ライフサイエンスコーパス: conductive

1 sintered at 100 degrees C for 1 h to make it conductive.

2 ible once the bulk of the TMD device becomes conductive.

3 near the film surface, which becomes highly conductive.

4 , solution-processable, and electronic/ionic conductive.

5 arkably simple procedure for printing highly conductive (3 x 10(5) S m(-1) ) features in degradable m

6 A new, highly conductive (4.1 x 10(-4) S cm(-1) at 30 degrees C), high

7 % oxygen; C/O ratio 30.2) to yield highly conductive (54600 S m(-1)) reduced GO.

8 insulating below 0.8 (V vs SHE) but becomes conductive above 0.9 (V vs SHE).

9 ll-organic proton batteries which require no conductive additives and also reveals where the challeng

10 nic material required significant amounts of conductive additives and were often based on metal-ion e

11 from neat MOFs as active materials, without conductive additives or other binders.

12 processes without any templates, binders and conductive additives, which possesses the potential tran

13 The film remains conductive after being stretched by up to 770% (films wi

14 configuration without additional binders or conductive agents improves energy/power densities of the

15 ls for this, but require transparent, highly conductive and biocompatible electrodes.

16 The effective implantation of conductive and charge storage materials into flexible fr

17 fully expanded LixSi confined in the highly conductive and chemically stable graphene matrix, this L

18 ctronics that combines direct ink writing of conductive and dielectric elastomeric materials with aut

19 ation because the metal-based substrates are conductive and durable enough to be used directly as MAL

20 tional components: a bioanode textile with a conductive and hydrophilic polymer coating and a solid-s

21 Conductive and insulating samples have been processed, w

22 NG-ESI, and that patterned ion deposition on conductive and insulating surfaces is possible.

23 f doping of LMNO with iron combined with the conductive and protective nature of the optimal iron oxi

24 eterozygous JAGGED1 loss, and a diversity of conductive and sensorineural hearing loss in nearly half

25 By modifying a spider silk to be conductive and transducing its motion using electromagne

26 nxGa1-xN epilayers (0 </= x </= 23) grown on conductive and transparent (01)-oriented beta-Ga2O3 subs

27 nical properties, the networks are ionically conductive and transparent.

28 rication into complex geometries, are highly conductive, and are low cost.

29 gen evolution reaction (OER)-active, porous, conductive, and corrosion-resistant nitride Ni3 FeN is u

30 the presence of an interconnected network of conductive aqueous fluids.

31 s to function in harsh environments, such as conductive aqueous media, is a problem of broad interest

32 reases from minor to major veins; and phloem conductive area scales isometrically with respect to xyl

33 se from minor to major veins; the sum of the conductive areas for each vein order increases exponenti

34 We show that: phloem and xylem conductive areas increase from minor to major veins; the

35 n of first principles to our data shows that conductive areas scale according to da Vinci's rule and

36 t our high mobility TaAs samples become more conductive as a magnetic field is applied along the dire

37 of polarization charges using a conventional conductive atomic force microscopy (CAFM) without a top

38 Through conductive atomic force microscopy measurements on an ul

39 ch as mechanical break junctions, nanopores, conductive atomic force microscopy, scanning tunneling b

40 ing of black phosphorus is demonstrated with conductive atomic-force-microscope anodic oxidation.

41 We demonstrate this by sliding a conductive-atomic force microscope tip on a thin film of

42 ous hyphenation approaches, we used a highly conductive background electrolyte (BGE) required for pro

43 active N-doped graphene with spin-polarized conductive behavior.

44 We reversibly switch from resistive to conductive behaviour at charged walls in semiconducting

45 tion of production-scale FFE (using a highly conductive BGE) with ESI-MS.

46 Conductive biodegradable materials are of great interest

47 rmeate the biofilms to wire the cells to the conductive biofilm matrix and the underlying electrode,

48 om donor substrate to the anode for a highly conductive biofilm.

49 Gelatin-graphene conductive biopolymer nanocomposites (CPCs) with ultralo

50 t a strategy to design tough transparent and conductive bonding of synthetic hydrogels containing 90%

51 uction in the sensor's resistance due to the conductive bridging offered by hybridized DNA.

52 hod to make common insulating textile fibres conductive, by coating them with graphene.

53 the state-of-the-art for future transparent, conductive, capacitive electrodes, and translate into te

54 c behaviour of cathode interphases driven by conductive carbon additives (carbon black) in a common n

55 Rational design of conductive carbon hosts for high energy density lithium-

56 VP-based hydrogels, which later convert into conductive carbon layer on the surface of Li3V2(PO4)3 mi

57 Alternatively, DIET partners can plug into conductive carbon materials, such as granular activated

58 The development of electrically conductive carbon nanotube-based inks is reported.

59 etwork of very thin (20-30 nm), electrically conductive, carbon interfaces.

60 platinum nanoparticles (PtNPs), as a highly conductive catalytic transducer.

61 ngular optical behaviour upon formation of a conductive channel.

62 ids flow through a dissolving porous medium, conductive channels form, leading to fluid breakthrough.

63 nalization of non-conductive polymers with a conductive choline-based bio-ionic liquid (Bio-IL).

64 is capable of fabricating extremely complex conductive circuits, strain and pressure sensors, stretc

65 the first time, a lightweight, flexible, and conductive CNT-multilayered graphene edge plane (MLGEP)

66 insulating materials where the addition of a conductive coating is not desirable.

67 g ternary nickel phosphosulphide as a highly conductive coating layer for stabilized polysulfide chem

68 dges across an inclined gap as a part of the conductive collector.

69 conductivity without the need for additional conductive components.

70 f the spinel is undertaken without forming a conductive composite electrode.

71 These hybrid conductive composite hydrogels showed bi-stable states a

72 eved to lock the selectivity filter into its conductive conformation, whereas it is suppressed follow

73 robability of finding the channel in its ion conductive conformation.

74 the channel filter, once it reaches a fully conductive conformation.

75 consisting of active channel, dielectric and conductive contact layers.

76 ch functions as both an optical filter and a conductive counter-electrode of the rear dye-sensitized

77 s provide a straightforward means of forming conductive CrOx bridges across a thin native chromium ox

78 this contradiction by incorporating a hybrid conductive distributed Bragg reflector on the back side

79 The hybrid conductive distributed Bragg reflectors were designed to

80 ith the current diverting effect from a more conductive domain wall within the sample.

81 Erasable conductive domain walls in insulating ferroelectric thin

82 main into discrete spheres while keeping the conductive domains unchanged.

83 Transparent and conductive doped metal oxides are widely used in industr

84 and thermal management when being used as a conductive double-sided sticky tape.

85 direct ink writing is used to pattern highly conductive, ductile metallic interconnects, springs, and

86 ilms are free-standing, flexible, and highly conductive due to good contacts between spheres and meta

87 that stabilize the selectivity filter in its conductive (E71A, at 2.25 A) and deep C-type inactivated

88 A conductive, elastic, electroactive binder composed of po

89 e surface activity of graphene, electrically conductive elastomeric foams have been synthesized by th

90 isible light range, promising in transparent conductive electrode applications.

91 Using this approach, insulating matrix and conductive electrode inks are directly printed in specif

92 planar electrode combined with a problematic conductive electrolyte and adhesive pad.

93 Even with a higher amount of bound non-conductive enzymes, the EAPC anode showed 1.7-fold highe

94 l ether 68% (w/w) as plasticizer casted on a conductive epoxy resin.

95 mal structure is expected to be in radiative-conductive equilibrium, the required water vapour would

96 cues can mediate the growth of electrically conductive fascicles with normal microanatomy.

97 variation of anisotropy of a thin layer of a conductive ferromagnet on a dielectric substrate under t

98 ctroretinogram responses were recorded using conductive fiber electrodes in response to stimuli incor

99 These graphene-based conductive fibres can be used as a platform to build int

100 The morphology and dimension of the conductive filament formed in a memristive device are st

101 y suggest that 3D printing of graphene-based conductive filaments allows for the simple fabrication o

102 Here, the formation of conductive filaments in a material medium with sub-nanom

103 Then, nanocomposites of conductive fillers such as carbon nanotubes, graphene an

104 tivity through an addition of high thermally conductive fillers usually cannot provide an expected va

105 ounterions, (3) insulating polymers, and (4) conductive fillers.

106 we find that the particles form a sodium-ion conductive film on the anode, which stabilizes depositio

107 sive analysis of carbon nanotube transparent conductive films covering detailed fabrication methods i

108 Importantly, we prepare highly conductive films of PbS, PbSe, and PbTe QDs by directly

109 shortcomings of carbon nanotube transparent conductive films.

110 of MT fields to the presence of electrically conductive fluids makes it a promising proxy for determi

111 meraldine salt at pH 5, corresponding to the conductive form of polyaniline.

112 dual DNAPL along flow paths in hydraulically conductive fractures.

113 conductive gel framework as both binder and conductive framework for lithium ion batteries.

114 Here, a Li-ion conductive framework was developed as a stable "host" an

115 -wood) as a 3D, highly porous (73% porosity) conductive framework with well-aligned channels as Li ho

116 s study develops a tunable 3D nanostructured conductive gel framework as both binder and conductive f

117 r are arranged in a potentially electrically conductive geometry, sufficiently close to account for t

118 e (POx), which doesn't have electrically non-conductive glycosylation moiety, was immobilized on carb

119 e (POx), which doesn't have electrically non-conductive glycosylation moiety, was immobilized on carb

120 miconducting molybdenum disulfide contacting conductive graphene.

121 Electrically conductive, graphene-coated, hollow-fiber porous membran

122 Decreased activity can result from conductive hearing loss (CHL) associated with otitis med

123 ore, we explored the effect of developmental conductive hearing loss (CHL) in gerbils on MMR characte

124 as performed and revealed moderate to severe conductive hearing loss bilaterally, with a mixed compon

125 Sound deprivation by conductive hearing loss increases hearing thresholds, bu

126 Here, we show that 10 d of monaural conductive hearing loss leads to an increase in hearing

127 e of the auditory brainstem during and after conductive hearing loss.

128 od bacterial infection, and leading cause of conductive hearing loss.

129 with effusion (COME) is the leading cause of conductive hearing loss.

130 presents a problem: a large increase in the conductive heat flux along the adiabat (due to the highe

131 These zones are coupled through conductive heat transport.

132 s with the type of heat treatment, dry, wet, conductive heating and using microwaves.

133 ocomposite, the CuNCs@BSA found to play as a conductive holder as well as an accumulator of redox act

134 The use of NCs, which play the role of conductive holders, established a simple immobilization

135 l porous structure which can be electrically conductive if CNT are able to form a conductive path.

136 acid half thioesters to enolate acceptors on conductive indium tin oxide surfaces.

137 This study describes a conductive ink formulation that exploits electrochemical

138 lexible substrate using graphene nano-flakes conductive ink through stencil printing method.

139 particles and Fe3O4 was directly employed as conductive ink without any binder.

140 The valves are fabricated from electrically conductive, insulated, hydrophobic textiles, but the con

141 By reducing the size of the conductive interface to be comparable to that of a singl

142 as more pronounced in the hetero-couple with conductive interface, whereas in-plane compressive strai

143 Nominally conductive interfaces are rendered insulating by solvent

144 cell is largely dependent on transparent and conductive intermediate layer (IML).

145 f ischemic cardiomyopathy, obliteration of a conductive isthmus both anatomically and functionally an

146 nts across a dielectric spacer and through a conductive junction lead to excitation of significantly

147 ovide a favorable geometric link to graphene conductive layer through van Der Waals force.

148 wever, the role of the newly described water-conductive mammalian isoform AQP4e is unknown.

149 ter homeostasis of the newly described water-conductive mammalian isoform AQP4e.

150 m of Joule heating and thermal conduction on conductive material characterization broadens their scop

151 metal selenides and tellurides, showing that conductive materials result in more selective growth and

152 Promoting DIET with conductive materials shows promise for stabilizing and a

153 domains alongside non-porous insulating and conductive materials, in highly controlled device geomet

154 tential to be used in structural composites, conductive materials, sensors, drug delivery and medical

155 Nanoparticles hosted in conductive matrices are ubiquitous in electrochemical en

156 es that are suspended in a higher electrical conductive matrix.

157 In addition, the unique conductive membrane composition aided us in performing a

158 work (MOF) approach to develop hybrid proton-conductive membranes is reported.

159 ns, including energy storage devices, proton-conductive membranes, and catalyst supports.

160 Conductive metal sulfides are promising multi-functional

161 1-hexaiminotriphenylene) as an intrinsically conductive metal-organic framework which functions as a

162 Electrically conductive metal-organic frameworks (MOFs) are emerging

163 and interconnects formed from thin, twisted conductive microtubules.

164 gerous KCN treatment step for the removal of conductive minor phases of Cu2S/Cu2Se.

165 he possibility of realizing a graphene-based conductive-mode photodetector.

166 mechanism at the molecular level in a highly conductive MOF.

167 ally aligned metal electrodes confining semi-conductive MoS2 nanosheets.

168 An iron porphyrin immobilized into a conductive Nafion/carbon powder layer is a stable cathod

169 tion of an oxide semiconductor with a highly conductive nanocarbon framework (such as graphene or car

170 bilized on a graphenated polypyrrole (G-PPy) conductive nanocomposite confirming the adsorption of av

171 Furthermore, conductive nanocomposite structures that immobilize prot

172 ydrogels (ECHs) through the incorporation of conductive nanomaterials and polymers exhibit major tech

173 Biosensors comprising of graphene-based conductive nanomaterials offer the advantage of higher s

174 icography (ECoG) grid by using deposition of conductive nanoparticles in a polymer thick film on an o

175 Here we report that the highly conductive nanoporous architecture of an iridium oxide s

176 lectrical field (10(5)-10(6) V m(-2)) at the conductive nanoscale tip (4) .

177 entations to create hybrid materials such as conductive nanowires.

178 y are ubiquitous metal reducers that utilize conductive "nanowires" to reduce Mn(IV) and Fe(III) oxid

179 Owing to the conductive nature of iron oxide films, with an optimal f

180 de sheets and are responsible for the highly conductive nature of these coatings.

181 ering a superior load-bearing efficiency and conductive network for realizing a synchronous improveme

182 crystal providing a host medium to allow the conductive network to reorganise when voltages are appli

183 ed in liquid crystal; the nanotubes act as a conductive network, with the liquid crystal providing a

184 ls that focus on the bacteria-carbon-mineral conductive network.

185 g of ferrous metaphosphate on self-supported conductive nickel foam that is commercially available in

186 r-scale fabrication of highly reflective and conductive non-polar gallium nitride (GaN) DBRs, consist

187 al snapshots represent KcsA's transient open-conductive (O/O) and the stable open deep C-type inactiv

188 s defined by the energy required to charge a conductive object and scales inversely to the self-capac

189 he most striking transport properties of the conductive organic polymer trans-polyacetylene, provides

190 ed carbon electrodes (SPCEs) modified with a conductive osmium polymer (Os-PVP) complex were employed

191 ic layer deposition (ALD) as the transparent conductive oxide (TCO) layer on transparent cellulose na

192 o other defect-rich, dopant-free transparent conductive oxide nanostructures.

193 es of existing III-V, II-VI, and transparent conductive oxide semiconductors in a multilayer device s

194 tin oxide (ITO) is a well-known transparent conductive oxide, it is a non-ideal platform for biofilm

195 of spinel-type oxides as p-type transparent conductive oxides and as plasmonic semiconductors.

196 Transparent conductive oxides exhibit large ultrafast nonlinearities

197 ochromic nanoscale assemblies on transparent conductive oxides on both rigid and flexible substrates.

198 we report a new type of flexible transparent conductive paper completely made from green and earth ab

199 ng pulsed sonoelectrodeposition, producing a conductive paper with an extremely high electroactive su

200 One-dimensional conductive particle assembly holds promise for a variety

201 rically conductive if CNT are able to form a conductive path.

202 to interpret due to the presence of parallel conductive paths, or because additional non-chiral edge

203 in two Si-Si backbones: one has no alternate conductive pathway whereas the other contains an additio

204 ity of the LM inclusions to create thermally conductive pathways in situ.

205 the gate metal created by the addition of a conductive pattern on top of a planar gate.

206 deposited onto any surface and form desired conductive patterns, potentially applicable to the manuf

207 loitation of phase reactions to create a new conductive phase along the grain boundaries of dual-phas

208 as the key mechanism responsible for forming conductive phases within solid-state memory devices, ena

209 It is shown that the silicon-graphene conductive photodetector has ultra-high responsivity whe

210 mperature dependence of the silicon-graphene conductive photodetector is studied for the first time.

211 The fabricated silicon-graphene conductive photodetector shows a responsivity of up to

212 we design and demonstrate a silicon-graphene conductive photodetector with improved responsivity and

213 Electrically conductive pili (e-pili) can be an important electrical

214 hrome pathway but not the functioning of the conductive pili network.

215 The results support a model in which the conductive pili permeate the biofilms to wire the cells

216 Yet, the contribution of the biofilm's conductive pili remains uncertain, largely because pili-

217 onductive polylactic acid (PLA, housing) and conductive polyethylene terephthalate glycol-modified po

218 was achieved sequentially by constructing a conductive polymer (PEDOT: PSS) on a screen-printed carb

219 The synergic effect of conductive polymer and graphene forming 3D structures of

220 Conductive polymer electrodes have exceptional promise f

221 ical and optical properties of the resulting conductive polymer have been investigated.

222 In this work, a nanoparticle loaded conductive polymer nanocomposite was obtained by a one-s

223 urity are overcome by using chiral selective conductive polymer nanocomposite which mimics antibodies

224 ile approach was developed to produce porous conductive polymer nanocomposites using the conventional

225 g M13 virus particles and the electronically conductive polymer poly(3,4-ethylenedioxy thiophene) or

226 channel onto which an ion-selective layer of conductive polymer poly(3,4-ethylenedioxythiophene)-poly

227 pose, we prepared by electropolymerization a conductive polymer poly-(aniline-co-3-aminobenzoic acid)

228 f an air-stable solution-processable n-doped conductive polymer with this level of conductivity.

229 e valve was constructed from an electrically conductive polymer, polypyrrole.

230 bioanode, immobilised with the assistance of conductive polymer/Os redox polymer composites, and a so

231 ectrode scaffold to support metal-oxide- and conductive-polymer-based electrode materials with a high

232 s expected that versatile of conjugated semi-conductive polymers and halide perovskites in photoactiv

233 Porous conductive polymers are one of important materials, feat

234 Conductive polymers have been increasingly used as fuel

235 Conductive polymers uniquely exhibit hybrid electronic-i

236 of ECHs through the functionalization of non-conductive polymers with a conductive choline-based bio-

237 icularly suitable for synthesizing insoluble conductive polymers, layers with high densities of organ

238 aterials including metals, metal oxides, and conductive polymers.

239 range of 0.2-0.5 W m(-1) K(-1), typical for conductive polymers.

240 erns, we designed a unicomponent dopant-free conductive polyurethane elastomer (DCPU) by chemically l

241 Thus, membranes having SWNTs as moisture-conductive pores feature outstanding breathability and p

242 property, membranes having sub-5 nm CNTs as conductive pores feature outstanding breathability while

243 We develop a model for filling of conductive pores with active material to rationally desi

244 Such lightweight conductive porous composites are considered in applicati

245 his paper, we demonstrate the fabrication of conductive porous polymers based on foaming of an aqueou

246 of the aqueous phase then results in robust, conductive, porous, and inexpensive composites, with pot

247 DCT cells were depolarized, nearly devoid of conductive potassium transport, and unresponsive to plas

248 ures minimal field perturbations compared to conductive probes and greatly limits unwanted electrical

249 channels influences use-dependent changes of conductive properties (action potential amplitude, laten

250 f myelination is important for modifying the conductive properties of brain circuits in response to e

251 on models capable of explaining the observed conductive properties of Geobacter pili are a valuable t

252 er sulfurreducens requires the expression of conductive protein filaments or pili to respire extracel

253 h, the volcano lies on the margin of a broad conductive region in the deep crust.

254 results demonstrate the existence of highly conductive regions (tens of nanometers wide) near the te

255 quantitative spatial identification of such conductive regions is a daunting task, particularly for

256 ))10Cl](+) as mediators, and carbon nanotube conductive scaffolds in films on graphite electrodes pro

257 ammed by resistively heating an electrically conductive secondary column using constant current.

258 y chemically linking biodegradable segments, conductive segments, and dopant molecules into one polym

259 )Pu, and (243)Am was investigated in a water conductive shear zone under conditions relevant for a nu

260 It can further be functionalized with a conductive silk/carbon nanotube coating, responsive to c

261 we demonstrated the use of OET to manipulate conductive silver-coated Poly(methyl methacrylate) (PMMA

262 Carbon nanotubes (CNTs) were used as a conductive skeleton to anchor highly electrolytic mangan

263 ers, we demonstrate printing of electrically conductive SMPs where multiple shape states may induce f

264 surface of the active materials with highly conductive solidified electrolytes (0.4LiI-0.6Li4 SnS4),

265 ith extracellular electron transfer (EET) to conductive solids is relatively insufficient.

266 In electrically conductive solids, the Wiedemann-Franz law requires the

267 ted state (C/I) and in the well-known closed conductive state (C/O), this work recapitulates, at atom

268 in conformational changes that produce a non-conductive state of the channel.

269 striking manner from an initial small-cation conductive state to a dilated state, which allows the pa

270 conformational equilibrium shifts toward the conductive state.

271 e and stochastic switching between different conductive states at low temperature at a single-molecul

272 ft the equilibrium between nonconductive and conductive states of the selectivity filter in which to

273 fects of 2D morphology, amorphous structure, conductive substrate, and Ni-Fe mixed phosphate lead to

274 binders usually used to fix nanomaterials on conductive substrates during sensor fabrications.

275 two-dimensional electron gases (2DEGs) near conductive substrates.

276 s in oriented nanowire arrays on transparent conductive substrates.

277 tic and electrocatalytic compound on various conductive substrates.

278 ectrocatalysts are usually deposited on a 3D conductive support (e.g., carbon paper or carbon cloth (

279 ed the access of the iron redox probe to the conductive support at the electrode surface.

280 and magnetic particles on a micrometer-thick conductive support is a formidable challenge for achievi

281 nd discuss previously unaddressed effects of conductive supports and the electrolyte pH on the Ni-Fe(

282 Graphitic carbons have been used as conductive supports for developing rechargeable batterie

283 sulting composite electrode possesses a high conductive surface area and excellent structural stabili

284 The formation of new types of sensitive conductive surfaces for the detection and transduction o

285 llector using extremely short (2 nm or less) conductive tethers.

286 The hierarchical structure of the conductive textile network leads to decoupled pathways f

287 e, the C-Ge-C sequence is over 20 times more conductive than the Ge-C-Ge sequence.

288 ential region in which the PEDOT backbone is conductive, thus eliminating the need for conducting add

289 Here, highly transparent and conductive Ti3 C2 Tx films and their application as tran

290 Such highly transparent, conductive Ti3 C2 Tx films display impressive volumetric

291 present in the vascular tissue with a second conductive tissue, phloem, required primarily for nutrie

292 ow dopant solubility in this material is not conductive to achieve the optimum carrier concentration,

293 mponents are then interconnected via printed conductive traces to yield soft electronic devices that

294 oadly applicable to a host of electronically conductive transition-metal chalcogenides.

295 ng multifunctional e-textiles by integrating conductive two-dimensional (2D) metal-organic frameworks

296 tched domains, which enable the formation of conductive walls during the read operation, spontaneousl

297 t day and to maintain ocean uplift, a rigid, conductive water-ice shell is required.

298 The new system is composed of a reusable conductive well-plate used as an acceptor compartment an

299 The addition of highly conductive, well-dispersed reduced graphene oxide furthe

300 Finally, this compound is electrically conductive, with values up to sigma = 5.1(3) x 10(-4) S/