ライフサイエンスコーパス: electronic

1 " (a neologism derived from "structure" and "electronics").

2 r cannot be easily replaced (e.g., implanted electronics).

3 adable, self-healing, or breathable, on-skin electronics.

4 enabled the development of flexible wearable electronics.

5 ching voltages compatible with standard CMOS electronics.

6 plications that range from catalysis to soft electronics.

7 ingle-crystal hBN paves the way to future 2D electronics.

8 deformations is central to emerging wearable electronics.

9 is a major obstacle for the down-scaling of electronics(1-3).

10 nal fingerprint, indicating that the diverse electronic absorbers in eumelanin, regardless of transit

11 calculations can track the evolution of both electronic and geometric structure along the adiabatic s

12 We computationally dissected the electronic and geometrical influences of ortho-chlorinat

13 allic lithium and lithium tin alloy as mixed electronic and ionic conducting networks, and their abun

14 were characterized by X-ray crystallography, electronic and NMR spectroscopy, and theoretical calcula

15 ngle experiment to independently follow both electronic and nuclear dynamics at the same time.

16 ovides a clear view of the interplay between electronic and nuclear dynamics of the photoexcited pyri

17 , the results provide insights into both the electronic and nuclear dynamics of this fundamental clas

18 baltocene metallo-cations that have distinct electronic and redox properties.

19 Both the electronic and steric nature of the sulfonyl moiety, whi

20 Our studies thus show that combining electronic and vibrational domains offers a unique and c

21 defined structure is essential to interface electronics and advance their quantum applications.

22 emely low, rivaling that of state-of-the-art electronics and biological neurons.

23 demonstrated triboelectrification-controlled electronics and established direct modulation mechanism

24 nate the stress at the interface between the electronics and growing tissue.

25 mic doping", an important concept in organic electronics and in polythiophene-based solid-state elect

26 semiconductors form the foundation of modern electronics and optoelectronics(1-7).

27 ls that have demonstrated potential in photo-electronics and photocatalytic applications.

28 sed to reduce energy consumption or to power electronics and sensors.

29 to obtain valuable insights into structural, electronic, and dynamic information from the carotenoids

30 anding and exploitation of combined optical, electronic, and magnetic properties.

31 ures are central to next-generation optical, electronic, and quantum information applications.

32 ation of X-ray diffraction, and vibrational, electronic, and X-ray spectroscopies that exist, along w

33 lications including energy storage, flexible electronics, and bioelectronics.

34 energy harvesting, stretchable and flexible electronics, and energy storage, among others.

35 he sensors and secure wireless data transfer electronics, and machine learning for predictive data an

36 e polymers are of great interest in emerging electronic applications.

37 Nonetheless, flexible electronics are not as efficient as silicon ICs for comp

38 Bioinspired electronics are rapidly promoting advances in artificial

39 e [TiO(2)]/[BiVO(4)] give rise to compatible electronic band structure alignment at their interfaces

40 andgap (2.06 electronvolts) and a favourable electronic band structure for efficient electron charge

41 ll as their synergic effect on the resulting electronic band structure need to be explored in a broad

42 mines the effect of electrical doping on the electronic band structure of twisted bilayer graphene us

43 The recently discovered flat electronic bands and strongly correlated and superconduc

44 een observed at partial fillings of the flat electronic bands in recent spectroscopic measurements(7-

45 splitting ('Rashba splitting') occurs in the electronic bands.

46 Potentially interesting electronic behavior for K(3)Ir(2)O(6) is supported by el

47 -A strategic design, with stimuli-controlled electronic behavior, redox activity, and modularity coul

48 Electronic Boolean logic gates, the foundation of curren

49 the fastest growth period in rats, morphing electronics caused minimal damage to the rat nerve, whic

50 these properties is based on the concept of electronic charge transfer.

51 Limited toxicity data on electronic cigarette (ECIG) impede evidence-based policy

52 Nicotine in electronic cigarette (ECIG) liquids can exist in a free-

53 acco heating products (THPs) and a prototype electronic cigarette (or e-cigarette) among Italian non-

54 -administration in rodents with relevance to electronic cigarette use in humans and highlight the pot

55 trends in self-reported use of marijuana in electronic cigarettes among US middle school and high sc

56 , a characteristic of asthma, on exposure to electronic cigarettes, across mouse strains, sex and age

57 nto a persistent voltage bias that can power electronic circuits.

58 A readily available stereodynamic and the electronic circular dichroism (ECD)-silent 2,5-di(1-naph

59 As yet, Electronic Circular Dichroism that uses electronic trans

60 s, and implications for catalysis as well as electronic communication are discussed.

61 intermolecular, solvent tunable ground state electronic communication with these guests.

62 trate and encapsulation coating for wireless electronic components.

63 ich appear as strong asymmetric jumps of the electronic compressibility near integer fillings of the

64 des a new avenue for stabilizing mixed ionic-electronic conduction thermoelectrics, and gives fresh i

65 nergy against Li, and they should have a low electronic conductivity and a high ionic conductivity.

66 The poor electronic conductivity of NaH is beneficial for the gro

67 e design and fabricate multilayered morphing electronics, consisting of viscoplastic electrodes and a

68 Electronic consultations (e-consults) can facilitate pat

69 as low as 160/150 meV, large intermolecular electronic coupling integrals of 12.1-37.9 meV rationali

70 0) (graphene) were measured, despite limited electronic coupling to the Au electrode, demonstrating t

71 gs suggest that CDs could be used to support electronic couplings in multichromophoric systems and fu

72 ctive definition of de-escalation applied to electronic data could be useful for ASP assessments.

73 A systematic search of electronic databases (Athens, Pub Med, Web of Science, S

74 We searched relevant studies in electronic databases and present the narrative findings

75 hat involve qualitative methods by searching electronic databases from January 1, 2014-September 30,

76 ly, being especially strong in the states of electronic degeneracy or pseudodegeneracy, but they cann

77 lectrical stimulation based on drawn-on-skin electronics demonstrates accelerated healing of skin wou

78 pseudogap' manifests as a partial gap in the electronic density of states at the Fermi level and is o

79 l system 1 to study the effects of aryl ring electronic density on the qualitative characteristics of

80 ite the promise of synthetic flexibility and electronic design, fabrication of 2DPs that form electro

81 hanism from a mechanical monochromator to an electronic detector threshold allows for faster spectral

82 dical therapy and with a cardiac implantable electronic device (cardiac resynchronization therapy or

83 assess the robustness of QDCs as a practical electronic device.

84 he functionality/energy-efficiency of future electronic devices and smart systems.

85 dical-prescribed devices as well as consumer electronic devices capable of detecting AF.

86 prosthetic valve IE and cardiac implantable electronic devices IE.

87 -response programming of cardiac implantable electronic devices in patients with HFrEF on the basis o

88 c radiation produced by a number of everyday electronic devices on the measurements made by an eyemat

89 tection frequencies in surface wipes of most electronic devices sampled, including devices in which t

90 evelopment of a new family of ENZ-based opto-electronic devices that take full advantage of the ENZ b

91 rvey, spending more than 60 minutes daily on electronic devices was associated significantly with bot

92 Integrated circuits are present in all electronic devices, and enable signal amplification, mod

93 Striving for applications in oxide-electronic devices, the lateral homogeneity of such samp

94 to develop increasingly complex and powerful electronic devices.

95 ysis, and pattern recognition techniques for electronic devices.

96 ension of infection, and cardiac implantable electronic devices.

97 ctrocatalysts, energy storage materials, and electronic devices.

98 integrated RF components in various flexible electronic devices.

99 ansport properties of BAs for application in electronic devices.

100 uctivities and mobilities toward novel (opto)electronic devices.

101 tracted attention for realizing carbon-based electronic devices.

102 ve led to the development of integrated soft electronic devices.

103 nd the joint thickness on the reliability of electronic devices; we will illustrate that the thermal

104 articular, the lack of sufficient steric and electronic differences between C-H bonds located distal

105 ot seen their performance transferred to the electronic domain, where radar, navigation, communicatio

106 probe, our method would allow capturing the electronic dynamics of a wide range of nanoscale materia

107 p between o-quinone methide stabilization by electronic effects provided by the substituents and the

108 earch enthusiasm with potential for portable electronics, electrical vehicles, and grid-scale systems

109 ies including nanotechnology, microfluidics, electronic engineering, and material science have booste

110 efficacy, suggesting that tuning individual electronic environment is a viable approach to control p

111 chemical potential force to achieve an ionic-electronic equilibrium.

112 wo Fe-(mu-H)-Fe moieties, the structural and electronic features of this mixed valent intermediate re

113 erable attention because of their intriguing electronic features.

114 tate with massless Dirac fermions and broken electronic flavor symmetry; superconductivity and correl

115 istribution of width 9-11.5 degrees , and an electronic gap of 0.8-1.4 eV.

116 ever-growing market of portable and wearable electronics has accelerated development in the construct

117 Printing of electronics has been receiving increasing attention from

118 Electronics has made important advances to emulate neuro

119 mples of semiconductive MOFs within flexible electronics have not been reported.

120 anomaterial-enabled flexible and stretchable electronics have seen tremendous progress in recent year

121 We externally validated an electronic health record AF (EHR-AF) score in IBM Explor

122 e current literature on the secondary use of electronic health record data for clinical research conc

123 This study uses electronic health record data to describe primary care s

124 RFI among pregnant women, administrative and electronic health record data were analyzed from retrosp

125 iatric Sepsis Outcomes Sepsis was defined by electronic health record evidence of suspected infection

126 d and unstructured data abstraction from the electronic health record or wearable monitoring technolo

127 interventions, but the wealth of data in the electronic health record poses unique modeling challenge

128 er tool into clinician workflows through the electronic health record.

129 ns; and incorporation of the Bundle into the Electronic Health Record.

130 Electronic health records (EHRs) are now widely adopted

131 Electronic health records (EHRs) were reviewed for indiv

132 Electronic health records data were analyzed before and

133 ational study involved a review of data from electronic health records of patients aged >=18 years wi

134 ibitors, and leveraging real-world data from electronic health records to begin to understand the cli

135 ta sources towards this objective, including electronic health records, intraoperative physiological

136 as well as the availability of extensive VA electronic health records, make it a promising resource

137 ses and medication status based on available electronic health records.

138 20 potentially predictive variables from the electronic health records.

139 stoperative PVR using clinical data from the electronic health records.

140 such innovations due to its advanced use of electronic health-care records and the development of di

141 recording of anthropometric measurements in electronic healthcare records, has rapidly inflated the

142 heart of the functioning of modern advanced electronics; high electron mobility transistors, semicon

143 of D-A(*) radicals, it is required that the electronic hybridization of the CT states with both the

144 annel and is easily integrated with upstream electronic, hydrodynamic, or other focusing units to pro

145 All-printed electronics, incorporating machine learning, offers mult

146 ere are lattice-matched, show no detrimental electronic instability, and display broken type-III gap,

147 However, the structural and electronic interactions between photochromic molecules a

148 The CDs facilitate the electronic interactions between the phthalocyanines.

149 Here we report on direct tuning of electronic interactions in this system by changing the s

150 Here we show an ultra-high bandwidth nano-electronic interface to the interior of living cells wit

151 The performance of the printed electronics is demonstrated by using real-time control o

152 key issue for their application in molecular electronics is in the fine-tuning of their electronic pr

153 change and dramatic modulation in chemical, electronic, magnetic and optical properties, mediated by

154 have shown great promise for next-generation electronic materials as well as potential game-changing

155 applied strength, electromagnetic fields in electronic materials can induce dipole transitions betwe

156 In recent years, organic electronic materials have been shown to be a promising t

157 signing 3D printed micro-architectures using electronic materials with well-understood electronic tra

158 Among emerging electronic materials, single-walled carbon nanotubes (SW

159 a critical tool in the design of functional electronic materials.

160 city, and enable combining dielectric and 2D electronic materials.

161 mplex formation and as a p-dopant in organic electronic materials.

162 We used electronic medical record data and supplemented these wi

163 Electronic medical record information was used to compar

164 f documentation pertaining to hospice in the electronic medical record system of the Department of Ve

165 adiotherapy by using predictors from routine electronic medical record.

166 and interpret data, and integration into the electronic medical records and medical practice.

167 btained and confirmed by review of paper and electronic medical records between 2015 and 2017.

168 The current growth of electronic medical records coupled with machine learning

169 , which uses routinely collectible data from electronic medical records, along with brief clinical as

170 from hospitalized patients, alongside their electronic medical records.

171 of prescribed medication doses assessed via electronic medication adherence monitors) who completed

172 viders using academic detailing coupled with electronic messaging may overcome the limitations of the

173 e vesicles containing vacuoles observed with electronic microscopy, may be a useful histologic marker

174 ates N(r, E) (where E is the energy) reveals electronic modulations with wavevectors Q and 2Q, as ant

175 Group electronic monitoring of HH could be used to develop nov

176 e is crucially important for devices in nano-electronics, nanophotonics and quantum information.

177 re strong indications of actual or incipient electronic nematicity in Sr(2)RuO(4).

178 hat charge-collecting electrodes have on the electronic noise at low frequency.

179 bility of the exhaled VOC analysis, using an electronic nose (eNose), to identify individuals with un

180 Herein, we utilized an electronic nose and computer vision to check the cooking

181 An electronic nose is a bio-inspired instrument capable aft

182 An English BCSP cohort was derived using the electronic notifications received from the BCSP database

183 Waals (vdW) crystals hold great promise for electronic, optoelectronic, and quantum devices, but tec

184 f high-efficiency antennas for biointegrated electronic/optoelectronic systems.

185 n extraordinary challenge due to the lack of electronic or steric bias between the two positions.

186 routes for tailoring the chemical, optical, electronic, or mechanical properties of MXenes.

187 k sinus syndrome, the most common reason for electronic pacemaker implantation.

188 Electronic patient records were reviewed to determine cl

189 nd reversible control of both structural and electronic phase transformations through the electric-fi

190 ferently charged ions and is associated with electronic phenomena such as superconductivity, colossal

191 tion of dislocations, which severely degrade electronic/photonic device performances(6-8), is fundame

192 ther increase their applicability in organic electronics, photonics, and artificial photosynthesis.

193 ured and characterized the properties of non-electronic, physical unclonable, optically complex media

194 ic-ion-based valence band provide an unusual electronic platform with localized states for electrons

195 s have been traditionally supported by micro-electronic platforms, but recently, photonic techniques

196 on the helix handedness and on the extent of electronic polarization induced by the appended substitu

197 Using an automated search of the electronic prescribing records of the remaining 109 clin

198 gn new 3D graphene devices with preserved 2D electronic properties and novel functionalities.

199 ieved through systematic optimization of the electronic properties of aryl fluorosulfates.

200 This retains the electronic properties of Bi(2)O(2)Se while reducing the

201 hnology that's been made taking advantage of electronic properties of biological material for address

202 lent interfacial charge states in tuning the electronic properties of different components to promote

203 mining the stability, local environment, and electronic properties of isolated atoms and thus providi

204 However, the electronic properties of oxide heterointerfaces cruciall

205 Persistent luminescence depends on the electronic properties of the molecular components, mainl

206 nal theory (DFT) calculations to examine the electronic properties of the Sn(1-x)Pb(x)O ternary oxide

207 hat must be achieved in order to control the electronic properties of these next generation organic m

208 lected by the strong alteration of the SubPz electronic properties produced by phenyl and biphenyl mo

209 ical electronic quantum phases, with valence electronic properties that are well captured by the Su-S

210 valuable quantitative information about the electronic properties that underpin the functions of the

211 r electronics is in the fine-tuning of their electronic properties through structural modifications,

212 ce structural compatibility has on intrinsic electronic properties, and indicate that the theory prov

213 oparticle is demonstrated by its optical and electronic properties, with metal-like electron-phonon r

214 scinating due to their unique reactivity and electronic properties.

215 These MXenes show distinctive structural and electronic properties.

216 uch interest due to their largely modifiable electronic properties.

217 e affected at the single atom level than the electronic properties.

218 hat yields enhanced two-dimensionality, high electronic quality, and clean-limit inorganic 2D superco

219 of width-modulated GNRs hosting topological electronic quantum phases, with valence electronic prope

220 tanglement between atomic quantum system and electronic quantum system.

221 ic amino acids to rationalize the underlying electronic reaction mechanisms.

222 vert DNA inputs into a variety of visual and electronic readouts for use in diagnostics.

223 The shift to electronic recording of anthropometric measurements in e

224 An electronic register (EDR Web) and facility-based clinica

225 of a nurse care manager with an interactive electronic registry, opioid education, academic detailin

226 In an ICD process, energy released by electronic relaxation of an excited atom or molecule lea

227 The effect of conical intersections (CIs) on electronic relaxation, transitions from excited states t

228 dinator, psychologist, clinical pharmacist], electronic reminder and support systems (eg, Medication

229 action axis", which is the direction whereby electronic reorganization converts reactants' to product

230 e notable enhancement of the Br perovskite's electronic response to pressure may be attributed to mor

231 The electronic Seebeck response in a conductor involves the

232 s over >9 orders of magnitude, whilst allows electronic simulations over the whole frequency range us

233 Electronic skins are essential for real-time health moni

234 and they have, in general, a huge impact on electronic spectra.

235 Here, using ultrafast two-dimensional electronic spectroscopy (2DES), we reveal the existence

236 ations of the electronic structure uncovered electronic stabilization through the opening of a shell-

237 Remarkably, its electronic state shows distinct Landau quantization on a

238 The electronic state-sensitivity of the technique allows for

239 The identified electronic states explain the formation of the very larg

240 n of a gate-controlled switching between two electronic states in Gd@C(82).

241 ough point defects often induce only shallow electronic states in the perovskite bandgap that do not

242 ic dynamics simulations to study the excited electronic states of model amyloid-like peptides.

243 electron mobility weighted by the density of electronic states).

244 an important role in the materials' unusual electronic states, the nature of these fluctuations and

245 ration and redistribution in controlling the electronic structure and emergent functionality of the h

246 When combined with ab initio electronic structure and molecular dynamics calculations

247 effect of excitonic coupling dynamics on the electronic structure and photophysical properties of the

248 High-level quantum electronic structure calculations are used to provide a

249 c behavior for K(3)Ir(2)O(6) is supported by electronic structure calculations.

250 us on the layered In(2) O(3) system, and its electronic structure can be adjusted efficiently through

251 results suggest that tautomerization-induced electronic structure changes can be exploited in COF pla

252 al theory (DFT) and higher-level methods for electronic structure determination provide valuable quan

253 tical, fully three-dimensional tomography of electronic structure even in microscopically small quant

254 ve been used to help explain the bonding and electronic structure in these unique diiron-N(2) complex

255 vide a short introduction into excited-state electronic structure methods and approaches for nonadiab

256 The fields of Electronic Structure Methods, Non-Adiabatic Molecular Dy

257 We find that the changes in the electronic structure occur in the limited range of the c

258 In addition, the electronic structure of 2 was examined computationally a

259 tantially the electron localization function electronic structure of benzene.

260 Here, we present the detailed electronic structure of CrI[Formula: see text] and VI[Fo

261 Multifold degenerate points in the electronic structure of metals lead to exotic behaviors.

262 ical calculations aided in understanding the electronic structure of the cofactor in all (detectable)

263 within the delithiated LiNiO(2) optimize the electronic structure of the surface NiOOH to form stable

264 t-principles theoretical explorations of the electronic structure uncovered electronic stabilization

265 tween structural motifs in a catalyst, local electronic structure, and catalytic properties.

266 chemistry by considering selected studies of electronic structure, interatomic potentials, and chemic

267 In describing the electronic structure, we focus on the ability (or not) o

268 akens the Fe=O bond and has an impact on the electronic structure.

269 Using grand-canonical electronic-structure calculations, we directly infer the

270 wed, focusing on geometric-structure design, electronic-structure engineering, and applications in el

271 Furthermore, we demonstrate a specific, electronic-structure-based descriptor for the hydrogen-b

272 offered new opportunities to tailor both the electronic structures and the catalytic activities of th

273 l constraints, photoisomerization rates, and electronic structures of photochromic molecules integrat

274 These data have allowed us to map the electronic structures of this metallocenate family, incl

275 functional theory (DFT) calculations of the electronic structures reveal the same trend as the exper

276 ggering a thermodynamic balance of ionic and electronic structures.

277 cesses take advantage of intrinsic steric or electronic substrate bias to influence the site of nucle

278 of the occupied manifold of the delocalized electronic superatom spectrum of the inner core.

279 re search, followed by a two-round iterative electronic survey process to collect expert opinion.

280 In condensed matter physics, a crystalline electronic system is geometrically chiral when it lacks

281 ng a single model, simplifying the design of electronic systems of integrated plant cell sensors.

282 ermanium) have dominated the field of modern electronics, their monolayer 2D analogues have shown gre

283 rectification for fifth-generation wireless electronics, to ultraviolet-visible photodetection.

284 om the synergy of the mid-gap traps assisted electronic transition and local Ge-Ge chain growth as we

285 centrations of stoichiometric VO(2) and that electronic transitions are regulated by the interplay be

286 yet, Electronic Circular Dichroism that uses electronic transitions as a probe has by far been the me

287 Triggered by these ionic phenomena, the electronic transport and magnetic signature of the heter

288 ng electronic materials with well-understood electronic transport within such structures will potenti

289 e applicable to designing higher performance electronics, transportation, and aerospace systems.

290 arger cluster dimer that behaves as a single electronic unit, possessing a smaller reorganization ene

291 he details of structural designs of graphene electronics, use cases of salivary biomarkers, the perfo

292 In U.S. adolescents, use of an electronic vapor product was associated with lifetime as

293 a, and this association was stronger when an electronic vapor product was used together with marijuan

294 tional modes of chlorophyll, suggesting that electronic-vibrational mixing facilitates rapid EET over

295 mploy polarization-dependent two-dimensional electronic-vibrational spectroscopy to study the origin

296 Electronic waste dust was analyzed using GC and quadrupo

297 e introduce a soft, wearable flexible hybrid electronics (WFHE) with integrated flexible sensors and

298 It uses flexible and printed electronics where flexibility and scalability are requir

299 However, the research of making on-skin electronics with passive-cooling capabilities, which can

300 ance, ultra-stable metal oxide semiconductor electronics with simple binary compositions.