ライフサイエンスコーパス: conductive

1 e those with DAE in the closed form are more conductive.

2 imensional printer nozzles, (2) electrically conductive, (3) flexible, and (4) stretchable.

3 hermoelectric properties of an intrinsically conductive 3D MOF.

4 at the proposed electron-tunneling model for conductive 3D-printed structures with thermal expansion

5 Without using any conductive additives, the use of CoPc-Cu-O directly as a

6 Conductive AFM experiments further support the feasibili

7 microphase-separated domains of both an ion conductive and a mechanically strong polymer have been e

8 es further reinforces the interconnection of conductive and catalytic networks.

9 of permanganate (KMnO(4)) was used to impart conductive and catalytic properties to silk fibers.

10 his paper, we report the synthesis of highly conductive and chemically stable AAEMs from the living p

11 n order to produce all-inkjet-printed highly conductive and cost-effective electronic textiles.

12 Here we report inkjet printing of highly conductive and cost-effective graphene-Ag composite ink

13 layer based on carbon paint which is highly conductive and has metallic-like behavior.

14 Less than 1% of Kv2.1 channels are conductive and induce membrane hyperpolarization.

15 t remains challenging in the construction of conductive and intact Pe-QD films to maximize their func

16 ocally formed tin-copper alloys are electron-conductive and meanwhile electrochemically inactive, wor

17 g polymers can also be converted into highly conductive and soft hydrogel microstructures.

18 framework promotes an environment for highly conductive and stable solid-state electrolytes.

19 n is higher than in male myocytes, Kv2.1 has conductive and structural roles.

20 ord new guidelines to construct electrically conductive and structurally intact Pe-QD solids for effi

21 multiwall carbon nanotube (MWCNT) arrays as conductive and super hydrophobic materials to have great

22 Here, highly conductive and transparent Ga doped ZnO thin films were

23 by loading lithium into a high-surface-area, conductive, and lithiophilic porous scaffold.

24 materials that are robust, highly ionically conductive, and stretchable.

25 Filamentary conductive architectures in open-network designs minimiz

26 concurrent nanoscopic spatial mapping using conductive atomic force microscopy and in operando tip-e

27 This is achieved using photo-conductive atomic force microscopy, grazing-incidence wi

28 ts are mapped under a series of biases using conductive atomic force microscopy, revealing negligible

29 as to identify the mechanism responsible for conductive ATP release.

30 s showed the effective fabrication of highly conductive Au@MoS(2)/Ch nanocomposite for sensitive elec

31 e, a lightweight, flexible, transparent, and conductive bilayer composite of polyetherimide and singl

32 anosheets, known as MXenes, can be used as a conductive binder for silicon electrodes produced by a s

33 osslinkable, hybrid bioactive and inherently conductive bioink formed from poly(3,4-ethylenedioxythio

34 There is great interest in developing conductive biomaterials for the manufacturing of sensors

35 carriers created by doping are entirely non-conductive bipolarons and not single polarons, and that

36 on a polymer redox transistor connected to a conductive-bridge memory (CBM).

37 lectrocatalytic properties of the underlying conductive BSCF perovskite.

38 in boundaries, but also form a stable Li-ion conductive but electron-insulating LPO-derived solid-ele

39 istic as well as increased the stability and conductive capability of BP material.

40 ed 3-dimensional custom-printed electrically conductive carbon nanotube patches can be surgically man

41 en substantial interest in research aimed at conductive carbon-based supports since the discovery tha

42 d EMRE form a subcomplex and function as the conductive channel while MICU1 and MICU2 are EF-hand pro

43 s identified based on classic oxygen vacancy conductive channels.

44 In this study we present the modification of conductive colloidal atomic force-scanning electrochemic

45 ows that the periaxonal space is a necessary conductive component to accurately model myelinated axon

46 Conductive composite gels composed of Fmoc-Lys(Fmoc)-Asp

47 Several recent reports describe how conductive composites can be used with FFF printers to g

48 particular, the apparent instability of the conductive conformation of the TWIK-1 SF in the presence

49 The SF region displayed conductive, constricted, occluded, and dilated states, i

50 Here a stable and conductive covalent organic framework was developed for

51 attice dynamics in intrinsically low thermal conductive crystalline solids is important to thermoelec

52 sist of elastic polyurethane (PU) fibers and conductive Cu fibers, which are used as interconnects fo

53 n the electronic transport properties of the conductive "Cu(26) S(32) " framework.

54 ion; and severe craniosynostosis with severe conductive deafness).

55 challenges and future research directions of conductive diamond are discussed and outlined.

56 Conductive diamond microcrystalline and nanocrystalline

57 Conductive diamond possesses unique features as compared

58 isted bilayer graphene is expected to remain conductive due to a triangular network of chiral one-dim

59 ed approach would revolutionize the field of conductive/electroactive polymer-supported ion sensing w

60 Because of a high-quality transparent conductive electrode film of indium tin oxide (ITO) coat

61 The Ti sphere also served as a conductive electrode for applying electricity to the adh

62 or interfacial electron transfer, ET, from a conductive electrode to redox-active molecules at fixed

63 positioned greater than 15 angstrom from the conductive electrode.

64 ic properties (reducing, stimuli responsive, conductive), etc.

65 ical impedance tomography (EIT) imaging on a conductive fabric.

66 ical and electrical properties to many other conductive fibers fabricated through different approache

67 of-the-art resistive switches rely on either conductive filament formation or phase change.

68 Polymer composites with electrically conductive fillers have been developed as mechanically f

69 Poly(1H-1,2,4-triazole-3-thiol) (poly(T3T)) conductive film was coated successfully on the gold elec

70 T(x) flakes are ideal candidates for making conductive films due to their high strength and metallic

71 and electrical insulation films, transparent conductive films, materials for energy storage (e.g., Li

72 anufactured rock, we demonstrate that highly conductive flow paths can be formed in tensile fractures

73 stems with significant energy dissipation in conductive fluids.

74 Conductive foils or wires providing EM protection and re

75 the lattice, which serves as an acid-stable, conductive framework for embedded OER active centers.

76 study indicate that the use of 2D MPc-based conductive framework materials holds great promise for a

77 emistry design principles can be extended to conductive frameworks with significant intermolecular co

78 es with both intrinsic microporosity and ion-conductive functionality.

79 a job-synergistic mode between catalytic and conductive functions guarantees the homogeneous depositi

80 ounter, and pseudo-reference) are AM using a conductive fused-filament comprised of a mixture of carb

81 ron transfer (MIET and DIET), induced by the conductive GAC promote the overall efficiency of bioener

82 flexes still use rigid metal electrodes with conductive gels and aggressive adhesives, while requirin

83 onsisted of a Fluorine-doped Tin Oxide (FTO) conductive glass substrate - connected to the negative p

84 n brief, the sensing unit was assembled on a conductive glass substrate with a highly conductive poly

85 advancements is the use of a functionalized conductive graphene with enhanced biocompatibility, anti

86 the electron-tunneling barrier width between conductive graphene-centers.

87 composite was used as a bulk-modifier of the conductive graphite ink constituting the working electro

88 lso in disorders following noise exposure or conductive hearing loss.

89 ofile in a noncontacting manner, eliminating conductive heating and enabling thermally regulated EF d

90 is the result of a time-dependent process of conductive heating produced by nearby radiofrequency del

91 s from a poorly characterized EF profile and conductive heating that limits the duration and amplitud

92 his study, the effect of two drying methods (conductive hydro-drying - CHD and freeze-drying - FD) on

93 nal behavior, such as neurite outgrowths, by conductive hydrogel micropatterns combined with electric

94 ane nanopillar arrays on a flexible film and conductive hydrogel micropatterns including polyethylene

95 ing a surface modified nanopillar array with conductive hydrogel micropatterns.

96 The use of pai-conjugated polymers (CPs) in conductive hydrogels remains challenging due to the wate

97 nterfacing electronics including composites, conductive hydrogels, and electrochemical deposition.

98 ET) between a water oxidation catalyst and a conductive In(2)O(3):Sn (ITO) oxide were extracted from

99 tures from brine-filled rock formations with conductive inclusions and show that new opportunities in

100 polarization mechanism with solid and porous conductive inclusions suggest a rigorous new approach in

101 itially tested with model systems with solid conductive inclusions, this theory is then extended and

102 Conductive indium-tin-oxide (ITO, In(2)O(3):Sn) mesoporo

103 y low cost and easy production, with a novel conductive ink, that consists of graphite and automotive

104 ations in sports goods, automotive coatings, conductive inks and touch screens, to name a few.

105 lly printed using an aerosol jet printer and conductive inks of Ag nanoparticles, Ag nanowires, and c

106 ntrolled ink-jet deposition of low-viscosity conductive inks, extrusion of insulating silicone pastes

107 Conductive inks, necessary for manufacturing the next ge

108 on, these molecular clusters may function as conductive inorganic nodes in new devices and materials.

109 barriers for electron transfer proximate to conductive interfaces, which is an exploitable behavior

110 carbon cloth) or ionic (ion-exchange resins) conductive intermediates in the solution compartment, wh

111 We also show the conductive ionospheric region to be extensive, with thic

112 mechanical and electrical properties of the conductive IrO(2) layer was observed resulting from elec

113 It is highly conductive, largely transmissive to light, processible i

114 A thin conductive layer between touching hydrophilic cellulose

115 e UPS data suggesting the creation of a thin conductive layer on its insulating bulk under light irra

116 painting was employed to fabricate a silver conductive layer using AgNPs ink applied in the hydrophi

117 ramework serves as a solid electron/ion dual-conductive Li host during cell cycling, in which the Li

118 free design criteria, where the highly ionic conductive Li(3) N reduces the Li plating/stripping over

119 The conductive marker segment, e.g., a salt solution, is pro

120 hene is a lightweight, chemically stable and conductive material that can be successfully utilized fo

121 molecular catalysts with conductive or semi-conductive materials have converged to high catalytic pe

122 ding percolation networks of one-dimensional conductive materials such as metallic nanowires and carb

123 r thin-film devices without planarization by conductive materials such as PEDOT:PSS.

124 om which to fabricate a wide range of porous conductive materials that are increasingly of interest i

125 s multiphase systems and in reactors made of conductive materials while maintaining resolution and ch

126 the universality of the phenomenon in 2D non-conductive materials, and feature low switching voltage,

127 tures that involve deformations that typical conductive materials, such as conventional metal films,

128 c CD-based liquid crystals applied as proton conductive materials.

129 In this work, several 2D (conductive) materials were employed to improve the perfo

130 jugated polyelectrolyte CPE-K functions as a conductive matrix to electronically connect a three-dime

131 particles' evolving (de)attachment with the conductive matrix.

132 een stiff, micro-structured, anisotropically conductive meanders encapsulated by stretchable films.

133 monstrate a novel function for VDAC-1 as the conductive mechanism responsible for Alternaria-induced

134 impedance phase dispersion within moderately conductive media (0.8 S/m).

135 heir competitive performance as electrically conductive membranes.

136 ernative for the fabrication of electrically conductive membranes.

137 o the recent developments in hydroxide-anion conductive membranes.

138 Conductive metal organic frameworks (MOFs) represent a p

139 detect ion movements into the nanopores of a conductive metal-organic framework (MOF) electrode under

140 Conductive metal-organic frameworks (c-MOFs) have drawn

141 Electrically conductive metal-organic frameworks (cMOFs) have become

142 In this context, it is undeniable that conductive metal-organic frameworks (MOFs) and bistable

143 of an array of two-dimensional (2D) layered conductive metal-organic frameworks (MOFs) as drop-caste

144 exchange interactions in the two-dimensional conductive metal-organic frameworks (MOFs) copper hexaox

145 The emergence of electrically conductive metal-organic frameworks (MOFs) has led to ap

146 Electrically conductive metal-organic frameworks (MOFs) provide a rar

147 ansition-metal dichalcogenides (2D TMDs) and conductive metals, such as gold, significantly influence

148 troscopy results show that the high electron-conductive metastructure is composed of bound water and

149 typical hydrogel state and the high-electron-conductive metastructure state of the gelatin hydrogel a

150 Upon coupling SMI of NCs/NPs as electrically conductive microelectrodes and surface-mediated assembly

151 ng neuronal-like network formation along the conductive microfibers under electrical stimulation (100

152 Herein, we report a semiconductive, proton-conductive, microporous hydrogen-bonded organic framewor

153 facilitates assembly of EGaIn droplets into conductive microwires at loadings as low as 10 wt%.

154 ssy carbon electrode modified with a film of conductive MOF (M(3)HXTP(2); M = Ni, Cu; and X = NH, 2,3

155 ovide key insights into high-performance, 2D conductive MOF designs for battery electrodes.

156 oconductivity of Zn(2)TTFTB, an archetypical conductive MOF, in a noncontact manner.

157 The most conductive MOFs are made from organic ligands and square

158 The implementation of conductive MOFs in voltammetric detection holds promise

159 ctures and properties: Only two electrically conductive MOFs reported to date exhibit cubic structure

160 glyoximate core in a family of isostructural conductive MOFs with Mn(2+) , Zn(2+) , and Cd(2+) .

161 ational design of air-stable, electronically conductive MOFs.

162 ide an overview of outstanding challenges in conductive MOFs.

163 Using X-ray crystallography, identical conductive MthK structures were obtained in wide-ranging

164 int for the development of electroactive and conductive multidimensional and multifunctional crystall

165 use of difficulties in making highly ordered conductive nanoelectrodes.

166 escribes recent developments in the field of conductive nanomaterials and their application in 2D and

167 vine serum albumin supported by a network of conductive nanomaterials composed of either gold nanowir

168 Applications of conductive nanomaterials for fabrication of various 2D a

169 ts from both the soft nanoparticles and hard conductive nanosheets, which would enlighten the innovat

170 roaching 90 wt% remain insulating and form a conductive network only when subjected to sintering.

171 ea, hierarchical pores and an interconnected conductive network.

172 The ability to achieve highly conductive nitride ultrathin films by harnessing strain-

173 thod based on the wireless polarization of a conductive object that induces the asymmetric electroact

174 emical synthesis of electrically functional (conductive or insulating) polymers at the plasma membran

175 tems upon combining molecular catalysts with conductive or semi-conductive materials have converged t

176 Unlike traditional conductive organic materials, we find that the air-stabi

177 glass substrates covered with a transparent conductive oxide (TCO).

178 n the electric double layer of a transparent conductive oxide as a function of the Gibbs free energy

179 Two porous conductive oxide layers, separated by a porous insulator

180 les in the presence of representative poorly conductive oxide particles in our experimental condition

181 Dye-sensitized conductive oxides also promote long-lived charge separat

182 The utilization of conductive oxides is shown to be a powerful tool for qua

183 other applications that utilize transparent conductive oxides to accept or deliver electrons.

184 rms-among them nitrides, semiconductors, and conductive oxides-have come to prominence in recent year

185 of biological activities and applications of conductive PANI-based nanocomposites in the biomedical f

186 current carrying interconnect polarizes the conductive particles and chains them up to create a heal

187 also been analysed with the contribution of conductive paste.

188 occur as an individual stem grows longer and conductive path length increases.

189 iated by Ca(2+)-dependent, pannexin/connexin-conductive pathway involving protein tyrosine kinase, bu

190 chial epithelial (HBE) cells by activating a conductive pathway involving voltage-dependent anion cha

191 area, maximized exposure to active sites, 3D conductive pathways for efficient electron transport, an

192 metal and LLZTO and affords highly efficient conductive pathways for Li(+) transport through the inte

193 Obstructing conductive pathways of the channel-forming toxins with t

194 f receptors fully integrated with epithelial conductive pathways supporting swimming, escape and feed

195 f the sheet integrity and lack of electrical conductive pathways.

196 l synthetic tissues with single-droplet-wide conductive pathways.

197 m liquid-metal-based, stable and stretchable conductive patterns on rigid and soft substrates.

198 rbon nanotube ink 3-dimensionally printed in conductive patterns onto bacterial nanocellulose were de

199 ing the anode and a partially electronically conductive (PEC) coating with tunable conductivity conta

200 es periplasmic cytochromes, yet-unidentified conductive periplasmic fibers, and periplasmic oxygen re

201 g brownmillerite phase, SrFeO(2.5) , and the conductive perovskite phase, SrFeO(3) , gives rise to th

202 ntrolling the expression of the electrically conductive pili (e-pili) of Geobacter species are of int

203 gy enables large-scale fabrication of highly conductive pillared MXene multilayers, and potentially f

204 arget plates printed by FDM technology using conductive plastic material were evaluated for their det

205 /ions adsorption into intrinsic vacancies, a conductive-point mechanism supported by first-principle

206 the negative pole side of the DMFC - with a conductive poly (3,4-ethylenedioxythiophene) (PEDOT) lay

207 Here, hole-conductive poly(3,4-ethylenedioxythiophene) (PEDOT) grow

208 n a conductive glass substrate with a highly conductive poly(3,4-ethylenedioxythiophene) (PEDOT) laye

209 fficiency by filling the macropores with ion-conductive polyelectrolytes, which is termed polyelectro

210 sible porous electrode and electrolyte gels; conductive polymer and copper microwire current collecto

211 Characterizing doping effects in a conductive polymer and physical diffusion in a passive p

212 te gels composed of Fmoc-Lys(Fmoc)-Asp and a conductive polymer exhibit excellent DNA binding.

213 -phenylenevinylene)s (PPVs), a staple of the conductive polymer family, consist of alternating alkene

214 ng the need for both thin-film formation and conductive polymer guests, would offer both improved cap

215 ubstrates or to thicker films (1 mum) when a conductive polymer is introduced into the COF pores.

216 o an intricate arrangement of cells within a conductive polymer matrix.

217 1D (e.g. carbon nanotubes, Si nanowires, conductive polymer nanowires, 1D metal oxides, and other

218 nd 3D respectively) constructs composed of a conductive polymer to compare the effect of electrical s

219 <10 nanoamperes is achieved by diluting the conductive polymer with an insulator to decrease the con

220 fied with Au nanostructures, LiClO(4) -doped conductive polymer, and an enzymes-immobilized membrane

221 Conductive polymer, PEDOT:PSS, coated microelectrodes ha

222 ion-specifically the electrosynthesis of the conductive polymer, polypyrrole-the optimized SECCM set

223 tivity of detection of molecularly imprinted conductive polymer-coated electrodes to 17beta-estradiol

224 Conductive polymers (CPs) are gaining considerable atten

225 Self-powered drug-delivery systems based on conductive polymers (CPs) that eliminate the need for ex

226 Solution-processable highly conductive polymers are of great interest in emerging el

227 r rational design and synthesis of thermally conductive polymers for thermal management, particularly

228 xidative chemical vapor deposition (oCVD) of conductive polymers offers a flexible and scalable path

229 as templates for the molecular imprinting of conductive polymers to enable recognition of alpha-synuc

230 he molecular level integration of inherently conductive polymers with bioactive hydrogels using bi-fu

231 EDOT:PSS with other compositions such as non-conductive polymers, the blending can compromise resulta

232 a microbial community to a growing layer of conductive polypyrrole on a sponge bioanode of a microbi

233 Conductive probe atomic force microscopy (cAFM) was used

234 Using magnetic conductive probe atomic force microscopy, Hall voltage m

235 ical properties of suture materials with the conductive properties of metals and may form a restorati

236 using a stretchable, flexible biopatch with conductive properties to attempt to restore conduction a

237 ricular arrhythmia with ablation or altering conductive properties using antiarrhythmic drugs.

238 w different gating mechanisms and fine-tuned conductive properties.

239 lectors with an insulative surface layer and conductive recessed patterns.

240 We confirmed that Kv2.1 plays a canonical conductive role but found it also has a structural role

241 tion of the solvent takes place and that the conductive salt LiPF(6) is consumed, i.e., the concentra

242 n arising from shielding by the electrically conductive sample container.

243 fluidic channels filled entirely with highly conductive sample.

244 Here, 3D conductive scaffolds are fabricated based on printed mic

245 on of such guidance to neuronal cells, these conductive scaffolds may see versatile applications in n

246 Carbon nanotubes (CNTs) were utilized as conductive scaffolds to enhance the interaction between

247 eduction into reduced GO (rGO), the obtained conductive scaffolds, with 25-50 layers of rGO, demonstr

248 ong vertical direction revealed by nanoscale conductive scanning force microscopy and macroscale IV c

249 ng fabric was used for protecting underwater conductive sensors, allowing a robot fish to swim freely

250 iency of K(+) in stabilizing an active (i.e. conductive) SF conformation.

251 p from a long (e.g., 50 cm) capillary with a conductive sheath flow.

252 interface, where silica has grown on highly conductive Si(110) crystal facets, the silica-silicon co

253 gh capacitive noise from conventionally used conductive silicon substrates, however, has seriously li

254 n excellent building block for preparing new conductive SIMs.

255 The first three-dimensional (3D) conductive single-ion magnet (SIM), (TTF)(2) [Co(pdms)(2

256 Herein, an electron/ion dual-conductive solid framework is proposed by partially deal

257 The recent discovery of highly conductive solid-state electrolytes (SSEs) has led to tr

258 nethiol ligand to adopt an unexpected highly conductive stacked structure between the two junction el

259 th transmembrane segment (S4) to control its conductive state.

260 y of the SF sites, except S4, can rescue the conductive state.

261 This results in highly conductive structures demonstrated to be dominated by pr

262 it and form cubic, porous, and intrinsically conductive structures, with electrical conductivities re

263 crobes to take up electrons from solid-phase conductive substances such as metal oxides.

264 roplets attracted towards and spreading on a conductive substrate in response to an applied voltage.

265 ion of reactive sites, strong bonding to the conductive substrate, nanosized thickness and binder-fre

266 termediate layer, and a flexible transparent conductive substrate.

267 ices either to thin films (<250 nm) grown on conductive substrates or to thicker films (1 mum) when a

268 glassy insulating materials are sprayed onto conductive substrates, where a thickness-limited film fo

269 nt triple-phase boundaries between catalyst, conductive support and electrolyte.

270 s (NPs) with 2D graphene oxide nanosheets as conductive supports and nanofillers, based on which an e

271 of molecules on any conductive surface, or a conductive surface covered with dielectric layer.

272 osan-Nafion (Chit-Naf) composite as a highly conductive surface platform and a novel CNT-based signal

273 it allows for deposition of molecules on any conductive surface, or a conductive surface covered with

274 ior low-friction, antifouling, and ionically conductive surfaces to the polymer substrates without co

275 ion or confinement of molecular catalysts on conductive surfaces.

276 ession is normally restricted to the cardiac conductive system.

277 apidly patterning PEDOT:PSS hydrogels on any conductive template, including curved and 3D surfaces.

278 t robotics require conformable and thermally conductive thermal interface materials to improve their

279 he focus is on the production of transparent conductive thin films, which exhibit a wide range of tra

280 iezoresistive film connected by a network of conductive thread electrodes that are passively probed.

281 reticular chemistry concepts to electrically conductive three-dimensional metal-organic frameworks (M

282 r shielding effectiveness compared with more conductive Ti(3)C(2)T (x) or metal foils of the same thi

283 novations that led to the evolution of their conductive tissues are unknown.

284 morphology, function and transcriptionally, conductive to sarcomere shortening assays.

285 ormances of different nitrogen rates will be conductive to sustain cleaner crop production.

286 (or combined with other compounds) serve as conductive traces and sensing electrodes, and office-cop

287 d structures, such as micro-supercapacitors, conductive tracks and ohmic resistors on untreated plast

288 A conductive transparent cantilever electrically contacts

289 Indium Tin Oxide (ITO) electrode as a highly conductive, transparent, and electrocatalytically active

290 ribes the synthesis of a novel intrinsically conductive two-dimensional (2D) covalent organic framewo

291 use of four systematic structural analogs of conductive two-dimensional (2D) metal-organic frameworks

292 e ability to switch between the low-electron-conductive typical hydrogel state and the high-electron-

293 hKv2.1-T377A and hKv3.1-T400A remained fully conductive upon prolonged moderate depolarizations, wher

294 With appropriate design constraints, this conductive variant of DNA demonstrates promise for use i

295 tform MOF, NU-1000, can be made electrically conductive via reversible electrochemical oxidation of a

296 ere, a method to produce highly stretchable, conductive, washable, and solderable fibers that consist

297 Metals are highly conductive with catalytic effects, but bulk structures w

298 tegrated functional capabilities: (a) highly conductive with ~20 Omega/sq sheet resistance, (b) optic

299 ning ion conductance microscope (SICM) and a conductive (working electrode) substrate (two-electrode

300 tain value, SrTiO(3) suddenly becomes highly conductive, yielding at least around a 10(8)-fold decrea