
259 , we find common ground in their behavior on nanostructured surfaces.
260 effective solid content and the viscosity of nanostructured suspensions.
261                                              Nanostructured systems have the potential to revolutioni
262  block for the programmable self-assembly of nanostructured systems-was to use DNA to construct three
263 icient photocatalysts from readily available nanostructured templates.
264 h light is significantly enhanced due to the nanostructured/textured top surface.
265  for future developments of high-performance nanostructured thermoelectric devices.
266 dal nanocrystals to produce consolidated yet nanostructured thermoelectric materials.
267 rathin-film solar cell designs incorporating nanostructured thin active layers.
268                                        These nanostructured thin COF films demonstrate remarkable sol
269  at a buried metal-dielectric interface in a nanostructured thin film.
270                                            A nanostructured thin-film design could surpass this limit
271 e authors demonstrate how a CMOS-compatible, nanostructured, thin junction structure can make use of
272 ble for the enhancement of TE performance in nanostructured Ti1-x Hfx NiSn1-y Sby half-Heusler alloys
273                            Thus hierarchical nanostructured Ti185 serves as an excellent candidate fo
274                                          DNA nanostructured tiles play an active role in their own se
275 lass substrate has been converted to ordered nanostructured TiO2 film via oxidation.
276 immobilized on the surface of APTES modified nanostructured TiO2 film.
277                                         This nanostructured TiO2 material has superior lithium storag
278        To achieve large current densities, a nanostructured TiO2 scaffold, processed at low temperatu
279                                          The nanostructured TiO2 surface was functionalized with self
280                                          The nanostructured tip has a low work function of 2.07 eV (l
281 ising of the functionalized sputtered rutile nanostructured titanium dioxide (nTiO2) for rapid detect
282 tigated by synthesizing catalytically active nanostructured TMDs in bulk quantity using a liquid-base
283 id cars, wind turbines, and disk drives--are nanostructured to a large degree.
284 ro)catalysis, and energy storage are usually nanostructured to expose particular surface sites, but p
285 s with aligned or randomly organized fibrous nanostructured topographies.
286                       Here, we present a new nanostructured transfer paradigm to print scalable and w
287 usly produced microphase-separated sub-10-nm nanostructured ultrathin films in the form of alternatin
288                                       In the nanostructured unit cells whose chirality matches that o
289              The resulting graphene-modified nanostructured vanadium pentoxide hybrids contain only 2
290                                         In a nanostructured W-Cr alloy, sintering sets on at a very l
291 tivated organic light emitting device with a nanostructured, wide band gap semiconductor layer.
292                                       Since, nanostructured WO3 is a well known catalyst, the simulta
293 s were fabricated by facile spray coating of nanostructured WO3 on stainless steel meshes and compare
294                   We designed and fabricated nanostructured zinc oxide (ZnO) sensing electrodes on fl
295 ured copper sulfides as well as amorphous or nanostructured zinc sulfides and zinc phosphate as compa
296 l process was used for uniform decoration of nanostructured zirconia (average particle size 13 nm) on
297 ss th-DNA) probe of N. meningitides onto the nanostructured ZnO (ZNF) matrix surface have been invest
298 g cycles demonstrating the robustness of the nanostructured ZnO electrochemical sensor platform.
299 ariation) for cTnT in HS was demonstrated on nanostructured ZnO electrodes.
300 rmal technique to fabricate high-performance nanostructured ZnO UV-detectors directly on-chip.

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