ライフサイエンスコーパス: free-standing

1 tion of the fabrication process to produce a free-standing 1 um thick sensor is presented.

2 d metal sheets followed by chemical etching, free-standing 2D metal (e.g., Ag, Au, Fe, Cu, and Ni) na

3 To date, the preparation of free-standing 2D nanomaterials has been largely limited

4 Engineering free-standing 2D nanomaterials with compositional, spati

5 coupled photonic crystal slab (essentially a free-standing 2D photonic crystal) with a strong 2D band

6 position (CVD) served as the scaffold of the free-standing 3D electrode.

7 cting surfaces-transform these patterns into free-standing, 3D, noncylindrically symmetrical microstr

8 s retain the ability to form SAMMs and their free-standing ability.

9 alized methodology to prepare other types of free-standing ABO(4) nanorods and their corresponding na

10 three flavin-dependent tailoring enzymes, a free-standing acyl carrier protein and two hypothetical

11 The presence of two free-standing acyltransferase proteins classifies the oo

12 on conductive solid substrates that produces free-standing, additive-free, biocompatible, easily tran

13 Diffusion was faster in state-operated vs free-standing agencies (hazard ratio [HR], 2.44 [95% CI,

14 ine misactivation problem was solved through free-standing AlaXps, which appeared contemporaneously w

15 ters throughout the United States, including free-standing alcoholism treatment programs, university

16 stress-strain response of several nanoscale free-standing aluminum and gold films subjected to sever

17 gical system, the availability of an active, free-standing analogue of the H-cluster may enable us to

18 An effective integrated design with a free standing and carbon-free architecture of spinel MnC

19 of cellular microtubules, to create stable, free standing and conductive sulfur-doped carbon nanodot

20 Acyl carrier proteins, both free-standing and as embedded 80-100 residue domains, co

21 rcumin/CyD webs were produced in the form of free-standing and flexible character.

22 The free-standing and flexible Pt-NP/TiO2-PAN nanofibrous we

23 Free-standing and flexible sandwich-like MXene/carbon na

24 Free-standing and flexible WS2 /WO2.9 /C hybrid membrane

25 Here, we report a free-standing and highly conductive porous composite pol

26 cs on multiple contact surfaces with several free-standing and lightweight electrification designs.

27 Here, free-standing and low-tortuosity N, O co-doped wood-like

28 od was established to quantify the amount of free-standing and protruding multiwalled carbon nanotube

29 ble particle fraction, and quantification of free-standing and protruding MWCNTs by measuring the con

30 organic soluble monomer provides a route to free-standing and scalable CP thin films, such as poly(3

31 ke peptoids into highly stable, crystalline, free-standing and self-repairing membrane-mimetic 2D nan

32 Free standing, atomically thin transition metal dichalco

33 through a single microcavity patterned on a free-standing Au film, strongly coupled to one of the mo

34 use this exquisite control to produce nearly free-standing Au72Ge28 drops suspended by an atomic-scal

35 etic-energy harvesting in a centimeter-sized free-standing (BEDT-TTF)C60 charge-transfer single cryst

36 have the same properties as those formed in free-standing bilayer lipid membranes.

37 bilayers, its behavior is more similar to a free-standing bilayer.

38 ly utilized model membrane system, providing free-standing bilayers unaffected by support-induced art

39 s, also known as the Portobello mushroom, as free-standing, binder-free, and current collector-free L

40 ow the first simple large-scale synthesis of free-standing Bismuthene, to our knowledge, and demonstr

41 Large area free-standing boron doped diamond grown using microwave

42 fied Hummer's technique for the synthesis of free-standing borophene are also discussed.

43 m to the vibriobactin NRPS VibH, a naturally free-standing C domain.

44 Free-standing cantilevers, which directly translate spec

45 On a molecular scale, free-standing capsules with an internal volume sufficien

46 We created free-standing carbon molecular sieve membranes that tran

47 characterization of graphene oxide paper, a free-standing carbon-based membrane material made by flo

48 Free-standing carbon-coated Si nanofiber binderless elec

49 ng liquid crystal removed to create a porous free-standing cast, which retains the chiral three-dimen

50 precipitate and decompose on the surface of free-standing catalyst nanorods.

51 Free-standing CD/linalool-IC-NFs facilitate maximum load

52 we report a new PBS developed by introducing free-standing ceria nanoparticles into the purple membra

53 isciplinary spina bifida center at a single, free-standing children's hospital.

54 g a large national database incorporating 37 free-standing children's hospitals in the United States.

55 Retrospective cohort study of 43 free-standing children's hospitals within the Pediatric

56 Generally, decomposition temperatures of free-standing clusters are found to increase with decrea

57 o showing highest S(BET) of 1932 m(2) g(-1)) free-standing COF thin films could be fabricated in a wi

58 ed assembly of colloidal silica spheres into free-standing colloidal film by using the liquid/liquid

59 the Fermi levels and charging potentials of free-standing colloidal n-type ZnO nanocrystals possessi

60 nd controlling free carrier densities within free-standing colloidal semiconductor nanocrystals.

61 erature magnetic response to charge state in free-standing colloidal ZnO nanocrystals doped with Mn(2

62 is a novel amide synthase that represents a free-standing condensation (C) domain.

63 of the planar phase is ascribed to the near-free-standing condition afforded by the graphene surface

64 ical shifts related to liana evolution vs 13 free-standing congeners.

65 After TEOS evaporation, we obtain a free-standing connected photonic crystal film of hemisph

66 A free-standing continuous precursor film of carbonated ca

67 l vapour deposition(5), of centimetre-scale, free-standing, continuous and stable monolayer amorphous

68 gms for training, including consideration of free-standing critical care residencies and multidiscipl

69 as high as 0.1 cm(2)/V s was measured on the free-standing crystal.

70 By using free-standing crystalline SiO(2) bilayer supported on Ru

71 nt of the intrinsic piezoelectricity in such free-standing crystals is free from substrate effects su

72 ordered binary nanoparticle superlattices as free-standing crystals, with up to a few hundred microme

73 crowire closely resemble that of an isolated free-standing cylinder (current proportional, variant el

74 The characterization of the free-standing diamond waveguides reveals excellent trans

75 atic phase to stabilize a condensed array of free-standing disclination lines without the aid of topo

76 les for the supramolecular polymerization of free-standing DNA nanosheets in water.

77 CP) as subunit fragments to evaluate Cy as a free-standing domain.

78 diting domain of ProRS in cis, while YbaK, a free-standing editing domain, clears Cys-tRNAPro in tran

79 domain both in AlaRS and in many homologous free-standing editing proteins.

80 rochemical examination demonstrates that the free-standing electrode without carbon support gives the

81 The fullerenes are the first "free-standing" elemental hollow cages identified by spec

82 This interdependence of a free-standing endonuclease gene and a group I intron, wh

83 isms, as is the case in intronless homing of free-standing endonuclease genes [3, 4], or by disruptio

84 This shared feature between an intronic and free-standing endonuclease is unprecedented.

85 ociated with worse survival than dialysis in free-standing facilities not reprocessing dialyzers or i

86 In this paper, we successfully synthesize free-standing Fe16N2 foils with a coercivity of up to 19

87 Free standing films of such high temperature composite e

88 The free-standing films are structurally robust, highly hydr

89 a scalable self-assembly approach to making free-standing films from amyloid protein fibrils.

90 Thin, free-standing films of Nafion gel and Nafion that were s

91 metal catalysts and superior to that of most free-standing films reported to date, they are directly

92 Free-standing films that display high strength and high

93 Further processing yields highly oriented, free-standing films that have a 2D elastic modulus and y

94 In free-standing films this wrinkling behavior induces nega

95 ing layers on the top and bottom surfaces of free-standing films with a thickness of ~35 nm.

96 Free-standing films with different thicknesses (11-69 um

97 ) sheets can readily stack to form flexible, free-standing films with lamellar microstructure.

98 Csomes, peptosomes), or as planar membranes (free-standing films, solid-supported membranes, membrane

99 t various composition weight ratios to yield free-standing films.

100 internal reflections from Ti3C2Tx flakes in free-standing films.

101 Free-standing flexible films, constructed from two-dimen

102 Here, by incorporating a free-standing, flexible aluminium membrane into a lumped

103 Herein, we demonstrate the preparation of a free-standing, flexible nitrogen and phosphorus co-doped

104 The 3D macroporous MXene films are free-standing, flexible, and highly conductive due to go

105 Experiments on free-standing fluid drops are extremely challenging.

106 on removal of the CO(2), these gels produced free-standing foams with cells with an average diameter

107 own to influence the ability of SWHs to form free-standing, foldable films in blends with either micr

108 thin films are grown without any support in free-standing form and can be transferred onto any desir

109 eport a methodology to synthesize LiPON in a free-standing form that manifests remarkable flexibility

110 to precisely assemble NPs into well-defined, free-standing frames using polymer single crystals (PSCs

111 In this paper we present a free-standing, fully automated DMF platform for immunoas

112 hase reaction dynamics of a single, as-grown free-standing gallium arsenide nanowire encapped with a

113 is paid to the worm phase, which forms soft free-standing gels at 20 degrees C due to multiple inter

114 e developing macronucleus; some even contain free-standing genes.

115 the other is from widely distributed AlaXps-free-standing, genome-encoded editing proteins that clea

116 em of serine mistranslation is so acute that free-standing, genome-encoded fragments of the editing d

117 t studies of a 1D hole gas system based on a free-standing germanium/silicon (Ge/Si) core/shell nanow

118 n various forms in living organisms, both as free-standing glycans as well as glycoconjugates includi

119 ormation of 25 nm thick nanocrystalline (NC) free-standing gold thin-film via in situ ion irradiation

120 anical strength to withstand high pressures, free-standing graph-n-yne is theoretically posited to be

121 rown and ex-situ hydrogen intercalated quasi-free standing graphene on 4H-SiC(0001) grown by chemical

122 omic-scale observations of the morphology of free-standing graphene and explore the role of microstru

123 a test system-a gold nanocluster adsorbed on free-standing graphene clamped between two temperatures

124 Free-standing graphene is inherently crumpled in the out

125 dition, we demonstrate the lateral growth of free-standing graphene over micron-sized pre-fabricated

126 flexible electrochemical biosensors based on free-standing graphene paper carrying binary nanocomposi

127 plications ever since the first isolation of free-standing graphene sheets in year 2004.

128 ed to explain the thermodynamic stability of free-standing graphene sheets.

129 Fabrication of flexible and free-standing graphene-fiber- (GF-) based microelectrode

130 relationship between the observed domains in free-standing GUV bilayers and those in supported bilaye

131 Spontaneous oscillations exhibited by free-standing hair bundles from the Bullfrog sacculus su

132 Under in vitro conditions, free-standing hair bundles of the bullfrog (Rana catesbe

133 In free-standing hair bundles, depolarizations positive to

134 The study provides an avenue to develop free-standing halide perovskite film with low dislocatio

135 Free-standing, high-capacity Li2 S electrodes with capac

136 We describe here a novel free-standing homing endonuclease from cyanobacteriophag

137 The LAGLIDADG homing endonucleases include free-standing homodimers, pseudosymmetric monomers, and

138 en solved, the answer turning out to involve free-standing homologs of intron-encoded homing endonucl

139 philic block copolymers, resulting in unique free-standing hybrid hydrogels of good mechanical streng

140 sically cross-linked and mechanically robust free-standing hydrogels comprising unique thermotropic l

141 The optical absorption properties of free-standing InAs nanomembranes of thicknesses ranging

142 sion electron microscopy (TEM) revealed that free-standing individual CNTs and agglomerates were emit

143 a benchmark for surface analysis to provide 'free-standing' information about supported nanomaterials

144 wire structures, which potentially can yield free-standing injection nanolasers.

145 e validation in controlled conditions of the free-standing insoluble all-keratin made microelectrode

146 To prepare a transistor, the free-standing ion gel is simply laid over a semiconducto

147 study, low energy helium ion irradiation on free-standing iron thin films were performed at 573 K.

148 ngle experiment, we introduce a microfluidic free-standing kinetic polyacrylamide gel electrophoresis

149 by colloidal particles raised a challenge of free-standing knots.

150 Here we demonstrate the creation of free-standing knotted and linked disclination loops in t

151 ts showed that these physically cross-linked free-standing LC ferrogels exhibit good mechanical stren

152 ct solvated PEO and PAA blocks, leading to a free-standing LC magnetic hydrogel (LC ferrogel).

153 t-effective, and reproducible method to form free-standing lipid bilayer membranes in microdevices ma

154 By templating AuNP assembly onto synthetic free-standing lipid bilayers with tunable membrane rigid

155 Free-standing LiPON films are produced that exhibit a hi

156 rfacial stress and a gold seeding layer, our free-standing LiPON shows a uniformly dense deposition o

157 The device features a microfabricated free-standing liquid core waveguide (LCW) capillary dete

158 This microsprayer employs a free-standing liquid junction formed via continuous deli

159 nte Carlo simulations were carried out for a free-standing liquid slab of squalane surrounded by a he

160 Here we report a practicable production of free-standing liquid water at room temperature with weak

161 on has been observed in two-dimensional (2D) free-standing liquid-crystal films by in situ electron-d

162 other substrates, or floated out to produce free-standing macroscopic fabrics.

163 n this work, we report on the synthesis of a free-standing, macroscopic robust supramolecular membran

164 cites and measures the resonant frequency of free-standing magnetoelastic (ME) biosensors that may no

165 Using such a nickelate as the electrolyte in free-standing membrane geometry, we demonstrate a low-te

166 t organic framework nanocrystals, yielding a free-standing membrane with high crystallinity and order

167 These Pt nanowires can be easily cast into a free-standing membrane, which exhibits excellent electro

168 -Ag nanofibers spontaneously assemble into a free-standing membrane, with lateral size up to square c

169 ive exchange of uncharged compounds across a free-standing membrane.

170 ansfer BNSLs also allows the construction of free-standing membranes and other complex architectures

171 - or multi-ordered nanostructures as well as free-standing membranes are extracted from specific exam

172 ight nature of SWNT composites, the prepared free-standing membranes can serve as components for a va

173 scattering and can be used to fold detached free-standing membranes into tubes by exposure to electr

174 hed and multilayered pore architectures, and free-standing membranes.

175 e, we introduce bilayer metasurfaces made of free-standing meta-atoms working in the visible spectrum

176 oms, Au(n)(-) (n = 16-18); to our knowledge, free-standing metal hollow cages have not been previousl

177 esent periodic nanohole arrays fabricated in free-standing metal-coated nitride films as a platform f

178 rk shows that achieving superconductivity in free-standing, metal decorated monolayer graphene is con

179 The electrode is composed of a free-standing metallic nanotrough network and is produce

180 Here, we describe the process of fabricating free-standing micro-patterned PEC films containing array

181 We report the use of free-standing microcantilever beams, which have been use

182 We describe a novel platform featuring 3D free-standing microelectrodes presenting passive upstrea

183 compressive behavior of disordered colloidal free-standing micropillars composed of a bidisperse mixt

184 delaminated from their substrates to create free-standing MMMs that are mechanically stable and plia

185 VbsS, a nonribosomal peptide synthetase free-standing module, then activates N(5)-((R)-3-hydroxy

186 xcellent physical properties of this stable, free-standing monolayer amorphous carbon could prove use

187 Free-standing monolayer amorphous carbon is surprisingly

188 roperties and intrinsic breaking strength of free-standing monolayer graphene membranes by nanoindent

189 The resulting free-standing monolayer membranes extend over hundreds o

190 exes can be exfoliated by sonication to give free-standing monolayers approximately 2.3 nanometres th

191 he static and dynamic fracture properties of free-standing monolithic nanoporous gold as a function e

192 thin films (planar and nonplanar supports), free-standing monoliths, nanomesh materials, inverse opa

193 We herein describe the scalable assembly of free-standing MoS2 -graphene composite films consisting

194 upon inhalation) and approximately 40 ppm as free-standing MWCNTs in the worst-case scenario.

195 These are the first experiments where free-standing nano-objects were bombarded with kiloelect

196 Large permeability of the free-standing nanomembrane to Ru(NH3)63+, O2, or 1,1'-fe

197 The free-standing nanopaper electrode delivers an outstandin

198 Free-standing nanoparticle superlattices (suspended high

199 he first DNA-based route towards monolayered free-standing nanoparticle superlattices.

200 e significantly higher than that of a single free-standing nanoribbon.

201 ontrolled growth of solution-processable and free-standing nanosheets via peptide assembly in two dim

202 ystalline diamond by heating and synthesizes free-standing nanostructured diamond capsules (NDCs) cap

203 c phonon polarization branches in individual free-standing nanostructures is lacking.

204 us measurements from the same cell made with free-standing nanowire and patch-clamp probes show that

205 ly method for constructing thermally stable, free-standing nanowire membranes that exhibit controlled

206 is challenge using macroporous, flexible and free-standing nanowire nanoelectronic scaffolds (nanoES)

207 rom cells by independent manipulation of two free-standing nanowire probes.

208 the large dielectric contrast between these free-standing nanowires and surrounding environment, as

209 It is essential to put individual, free-standing nanowires onto insulating substrates and i

210 The nondestructive preparation of as-grown free-standing nanowires without supporting films allows

211 crotubule filaments spontaneously forms a 2D free-standing nematic active sheet that actively buckles

212 The free-standing Ni,N codoped 3D np-graphene shows great po

213 zenes with vertical orientation and that are free-standing on gold surfaces.

214 inteins, archaeal and group I introns and as free standing open reading frames (ORFs); HNH endonuclea

215 A2 and Cr.psbA4, respectively) contain large free-standing open reading frames (ORFs).

216 s effort in the synthesis approaches to grow free standing or hierarchical nanomaterials such as nano

217 igh-aspect-ratio silicon nanocolumns, either free-standing or substrate-attached, with a hydrogel lay

218 only 15 nm thick, pnc-Si membranes that are free-standing over 40,000 microm2 can support a full atm

219 0.25 cm(2), and featuring the ability to be free-standing over holes of 10 mum(2).

220 d amino-functionalized graphene 'crust', the free-standing paper electrode (S mass loading: 3.6 mg cm

221 Free-standing paper-like or foil-like materials are an i

222 structures are sufficiently robust to create free standing papers, complex microtextured films, 3D sh

223 Analysis of fusion is restricted to the free-standing part of the GUV-membrane exhibiting low cu

224 y motion driven by uniform illumination of a free-standing patterned sheet is demonstrated.

225 han 80 participating US hospitals, including free-standing pediatric facilities, children's hospitals

226 rvey of microbiology laboratory personnel in free-standing pediatric hospitals and adult hospitals co

227 This method enabled the production of free-standing, permeable, and highly transparent MMMs wh

228 2) - silicon dioxide (SiO2) one-dimensional, free-standing photonic-crystal cavities capable of enhan

229 eversibly form soft (G' approximately 10 Pa) free-standing physical gels after 10 min at 55 degrees C

230 orm entanglements lead to the formation of a free-standing physical hydrogel at 21 degrees C.

231 y holographic phase mask placed in a compact free-standing planar Fabry-Perot cavity renders the cavi

232 ent template-directed assembly approach to a free-standing planar sheet of sp(2) carbons.

233 ic of mechanical metamaterials, we fabricate free-standing plates up to 2 cm in size out of aluminium

234 Free-standing platform-independent Java-based ProteinVol

235 The free-standing platinum and platinum-nickel alloy nanowir

236 It reveals that the free-standing platinum nanowires form in the solid state

237 The process is able to grow free-standing point-to-point electrical connections usin

238 A microfluidic card comprised of free-standing polyacrylamide gel (fsPAG) separation lane

239 A photopatterned free-standing polyacrylamide gel array comprised of 8 mm

240 In optimizing the riboswitch EMSAs on the free-standing polyacrylamide gel array, three design con

241 it-to-unit variation across the large-format free-standing polyacrylamide gel array.

242 The free-standing polyacrylamide gel EMSAs yielded reliable

243 ersion, mitigating evaporation from the open free-standing polyacrylamide gel structures during elect

244 ontrolled interfacial polymerization to form free-standing polyamide nanofilms less than 10 nanometer

245 A free-standing polymer electrolyte called an ion gel is e

246 These protein ribbons represent free-standing polymer films with a thickness of about 50

247 rticles and Ag nanowires and demonstrated on free-standing, polymer embedded, Si microwire solar cell

248 re demonstrated by the in situ EM testing of free-standing polysilicon films, metallic nanowires, and

249 We fabricate free standing porous multiwalled carbon nanotube (MWCNT)

250 imitation in a general manner by fabricating free-standing probes in which a kinked silicon nanowire

251 A number of free-standing programs have been developed in order to h

252 3 April 2019 (before Easter), stores removed free-standing promotional display units of seasonal conf

253 Free-standing quantum rods, 60, 120, or 150 A in diamete

254 esign with historical controls at a 264-bed, free-standing, quaternary care academic children's hospi

255 f the silica with hydrofluoric acid yields a free-standing replica of the internal and external nativ

256 measured with standard instruments like the free-standing rod for height, weighing balance for body

257 ocessed TART transcript or the product of a "free-standing" RT gene.

258 Free-standing serum-albumin mats can transport protons o

259 f these crystalline 2D polymers into robust, free-standing sheets highlights their practical utility.

260 tigated typically in the form of coatings or free-standing sheets.

261 Here, we present novel free-standing Si-membrane mid-IR metasurfaces with stron

262 a two-step drawing process to fabricate long free-standing silica wires with diameters down to 50 nm

263 Free-standing silicene, a silicon analogue of graphene,

264 ous silver substrate is used to mass produce free-standing silver nanorods with very high aspect rati

265 perimental evidence of piezoelectricity in a free-standing single layer of molybdenum disulphide (MoS

266 ddition, high carrier mobility comparable to free-standing single-crystal counterparts is achieved by

267 ple hydrothermal protocol yields anisotropic free-standing single-crystalline VO(2) nanostructures wi

268 ges of mesoscopic dipole closure patterns in free-standing, single-crystal lamellae of BaTiO(3).

269 Here we confirm the presence of free-standing, single-layer graphene with directly inter

270 The body of the swimmer consists of a free-standing soft scaffold, skeletal muscle tissue, and

271 proposed algorithm has been developed into a free standing software application (GADA, Genome Alterat

272 associated with increased mortality included free-standing status (P = 0.009) and decreasing frequenc

273 Free-standing, stimuli-responsive polyelectrolyte multil

274 netics of electron transport provided by the free-standing structure and the high electro-catalytic a

275 This process generates centimeter-scale free-standing structures composed of paper supporting re

276 contact with a support surface or extend as free-standing structures through solution, tethered at t

277 ed robust transfer technique for fabricating free-standing sub-100 nm films and measuring their inher

278 hieved through orientational manipulation of free-standing super-paramagnetic thin-film microplates u

279 Here, free-standing supercapacitor fabrics that can store high

280 -based microsupercapacitors and flexible and free-standing supercapacitors is presented.

281 on-Crick base-pairing, we obtained discrete, free-standing superlattice sheets in which both structur

282 sing step that may enable the integration of free-standing superlattices into solid-state nanodevices

283 e a blot-free vitrification method that uses free-standing surfactant-stabilised foam films to addres

284 The growth of free-standing surfactant-templated films of inorganic ox

285 The free-standing SWNT/polyelectrolyte membranes delaminated

286 ns in water to be approached for large-area, free-standing, synthetic membranes using covalently bond

287 ronchiolitis presenting to the ED of 2 urban free-standing tertiary children's hospitals.

288 raphene) building units into two-dimensional free-standing thick and thin films has paved the way for

289 acyl-CoA dehydrogenase and an unconventional free-standing thioesterase.

290 ranging from 0.5-mm sheet down to 10-microm free-standing titanium foils.

291 n system (mn-STESS) by integrating a sliding free-standing triboelectric nanogenerator with a microne

292 e fabrication of large area, thin asymmetric free-standing two-dimensional (2-D) photonic crystals.

293 Assembly of noble metal nanocrystals into free-standing two-dimensional (2D) nanostructures with a

294 Stable free-standing two-dimensional Bi monolayer (Bismuthene)

295 The chemical stability of graphene and other free-standing two-dimensional crystals means that they c

296 Free-standing two-dimensional monolayer nanosheets of th

297 l of telephone vs. video interpretation at a free-standing, university-affiliated pediatric emergency

298 The nanomechanical device, a free-standing waveguide, is driven by the optical force

299 Here we show that a free-standing web of 1/2-strength twist disclination lin

300 One- to 2-nm-thick, single-crystalline free-standing ZnO nanosheets with sizes up to tens of mi