ライフサイエンスコーパス: electric

1 ased on either transcriptomic(3,4) or morpho-electric(5,6) criteria, as it has been technically chall

2 We analyzed expiratory diaphragmatic electric activity and respiratory mechanics.

3 Since chi((0)) < 0 is the missing electric analog of diamagnetism, this work opens the doo

4 of optical nonlinearities driven by both the electric and magnetic components of light at modest (non

5 nimals have evolved sensory abilities to use electric and magnetic cues in essential aspects of life

6 S (A(g) symmetry) is triply forbidden by the electric and magnetic dipoles and the electric quadrupol

7 ctive resonance coupling between the induced electric and magnetic dipoles associated with enantiomer

8 electromagnetic Lagrangian (E and B are the electric and magnetic field, respectively).

9 y versatile particles are responsive to both electric and magnetic fields for practical applications.

10 ates of matter possessing highly contrasting electric and optical properties.

11 ible dielectrics operable under simultaneous electric and thermal extremes are critical to advanced e

12 ells on a chip, exploiting the confluence of electric and thermal fields, without necessitating the u

13 er extends the variety of observable magneto-electric and topological effects.

14 uggest that the integration of ROS, calcium, electric, and hydraulic signals, during systemic signali

15 ubit is universally protected from magnetic, electric, and temperature fluctuations, which account fo

16 use primary motor cortex, providing a morpho-electric annotation of almost all transcriptomically def

17 inence or voluntary abstinence induced by an electric barrier of increasing intensity near the drug-p

18 model of incubation of opioid craving after electric barrier-induced voluntary abstinence and determ

19 quid using charged colloidal particles in an electric bottle.

20 showed that substituting delivery vans with electric cargo bikes can lead to a GHG emission reductio

21 cial to improve the positioning accuracy and electric cell-substrate impedance sensing (ECIS) perform

22 sured barrier resistance and integrity using electric cell-substrate impedance sensing, trans-endothe

23 ed here conclusively demonstrate the role of electric charge in detection sensitivity as well as the

24 This in turn leads to the buildup of electric charge in donor and acceptor domains-away from

25 bundle thickness, which is determined by the electric charge of the filaments, the number of hydropho

26 d quantitative correlation with the supplied electric charge, Pearson's r = 0.994.

27 onstrate experimentally for the diffusion of electric charges in a one-dimensional electrical system

28 merging regimes and can be explained with an electric circuit diagram.

29 We use electric circuits to experimentally implement a four-dim

30 aries through a parallel set of resistors in electric circuits.

31 Formula: see text] with large changes in its electric conductivity, optical reflectivity and density.

32 e, soluble protein, lignin, chlorophyll, and electric conductivity.

33 ge chiroptical effects are caused by magneto-electric coupling (natural optical activity), not struct

34 lexible detectors exhibit efficient X-ray-to-electric current conversion with enhanced charge-carrier

35 , while an external magnetic field along the electric current direction is generally required for rea

36 video glasses using near-infrared light into electric current to stimulate the nearby inner retinal n

37 gents as well as electron transfer events by electric current.

38 gative murine breast cancer cell line (4T1), electric currents and potentials of tumors were measured

39 They hold promise for magneto-electric devices.

40 nchiral cubic structure to an incommensurate electric dipole and orbital helix via an intermediate de

41 BiMn(7)O(12) In analogy with magnetism, the electric dipole helicoidal texture is stabilized by comp

42 p) is first absorbed by excitations carrying electric dipole moment.

43 s remained controversial because of the poor electric dipole stability in single molecules.

44 lecule electret is the switching between two electric dipole states by an external electric field.

45 vation of incommensurate helical ordering of electric dipoles by light hole doping of the quadruple p

46 eying local "ice rules," in analogy with the electric dipoles in water ice.

47 (antiferroelectric) collinear alignments of electric dipoles.

48 olecular cations that arises from frustrated electric dipoles.

49 nsition from an ancestral sound to a derived electric discharge producing system, and thus the evolut

50 muscles accounts for an individual sound and electric discharge pulse.

51 f the Pook's Pebbles samples revealed unique electric discharge signatures.

52 Such behavior is indicative of electric discharge taking place sometimes during the for

53 annel because some produce sounds and others electric discharges.

54 sociated pulse repetition rate of sounds and electric discharges.

55 th the twist angle and the application of an electric displacement field, the latter reflecting the i

56 itional understanding of the formation of an electric double layer (EDL) at a liquid-solid interface

57 try occurs (during the initial charging), an electric double layer forms at the electrode/electrolyte

58 positioned at variable distances within the electric double layer of a transparent conductive oxide

59 odifies the space-charge distribution in the electric double layer, which blocks the long-range migra

60 and proton-coupled electron transfer in the electric double layer.

61 on transfer and demonstrate the formation of electric double-layer in liquid-solid CE.

62 rimentally observed as a topological magneto-electric effect of inversion-broken tilted WSMs.

63 These electric effects caused significant changes on beta-lact

64 Dielectric capacitors can store and release electric energy at ultrafast rates and are extensively s

65 The electric energy cost for FG synthesis is only about 7.2

66 s goal by converting biomechanical energy to electric energy.

67 scriptomic cell types showing similar morpho-electric features, often without clear boundaries betwee

68 Both electric field (0-150 mV cm(-1) ) and microfiber diamete

69 For d > 14 nm, both dark and PC become electric field (E) dependent and exhibit approximate ove

70 In a developing nervous system, endogenous electric field (EF) influence embryonic growth.

71 Pacific white shrimp with prior pulsed electric field (PEF) treatment before soaking in Chamuan

72 The effect of high pressure (HP) and pulsed electric field (PEF) treatments combined or not with hea

73 In contrast, under forward bias, the electric field across the IDL is destroyed, substantiall

74 Moreover, we find that this electric field adjusts the orientation of its substrate

75 centration gradient to induce a stable local electric field and achieve DNA concentration, making it

76 devices, and pave a way to control the local electric field and carrier concentration in van der Waal

77 n electrokinetics, which require an external electric field and generally become ineffective in high

78 icted that this symmetry breaking induces an electric field and leads to a wealth of novel properties

79 he catheter tip simultaneously create a weak electric field and measure the impedance, which changes

80 rved as a strain-induced change in the local electric field around bubbles and creases, in agreement

81 e core and shell regions leads to a built-in electric field at the heterojunction.

82 e are subsequently separated by the built-in electric field at the PN or NN heterojunctions, which re

83 w of particle-free ambient air and a tunable electric field based on the respective particle electrop

84 Surface calculations showed that positive electric field between the NAD(H) binding sites on LDH a

85 ons with EEF, and quantum mechanical/(local) electric field calculations.

86 The working mechanism is that an alternating electric field can be induced once contact-sliding occur

87 ACET flow induced by a biased AC electric field can rapidly convect the analyte onto nano

88 This electric field control enables an alternate modality for

89 ravity is dominant in the dripping mode, the electric field degenerates the electrospray mechanism in

90 This effectively changes the electric field distribution around the tips of lithium b

91 e absolute mobility K at moderate normalized electric field E/N and field asymmetric waveform IMS (FA

92 to the tip were studied based on the strong electric field enhancement along the tip.

93 s (NCs) have attracted much attention due to electric field enhancements at their tips.

94 ce that exists due to the considerable inner electric field force at the nanoscale.

95 se peroxide formation is induced by a strong electric field formed at the water-air interface of micr

96 e cars are designed to be stimulated with an electric field gradient from a scanning probe microscopy

97 The ions are guided through an internal electric field gradient of the FmuTP that arises from ch

98 81)Br and (127)I) combined with the enhanced electric field gradients around these nuclei existing in

99 We discovered that electric field gradients can be used to control and acce

100 tic order in magnetoelectric Cr(2)O(3) using electric field has been of great interest due to its pot

101 rodynamics to emphasize the dominance of the electric field in dynamic light-matter interactions that

102 The creation of a reverse electric field in surface layers effectively restrains t

103 l thickness in order to analyse the built-in electric field in the GaN channel layer.

104 cle suspensions, a high-magnitude DC uniform electric field induces nonlinear particle velocities, le

105 mechanism based on an adiabatically changing electric field interacting with the rotational structure

106 ical outward-directed topology of the sheath electric field into a focusing configuration.

107 For reversible EP, precise control over the electric field is critical to regulate the induced pore

108 tional modeling to show that KSI's intrinsic electric field is nearly perfectly oriented to stabilize

109 ~0.22 K m MV(-1) is obtained at an ultralow electric field of 75 MV m(-1) in nanocomposites filled w

110 The electric field of light striking a metal interacts with

111 ion of the structure and response to applied electric field of the lower-temperature nematic phase of

112 d the ability to manipulate this entity with electric field on the nanoscale expand the existing phen

113 o-noise ratio (SNR) scales linearly with the electric field over those whose SNR scales linearly with

114 current (ac) conduction under an excitation electric field perpendicular to the surface.

115 Our results reveal that components of the electric field perpendicular to the tip should be consid

116 the Menshutkin species and induces a global electric field pointing in the opposite direction of the

117 ntal challenges like poor stability under an electric field prevent realistic applications of halide

118 ar-field optical microscopy we visualize the electric field profiles of waveguide modes in real space

119 application of high amplitude short length electric field pulses.

120 the data suggest that the externally applied electric field significantly stimulates the mass-transfe

121 tion does not increase monotonously with the electric field strength above an optimum E(0), which is

122 oltage to several volts to induce sufficient electric field strength for efficient bacteria inactivat

123 owing through different outlets to different electric field strength, thus resulting in different imp

124 varying electrolyte concentrations and weak electric field strengths (0-2 V cm(-1)).

125 ments of adsorption at an interface under an electric field suggest that the optimum E(0) is determin

126 ersing the direction of the applied vertical electric field switches the moire minibands of ABC-TLG/h

127 lectric effect produces the surface positive electric field that exhibits electrostatic attraction to

128 rate of decay implies a sufficiently strong electric field to account for the particle acceleration

129 ar-field enhancements could help confine the electric field to the electrodes.

130 tunability (> 100%) is achieved with applied electric field to the PMN-PT [011] substrate.

131 nowire-modified electrodes, locally enhanced electric field treatment (LEEFT) reduces the required vo

132 Electric field treatment inactivates bacteria by physica

133 e has been proposed in this work with strong electric field tuning of magnetism.

134 f the orthogonal components of the terahertz electric field vector without cross-talk.

135 ernal means, such as charge transfer or high electric field, allows the conversion of the crystal str

136 e polymer, drive it into oscillation with an electric field, and image the oscillation with a near fi

137 ng the control parameter, i.e., the external electric field, conditions the nonequilibrium self-assem

138 control of Taylor cone instability and micro-electric field, enables the creation of networks with ch

139 of these reactions, which generate a strong electric field, hot carriers, and heat through the excit

140 ultaneous use of pressure-driven flow and DC electric field, migration of particles inside microfluid

141 Upon application of an electric field, the cell membrane is compromised, allowi

142 ctivity through variations of the energizing electric field, we reveal emergent dynamic phases, rangi

143 nearly increases with increasing the applied electric field, where the Rashba coefficient in (BA)(2)(

144 lay an inhomogeneous distribution of PZC and electric field, which directly affects the electrochemic

145 ivity (E(F)-B(z)-sigma(xy)) and Fermi energy-electric field-Hall conductivity (E(F)-E(z)-sigma(xy)) p

146 s work reports on the application of a novel electric field-ionization setup for high-resolution lase

147 s at the water-oil interface subjected to an electric field.

148 ich organic phase is exposed to a DC uniform electric field.

149 s, a gap is present even without an external electric field.

150 of environmental conditions, such as applied electric field.

151 dipolar interactions by means of an external electric field.

152 s locally enhanced bond alignment under high electric field.

153 orifice and is not dependent on the nanopore electric field.

154 cortical neuron orientation relative to the electric field.

155 eved in polymer nanocomposites at a moderate electric field.

156 a bacterium near collector surfaces in a DC electric field.

157 nt ionic concentrations without any external electric field.

158 ical wormhole in the presence of an in-plane electric field.

159 ids) based on application of the alternating electric field.

160 en two electric dipole states by an external electric field.

161 ential mobility in an asymmetric oscillating electric field.

162 tor strength redistribution under a vertical electric field.

163 ymmetric drop shape analysis (ADSA) under an electric field.

164 rging and splitting using a perpendicular AC electric field.

165 Here we experimentally demonstrate direct electric-field control of magnetic states in an orbital

166 electronic phase transformations through the electric-field controlled proton evolution with ionic li

167 ntally viable strategy to implement external electric-field effects in routinely used oxidative addit

168 (3,4) from ferromagnetic (FM) monolayers and electric-field induced Kerr rotation(5-7) and giant seco

169 r is confined to a small area in the density-electric-field plane, and is attributed to a phase trans

170 resistance hysteresis by magnetic field and electric-field switching of magnetization even in multil

171 d external-electric-fields (OEEF), and other electric-field types, as "smart reagents", which enable

172 en identified as a powerful means to achieve electric-field-controlled phase transformations.

173 ductance switching is then attributed to the electric-field-driven reorientation of the individual di

174 MD simulations, the kinetics of ultrashort, electric-field-induced permeabilization of GUVs were sig

175 overy of spin-polarized correlated states in electric-field-tunable TDBG provides a new route to engi

176 Applying additional external electric fields (EEFs) induces a significant change to t

177 When and how do external electric fields (EEFs) lead to catalysis in the presence

178 ellular behavior within programmed stand-off electric fields (EFs) and monitoring cellular responses

179 tensity (up to and exceeding 6.5 V/cm pk-pk) electric fields (EFs) to cell and tissue cultures genera

180 cells capable of detecting subtle changes in electric fields (Figure 1B) [3,4].

181 s can be mimicked by use of (designed) local-electric fields (LEFs), i.e., by embedding charges or di

182 s, they require the application of very high electric fields and thus their EC strengths DeltaS(EC) /

183 lectrolytic gating, which can generate large electric fields and voltage-driven ion transfer, has bee

184 Electric fields can transform materials with respect to

185 In this study, the effects of moderate electric fields during thermal denaturation of beta-lact

186 We show how electric fields exerted by the insulating substrate may

187 enomena and for gate-tunable built-in planar electric fields for device applications.

188 through direct host-guest interactions, the electric fields from the nanocage also supports the tran

189 ts are tuned by exposing the qubit sample to electric fields generated by electrodes surrounding the

190 Electric fields greater than 129 Td or new designs of re

191 ectron band that is tunable by perpendicular electric fields in a range of twist angles.

192 e membranes enable the generation of uniform electric fields inside the droplets, while simultaneousl

193 everal decades of research suggest that weak electric fields may influence neural processing, includi

194 ace in different VGICs when exposing them to electric fields mimicking electroporation conditions.

195 stributions near hydrophobic interfaces, and electric fields near the surface of water droplets.

196 s and insulators, and as a result, substrate electric fields need always be considered.

197 etectors demonstrates low dark current under electric fields needed for high sensitivity X-ray imagin

198 ous interfacial electrostatic potentials and electric fields of GCC organic acids are computed as fun

199 ial to explore the stimulatory influences of electric fields on cellular processes in tissue and rege

200 r (bio)-technological applications involving electric fields processing, bringing new insights for th

201 The EEG changes correlated with electric fields strengths in prefrontal cortices, and no

202 hat an encapsulated water molecule generates electric fields that contributes the most to the reducti

203 operating principle of rf ion traps requires electric fields that vary in space and time.

204 Control via electric fields would resolve this problem, but previous

205 However, in the presence of electric fields, ionisation spectra exhibit frequency sh

206 in cells exposed to ultrashort (6 and 2 ns) electric fields, suggesting that cellular electroporatio

207 ble for pure electrical switches; under weak electric fields, they show extremely low conductivity, w

208 f theta generate large gate-tunable in-plane electric fields, unscreened even in the metallic regions

209 ally conducted in low and highly homogeneous electric fields, whereas the operating principle of rf i

210 ma-K interlayer excitons can be flipped with electric fields, while higher-energy K-K interlayer exci

211 As a result, controlling spin magnetism with electric fields-a longstanding technological goal in spi

212 conductance and re-orient in the presence of electric fields.

213 xhibit a mechanical response to out-of-plane electric fields.

214 tions of phospholipid bilayers responding to electric fields.

215 ign sodium nitrite in the presence of modest electric fields.

216 ong-lived sample of polar molecules in large electric fields.

217 This Perspective discusses oriented external-electric-fields (OEEF), and other electric-field types,

218 The electric organ of the mormyrid weakly electric fish, Campylomormyrus rhynchophorus (Boulenger,

219 Weakly electric fish, Gymnotus omarorum, display territorial ag

220 The resulting electric forces cause the movement of pore water ions in

221 The analysis includes several electric-grid scenarios and assesses the installation of

222 th more moderate climates, even while making electric heat pumps cheaper to operate than natural gas

223 ts of the U.S., a switch from natural gas to electric heat pumps would raise household heating bills

224 The Electric Heating Policy (EHP) has contributed to signifi

225 inds of practical pathways toward low-carbon electric heating, and provide techno-economic analyses.

226 We report an all-electric integrable electron focusing lens in n-type GaA

227 Boiling with electric kettles was associated with a reduced risk of T

228 ter controlling for covariates, boiling with electric kettles was associated with the largest log red

229 Temperature sensors affixed to pots and electric kettles were used to corroborate self-reported

230 however, has resulted in a sharp increase in electric loads and associated carbon emissions.

231 a through epitaxial strain, layer thickness, electric, magnetic fields, etc.

232 We used in vivo high-density electric mapping, isolation of atrial myocytes, whole-ce

233 Electric measurements of single crystals of the MV salts

234 ing heat, light, pH, hydration, enzymes, and electric, mechanical, and magnetic forces.

235 This concept is demonstrated for a thin electric metagrating operating at terahertz frequencies,

236 ound that the share that PHEVs are driven in electric mode can differ substantially depending on regi

237 We characterized how the weakly electric mormyrid fish Gnathonemus petersii, as it learn

238 o spontaneously form states with magnetic or electric order is of fundamental importance for basic re

239 In a 24.5 mm long juvenile the adult electric organ (EO) was not yet functional, and the elec

240 lenger, 1898), undergoes changes in both the electric organ discharge (EOD) and the light and electro

241 fishes generate stereotyped electric pulses (electric organ discharge [EOD]) for communication and ac

242 inic acetylcholine receptor from the Torpedo electric organ has long been recognized, and one of the

243 The electric organ of the mormyrid weakly electric fish, Cam

244 ossil fuel electricity, and the advantage of electric over ethanol vehicles would decrease proportion

245 trics combine electromechanical coupling and electric polarizabilities, offering immense promise in s

246 is closely tied to flexoelectricity wherein electric polarization and electromechanical response is

247 the absence of applied field, of a permanent electric polarization density, manifested as a spontaneo

248 The room temperature electric polarization is comparable to other spin-driven

249 Our results demonstrate how an oscillatory electric potential on a catalytic surface may alter anti

250 Electric potentials are applied via two parallel three-d

251 Based on tritium data published by Tokyo Electric Power Company Holdings (TEPCO) (17,000 points),

252 The tantalizing possibility of 31% solar-to-electric power conversion efficiency in thin film crysta

253 Emissions from electric power generation have the greatest cross-state

254 analyse an open database of measurements of electric power grid frequencies across 17 locations in 1

255 acter sulfurreducens can generate continuous electric power in the ambient environment.

256 to reduce greenhouse gas emissions from the electric power sector within the Northeast.

257 studied for applications in electronics and electric power systems.

258 ed, H(2) and/or O(2) may be used to generate electric power via fuel cells or combustors, O(2) may be

259 , but none of them would function without an electric power.

260 at 15 A m(-2) demonstrated a ~10 times lower electric-power consumption (1.1 kWh kg(-1) MCCA oil) tha

261 ncentration system based on the higher-order electric properties.

262 Mormyrid fishes generate stereotyped electric pulses (electric organ discharge [EOD]) for com

263 w that twitch and tetanic force responses to electric pulses follow the low-pass filtered calcium sig

264 ulating proton distribution under high speed electric pulses.

265 The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and le

266 purely electrical modulation of the nuclear electric quadrupole interaction results in coherent nucl

267 by the electric and magnetic dipoles and the electric quadrupole.

268 that oxidative injury likely contributes to electric remodeling in AF by upregulating I(KACh) by a m

269 underlies the onset, and the maintenance of electric remodeling in AF, as well, and (2) can be succe

270 ly the genesis, but also the perpetuation of electric remodeling in the intact, fibrillating atrium.

271 willing to gamble, subjecting themselves to electric shocks to satisfy their curiosity for trivial k

272 thout the need to apply alternating polarity electric signals has hampered this technological advance

273 previous methods(7-9) relied on transducing electric signals into magnetic fields via the electron-n

274 of the hippocampus dentate gyrus (DG) in an electric stimulation rodent model which displays classic

275 By providing reversible nerve blockage, electric stimulation with an implanted electrode holds p

276 acupoints without any hand manipulation and electric stimulation.

277 ished textbook arguments suggest that static electric susceptibility chi((0)) must be positive in "al

278 ich is ~4 times stronger than the transverse electric (TE) polarized light at 295 nm.

279 dies, few consumers benefit financially from electric technology vehicles (1.7% of drivers).

280 assesses the economic and carbon benefits of electric technology vehicles in the U.S., accounting for

281 es with characters in other sonic and weakly electric teleost fish provide a striking example of conv

282 he native receptor was purified from Torpedo electric tissue and functionally reconstituted in lipids

283 -endplate membrane and in the muscle-derived electric tissues of fish.

284 ships to onshore grid electricity and using electric tugboats are two approaches to reduce pollution

285 Our results clarify cost targets that electric vehicle technology must achieve in order to del

286 life, which can alleviate range anxiety for electric-vehicle users(8,9).

287 ipe for electrification, adoption of battery electric vehicles (BEVs) in fleet applications has been

288 ensively applied to consumer electronics and electric vehicles (EVs) for solving the present worldwid

289 dering both photovoltaic (PV) generation and electric vehicles (EVs).

290 ctricity generation, charging plug-in hybrid electric vehicles (PHEVs) from the grid promise ever hig

291 revolution in 1991 and the first commercial electric vehicles in 2010.

292 erators also declares its great potential in electric vehicles, DC micro-grids etc.

293 or ethanol vehicles and from 329 to 558% for electric vehicles, declining 27 and 15%, respectively, o

294 With the ever-increasing projections for electric vehicles, the dependency of current Li-ion batt

295 g from small portable electronics to sizable electric vehicles.

296 batteries with energy densities suitable for electric vehicles.

297 ked to technologies such as solar panels and electric vehicles.

298 o meet the demanding market requirements for electric vehicles.

299 e compared to petroleum and were similar for electric vehicles.

300 reactive oxygen species (ROS), hydraulic and electric waves.