ライフサイエンスコーパス: electronic

1 sue engineering, soft robotics, and wearable electronics.

2 layered semiconductor of interest for valley electronics.

3 ations of 1-20 nm organic films in molecular electronics.

4 tance for realizing tunable energy efficient electronics.

5 trate, enabling more complex low-dimensional electronics.

6 vices for next-generation wearable, portable electronics.

7 ing a noncovalent method of tuning fullerene electronics.

8 reless and self-powered sensors or low-power electronics.

9 applications ranging from catalysis to novel electronics.

10 Using electronic absorption spectroscopy, electrical transport

11 X-ray absorption spectroscopy (XAS) is an electronic absorption technique for which the initial st

12 Block randomisation (computer-generated, electronic allocation) was used to assign eligible toddl

13 in antimony, a component used in batteries, electronics, ammunitions, plastics, and many other indus

14 demonstrate its real-world applicability in electronic and biological systems.

15 detail correlations between the structural, electronic and catalytic properties of ceria-metal inter

16 100% green and degradable materials in novel electronic and energy harvesting devices.

17 mensional nano-objects exhibiting nontrivial electronic and magnetic behaviours, have been proven to

18 ging techniques and the surgically implanted electronic and magnetic components of the CI.

19 to biosensing platforms exceptional optical, electronic and magnetic properties.

20 oundary modes that resemble similar modes in electronic and mechanical systems.

21 e patterned layers, which helps achieve good electronic and optical properties.

22 mically thin electronics due to their unique electronic and optical properties.

23 ivate the corresponding thiols and alter the electronic and physical properties of modified proteins.

24 nker-free strategy that employs adventitious electronic and steric interactions in easy-to-synthesize

25 s, with a selecting role of balancing varied electronic and structural necessities can be an importan

26 applications by virtue of their exceptional electronic and structural properties.

27 ayer of graphene can drastically alter their electronic and structural properties.

28 oscopy on model Pd/C samples to decouple the electronic and surface chemistry effects on catalytic pe

29 ies for passive heat exchange in stretchable electronics and bioinspired robotics, which we demonstra

30 ncluding plasmonics, metamaterials, flexible electronics and biosensors.

31 ght emission, data communication, high-speed electronics and light harvesting (8-16) require a thorou

32 re we performed a comprehensive study on the electronics and optoelectronics properties of the AlN/Ga

33 foresee novel applications in the fields of electronics and optoelectronics.

34 and calculate their energetics, structural, electronic, and elastic properties for both the bulk and

35 cause of their unusual structural, chemical, electronic, and magnetic properties.

36 Structural defects often dominate the electronic- and thermal-transport properties of thermoel

37 lly active polymers are widely used in (opto)electronic applications, e.g. organic light-emitting dio

38 ately using ion irradiation could enable new electronic applications.

39 upling properties are promising for flexible electronic applications.Two-dimensional van der Waals he

40 Printed electronics are a burgeoning area in electronics develop

41 Flexible and stretchable electronics are becoming increasingly important in many

42 The electronic band structure of phosphorus-rich GaNxPyAs1-x

43 nctional theory calculations of franckeite's electronic band structure to rationalize the experimenta

44 itors the subsequent coherent changes in the electronic band structure.

45 Our electronic band theory sheds new light on known topologi

46 ls the key role of VO4 structural motifs and electronic band-edge character in efficient photoanodes,

47 determine the Fermi surface geometry of the electronic bands surrounding the Gamma = (0, 0) and X =

48 own to arise from three- and two-dimensional electronic bands, each with linear dispersion and the ad

49 In this work, we describe an electronics-based Enzyme-Linked ImmunoSorbent Assay (eEL

50 s allow one to image the explicitly pairwise electronic behavior of bonds and lone pairs.

51 METHOD: Studies were identified using electronic bibliographic searches up to January 2016.

52 adhered to a quartz crystal resonator in an electronic bridge that is driven by a high-stability fre

53 ver operating characteristic curve 0.71) and electronic Cardiac Arrest Risk Triage (median area under

54 al and Modified Early Warning Score, and the electronic Cardiac Arrest Risk Triage score were calcula

55 Here we report the fabrication and electronic characterization of atomically precise GNR he

56 ther validate the Q3 responses, a systematic electronic chart review was conducted.

57 action of the total formaldehyde produced in electronic cigarette that cannot be determined accuratel

58 Electronic cigarettes (e-cigarettes) use has increased g

59 roscientific laboratory environment, however electronic cigarettes obviate many of these issues, and

60 ed from the anode and go through an external electronic circuit to power devices, while ions simultan

61 STL (Standard Tessellation Language) format, electronic circuits and wiring diagrams as well as softw

62 allows us to distinguish between the loss of electronic coherence and hot state cooling processes.

63 tres is a convenient measure of through bond electronic communication.

64 asure with exceptional sensitivity the dot's electronic compressibility, that is, its ability to acco

65 for making ionic intermediates with distinct electronic configurations and consequent prediction of u

66 iscussed in terms of Fermi level pinning and electronic coupling between molecules and contacts.

67 hetic chemical surface treatments to enhance electronic coupling between QDs and allow for efficient

68 rojector-operator diabatization approach for electronic coupling calculation with molecular dynamics

69 t the new contacts dramatically increase the electronic coupling of the oligophenylene backbone to th

70 rstand the structural features and resulting electronic coupling that leads to T-TET dynamics adapted

71 to their electrical conductivity and strong electronic coupling to the metal oxide surface.

72 ons within contact F-Q pairs, which gate the electronic coupling, are suggested to be the limiting dy

73 hen used to explore solvation structures and electronic couplings.

74 llows the flexibility to capture any type of electronic data (to date).

75 electronically by 10 centers via a Research Electronic Data Capture database.

76 from the University Hospital of Montpellier electronic database for the period of 1 year.

77 torical cohort study was performed using the electronic database of Clalit Health Services, the large

78 We searched electronic databases for randomized controlled trials co

79 Several electronic databases from January 2009 to July 2017 and

80 management interventions to usual care Seven electronic databases, including British Nursing Index, M

81 Literature search was made in different electronic databases; the review was systematically made

82 (T N = 132 K to 136 K) by improving in-plane electronic defects and reducing overall a-lattice parame

83 Printed electronics are a burgeoning area in electronics development, but are often stymied by the la

84 were managed with cardiovascular-implantable electronic device removal and reimplantation during the

85 mplify, mix and modulate sound in one simple electronic device would open up a new world in acoustics

86 The use of cardiac implantable electronic devices (CIED) is increasing, and their assoc

87 Cardiac implantable electronic devices (CIEDs) have been among the best-inve

88 the feasibility of using them in futuristic electronic devices and can provide a physical platform f

89 d organs of a plant, we manufactured organic electronic devices and circuits in vivo, leveraging the

90 promise in medical implants, reconfigurable electronic devices and/or temporary functional systems.

91 Implications for the use of CP 3 in electronic devices are discussed based on its density of

92 often earlier in adolescence and the use of electronic devices at night increases, leading to disrup

93 Although the safety of these electronic devices is still not fully known, there is ev

94 me and thus may be more prevalent in organic electronic devices than previously thought.

95 The use and fabrication of electronic devices with MOF-based components has not bee

96 science and nanotechnology for production of electronic devices, energy generators, biosensors, and b

97 ials provides low-cost inks enabling printed electronic devices, for example by inkjet printing.

98 le sensors have been produced on optical and electronic devices, their rigorous operation and equipme

99 dissipationless quantum Hall edge states in electronic devices.

100 ive way to achieve flexibility of functional electronic devices.

101 tions, in particular for a new generation of electronic devices.

102 ides which are important for next generation electronic devices.

103 interest for use in flexible and transparent electronic devices.

104 d for fabrication of flexible and disposable electronics devices.

105 e optical confinement and the orientation of electronic dipoles and fields.

106 Ag(+) is an emerging electronic dopant in III-V and II-VI nanostructures, int

107 Electronic doping of colloidal semiconductor nanostructu

108 cess of the doses needed to damage TMD-based electronics due to defects generated in common dielectri

109 o be potential materials for atomically thin electronics due to their unique electronic and optical p

110 (-) with the anion receptor and the stronger electronic effect between the central metal and anion in

111 ates of phenol formation, and of substituent electronic effects, a mechanistic picture involving rapi

112 g the metal-ligand bond length can shift its electronic energy levels and predictably guide electron-

113 e UV spectra exhibit distinct changes in the electronic environment of aromatic residues in this pept

114 andomisation schedule was generated with the electronic EORTC web-based ORTA system.

115 that the charge transport may be induced by electronic excitation under friction, and the nanoscale

116 y regime above 200 eV, permit the probing of electronic excitation, chemical state, and atomic struct

117 ogeneous at the molecular scale, and massive electronic excitations are produced as a result of the f

118 The unique structural and electronic features of these compounds give rise to inte

119 tes the synergy of direct ink writing and RF electronics for wireless applications.

120 A key target in molecular electronics has been molecules having switchable electri

121 Electronic health record (EHR) systems have transformed

122 The availability of electronic health record (EHR)-based phenotypes allows f

123 primary care settings (repeated mailing, an electronic health record best practice alert [BPA], and

124 The electronic health record data for all study eyes were an

125 sing (HVBP) Program method computed with the electronic health record measure.

126 ssover trial using software tools within the electronic health record to compare saline to balanced c

127 ional rounding script and a well-established electronic health record, clinician laboratory data retr

128 We implemented an electronic health record-based "best practice advisory"

129 f this study were to assess the impact of an electronic health record-based prompt on hepatitis C vir

130 nt of internal SAF workflows within existing electronic health records (EHRs) should be the standard

131 Using longitudinal IOP measurements from electronic health records improves our power to identify

132 Longitudinal electronic health records on 99,785 Genetic Epidemiology

133 model and an a priori model developed using electronic health records) and a least absolute shrinkag

134 s a single-center, retrospective analysis of electronic health records.

135 er-recorded diagnosis of dementia within the electronic health records.

136 non is facilitated by the combination of low electronic heat capacity and large plasmonic field conce

137 rts the natural decay product of the plasmon-electronic heat-directly into a voltage through the ther

138 Electronic Medical Records (EMR) with large electronic imaging databases along with advances in deep

139 handful of studies demonstrating control of electronic impurities in semiconductor nanocrystals.

140 MeO)2Ph]2bpy ligand introduces an additional electronic influence combined with a weak allosteric hyd

141 Organic and printed electronics integration has the potential to revolutioni

142 -electron-deficient ClBDPPV through anion-pi electronic interactions is strongly corroborated by the

143 ons and therefore different interchromophore electronic interactions.

144 The organic electronic ion pump (OEIP) provides flow-free and accura

145 complex nanofluidic systems with integrated electronics is essential to realizing ubiquitous, compac

146 This allows us to study the coupling between electronic, magnetic and orbital degrees of freedom with

147 Waals heterostructures with tunable optical-electronic-magnetic coupling properties are promising fo

148 ding block in the synthesis of novel organic electronic materials.

149 ge transfer efficiency in functional organic electronic materials.

150 ormula: see text] of an electron fluid whose electronic mean free path is short compared with the sca

151 n review of the insulin/glucose chart in the electronic medical record, recommendations for insulin c

152 The advent of Electronic Medical Records (EMR) with large electronic i

153 2006, and May 30, 2012, were identified from electronic medical records (n = 830).

154 viduals from 11 US healthcare systems in the Electronic Medical Records and Genomics (eMERGE) Network

155 r Infirmary Ocular Inflammation Database and electronic medical records from March 1, 2008, to Decemb

156 ction of detailed phenotype information from electronic medical records of cancer patients.

157 ded in Kaiser Permanente Northern California electronic medical records on at least 2 occasions any t

158 l Leuven were identified via a search of the electronic medical records.

159 This shows that purely electronic metal-support interactions can significantly

160 Qualitative transmission electronic microscopy, often cumbersome, remains as the

161 odel describing the variation of mixed ionic-electronic mobilities and defect concentrations is prese

162 Pb and IrTe2, which produces strong lateral electronic modulation of hexagonal symmetry and discreet

163 H-protection/derivatization prerequisite for electronic modulation.

164 The electronic module then acquires and wirelessly transmits

165 nce of novel applications such as catalysis, electronics, nanomaterial synthesis and biosensing.

166 sreactive sensor arrays (also referred to as electronic noses or tongues in the literature), their cu

167 nefit significantly from lightweight organic electronics, now spanning from displays to logics, becau

168 conductivity provides a venue for nonlinear electronics, optical applications, and the development o

169 ng of MoS2 to fabricate suitable devices for electronics, optoelectronics, and energy conversion.

170 egion gain access to international training (electronic or in-person)-is a growing trend.

171 in advanced nuclear systems, as well as for electronic or spintronic applications requiring ion irra

172 Two styrene molecules with different electronic or steric properties were found to react with

173 rizontal line)mO], in order to elucidate the electronic origin of the curious "kinked'" spine geometr

174 n transistors are at the frontiers of modern electronics owing to their discrete voltage regulated op

175 A new electronic parameter for ligand donation, derived from e

176 tandard for classifying ICU admission was an electronic patient location tracking system.

177 understanding the link between photonic and electronic performance of 2D semiconducting layers, and

178 is "high quality", this may not be true for electronic performance.

179 In the homogeneous system, the electronic perturbation provided by the pyrene functiona

180 ic resonance measurements, we investigate an electronic phase that emerges in the FeAs layer below T

181 on metal dichalcogenides are correlated with electronic phases.

182 which holds promise for a new generation of electronic/photonic devices with currently inaccessible

183 electronics moves toward designing nanoscale electronic platforms that allow in vivo determinations.

184 le mixtures with calculations of the dynamic electronic polarizability of the nanoparticles.

185 dating the fundamental mechanisms underlying electronic polarization transfer and provide vital princ

186 Although electronic prescribing increases coordination of care an

187 centage points lower among patients given an electronic prescription (15.2%) than patients given a pa

188 ain slices containing nearly the entire mesh electronics probe showed that the tissue interface was u

189 ations that can promote, suppress and direct electronic processes.

190 ture, characterized by distinct chemical and electronic properties along the edges.

191 lized nanomaterials due to their unique opto-electronic properties and enhanced surface to volume rat

192 The fine-tuning of the electronic properties and redox potentials of the photoc

193 t of an enhanced electric field and distinct electronic properties at the step edges.

194 new clathrate-like structures and remarkable electronic properties including room-temperature superco

195 play between the mechanical response and the electronic properties of CVD-grown structures.

196 Despite this recognition, the electronic properties of domain walls under illumination

197 scopy (PEEM) and mu-ARPES we investigate the electronic properties of MoS2 as a function of the numbe

198 The optical and electronic properties of semiconducting materials are of

199 ptimization of the denticity, and steric and electronic properties of the ancillary ligand (initially

200 anic semiconductor, and, in turn, affect the electronic properties of the material.

201 atter strongly influences the mechanical and electronic properties of this material that are importan

202 e may be electrochemically generated and the electronic properties of this unique high-valent state m

203 the fundamental insights responsible for the electronic properties of three distinct classes of bimet

204 Electronic properties of two-dimensional (2D) MoS2 semic

205 generating stable radicals with fascinating electronic properties useful for a large variety of appl

206 the palladium particles and affecting their electronic properties.

207 ome hydrogen-rich structures with intriguing electronic properties.

208 e stable organized structures with desirable electronic properties.

209 re dynamic materials possessing unique (opto)electronic properties.

210 elated to the controllability of domain wall electronic properties.The electronic states within domai

211 ults introduce a concept for the domain wall electronic property, the walls own internal degrees of f

212 onfirm the orthodox view of rapidly decaying electronic quantum coherence on a timescale of 60 fs.

213 on do not provide evidence of any long-lived electronic quantum coherence, but confirm the orthodox v

214 es for the rational design of long-coherence electronic qubits.

215 An electronic questionnaire was devised and distributed as

216 Electronic records of treatment were linked to the Ontar

217 sensitively follow the ultrafast pipi*/npi* electronic relaxation of hetero-organic molecules.

218 To determine the effect of electronic resources on examination performance characte

219 on infrared spectroscopy experiments on the electronic response in (Sr1-x La x )2IrO4 (x = 0, 0.021,

220 We have investigated the electronic response of single crystals of indium selenid

221 An electronic search was carried out using the Cumulative I

222 ar and parallel brain slices containing mesh electronics showed that the distribution of astrocytes,

223 e electrochemical DNA sensors provide direct electronic signal without the use of expensive signal tr

224 The nanosecond electronic spectra and kinetics of the radical pairs fro

225 a model calculation for the two-dimensional electronic spectra of Cholorobaculum tepidum which corre

226 Nonlinear electronic spectroscopies represent one of the most powe

227 he position of nuclear spins relative to the electronic spin center affects decoherence.

228 lity photonic properties with a ground-state electronic spin, which can be read out optically.

229 Toward this end, embedding electronic-spin-based qubits within the framework of a c

230 ure spin currents: a low-dissipation flow of electronic spins with no net charge displacement.

231 structural evolution of CNCbl in the excited electronic state.

232 o prepare lattice band populations, internal electronic states and quasi-momenta, and to produce spin

233 iffer in how they access the vibrational and electronic states and the frequency of their output sign

234 ) structure, with a linear dispersion of the electronic states at the corners of the Brillouin zone (

235 in-polarized hybridization between 5f and 6d electronic states by means of X-ray magnetic circular di

236 This dramatic switch in favored electronic states can be ascribed to changes in ring aro

237 The model consists of six electronic states characterized by the number of electro

238 New electronic states emerge as a result of multiple copies

239 of these materials, in which the topology of electronic states leads to robust surface states and ele

240 pecific chemical reactions by modulating the electronic states of PLP through distinct active site en

241 electron spectroscopy to probe the first two electronic states of the radical cation, and resolve the

242 d II-VI nanostructures, introducing intragap electronic states optically coupled to the host conducti

243 ariation of control parameters offers exotic electronic states such as anomalous and possibly high-tr

244 of diatomic molecules, which typically have electronic states that are relatively well separated in

245 /dielectric interfaces, leading to localized electronic states that serve as a basis for electrically

246 ity of domain wall electronic properties.The electronic states within domain walls in an interacting

247 r2 IrO4 induces distinct 1D quantum-confined electronic states, as observed from optical spectroscopy

248 tions of these findings and the potential of electronic, stereoelectronic, and torsional effects as t

249 spectra, reveals the different nature of the electronic structural effects of these two key principal

250 -based bonding indices to characterize other electronic, structural, spectroscopic, and reactive prop

251 The electronic structure and charge distribution of this mol

252 Theory is combined to probe the electronic structure and orbitals responsible for the bo

253 Ab initio electronic structure calculations reveal that the VCMA o

254 ic molecular systems.Machine learning allows electronic structure calculations to access larger syste

255 scopy, electrical transport measurements and electronic structure calculations, we demonstrate that t

256 nium is predicted utilizing first-principles electronic structure coupled with a self-consistent phon

257 In this communication, the electronic structure evolution of SrFeOx epitaxial thin

258 ock) chains to better understand fundamental electronic structure in the f-block.

259 unambiguous assignment of the geometric and electronic structure of 1.

260 ions are used to determine the geometric and electronic structure of CuZ degrees , an intermediate fo

261 Here we experimentally demonstrate that the electronic structure of few-layer phosphorene varies sig

262 -ray absorption studies of the geometric and electronic structure of primarily heterogeneous Co, Ni,

263 currently no consensus for the band gap and electronic structure of ST12-Ge (tP12, P43212) due to ex

264 sents an elite strategy for fine turning the electronic structure of the catalytic centers, hence the

265 nd Hubbard model, which represents the local electronic structure of the copper-oxygen plane.

266 sent a significant step toward tailoring the electronic structure of these and other semiconductor pa

267 Their electronic structure ranges from trivial insulators, to

268 ia catalysts and their effect on the surface electronic structure remains unclear.

269 Studies of the electronic structure support open-shell intermediates, a

270 cal withC(C6H4)CH3)DPFN](NTf2)2, revealed an electronic structure with an unexpected partially deloca

271 /Ru catalyst is attributed to changes in the electronic structure, and thus the altered adsorption pr

272 e effect of subtle ligand flexibility on the electronic structure.

273 's perimeter model, to analyze trends in the electronic structures and optical properties of expanded

274 quantum chemistry to determine molecular and electronic structures of unligated (deoxy), CO-inhibited

275 ported by density functional theory computed electronic structures, single crystal structures, and ex

276 lexes and provide further insight into their electronic structures.

277 In this study, electronic surveys were sent to faculty and students at

278 e the fundamental speed limit of the current electronic switches.

279 The observations suggest that electronic symmetry is of greater importance for triplet

280 An electronic system includes a converter part, which allow

281 states within domain walls in an interacting electronic system remain elusive.

282 Distal technologies refer to electronic systems designed to provide a service remotel

283 realization of acoustic devices analogous to electronic systems, like diodes, transistors, and logic

284 for the future development of reconfigurable electronic systems.

285 iointegration of various sensors in wearable electronics systems, and toward advanced bionic skin app

286 In the context of micro-electronics, the real-time manipulation and placement of

287 des that couple and drive the state-to-state electronic transfer branching ratios in a model donor-br

288 In the dyad, the electronic transition dipole moment of the electron dono

289 es of radical ligands can exhibit low-energy electronic transitions in the near-infrared (NIR) spectr

290 bility to tune the emission is attributed to electronic transitions of mixed ligand-to-metal-metal-ch

291 the lanthanide signal and assign underlying electronic transitions.

292 Here, we report optical spectroscopic and electronic transport evidence for the formation of an ex

293 e importance of engineering both thermal and electronic transport simultaneously when designing high-

294 Estimates were derived from national electronic tuberculosis register data, laboratory data,

295 While annealing improves local chemical and electronic uniformity resulting in higher T N in the par

296 We propose bio-inspired electronics which adopt the fractal geometry of the neur

297 Electronics, which functions for a designed time period

298 storage calls for the development of modern electronics with multiple stacking architectures that in

299 crystal thin films and fabricating flexible electronics with these conventionally rigid materials.

300 Only a reduced electronics with very low power consumption is required