ライフサイエンスコーパス: high-performance

1 mising strategies towards low-cost DIBs with high performance.

2 re set, a flexible object representation and high performance.

3 iosensing systems of reduced form factor and high performance.

4 i-automated system can identify nests with a high performance.

5 dress quick detection, low invasiveness, and high performance.

6 ing a search method with high robustness and high performance.

7 (micron-scale) electrochemical sensors with high performance.

8 ng planar electrochemical micro-sensors with high-performance.

9 ch are essential for these athletes to reach high performances.

10 Developing future high performance adhesives is predicated upon achieving

11 haracterisation of the reported sorbents, as high-performance adsorbents, were not only proved to be

12 Object detection networks are high-performance algorithms famously applied to the task

13 n the donor and acceptor polymers to achieve high-performance all-PSCs with optimal active layer film

14 ening, possibly enabling a new generation of high-performance alloys.

15 is the only method evaluated that maintained high performance and competitive running time across all

16 offers a gateway towards the development of high performance and durable non-platinum direct methano

17 ical application of this technology requires high performance and multisite validation, which have no

18 ropriate for applications in superconducting high performance and quantum computing control systems,

19 conditions to create electrodes that enable high performance and stable, long-term operation.

20 inally, some potential approaches to develop high-performance and clinically relevant T(1) contrast a

21 als and structural design that can stabilize high-performance and high-volume-change electrodes for r

22 ditions in the quantum Internet to perform a high-performance and low-complexity routing in the entan

23 embrane fuel cells is limited by the lack of high-performance and low-cost anode hydrogen oxidation r

24 High-performance and low-cost indicators are needed, bas

25 erface that paves the way towards innovative high-performance and multifunctional neuro-probes.

26 ostructure provide an opportunity to achieve high-performance and nonvolatile switchable electronic d

27 single-atom sites on carbon surface for the high-performance and selective electrocatalysts.

28 al nanocrystals promises a new generation of high-performance and solution-processable light-emitting

29 Herein, we report high-performance and stable organic-semiconductors photo

30 ere we report the fabrication of high-yield, high-performance and uniform memristor crossbar arrays f

31 ed on strong alkaline hydrolysis followed by High Performance Anion Exchange Chromatography-Pulsed Am

32 High-performance anion-exchange chromatography-pulse amp

33 Herein, we report high-performance antibiotics (as bioprobes) conjugated g

34 A high-performance aptasensor was composed of interdigitat

35 ty and high solubility are still desired for high-performance aqueous RFBs due to their low crossover

36 een devoted to the design and development of high-performance aqueous ZIBs; however, there are still

37 ets and a nematic phase formed by a rod-like high-performance aramid.

38 wered devices with low power consumption and high performance as active sensors to monitor physiologi

39 substrate, demonstrating its application in high-performance back-gated n-type MoS(2) and p-type WSe

40 te the performance of soot reduction of five high-performance biofuels downselected by the Co-Optima

41 Overall, the high-performance biosensor shown here is an excellent, s

42 ilisation technique is suited to manufacture high performance biosensors.

43 alization, MOFs can be utilized to construct high-performance biosensors for numerous applications ra

44 tue of this effect, the device can work as a high-performance broadband photodetector with extremely

45 ments from nanocellulose, Nature's nanoscale high-performance building block, which will require deta

46 ptors (NFAs) with crystalline domains enable high-performance bulk heterojunction (BHJ) solar cells.

47 Tersect is a lightweight, high-performance command-line utility which interprets a

48 ples, and can be efficiently parallelized on high performance computing clusters.

49 um chemistry methods onto massively parallel high-performance computing (HPC) platforms is reviewed.

50 memory needs we provide detailed guidance on high-performance computing clusters.

51 is deployable on most operating systems and high-performance computing environments and can be used

52 fficient with portability to a wide range of high-performance computing environments.

53 f comprehensive experimental datasets and of high-performance computing resources are driving rapid g

54 ombine multiscale experiment and simulation, high-performance computing, and machine learning to crea

55 While silicon ICs thrive at low-power high-performance computing, creating flexible and large-

56 der Waals integration approach for creating high-performance contacts on monocrystalline halide pero

57 fruits were fractionated by semi-preparative high-performance countercurrent chromatography (HPCCC) t

58 hermoelectric (TE) energy conversion demands high performance crystalline inorganic solids that exhib

59 ily used and easily integrated into existing high-performance data analysis pipelines or as a Python

60 models, a broadly applicable, flexible, and high-performance data format is necessary.

61 ses that the placenta evolves in response to high performance-demanding conditions by shifting matern

62 pelines by integrating ADEPT in MetaHipMer a high-performance denovo metagenome assembler and PASTIS

63 scalating global water scarcity necessitates high-performance desalination membranes, for which funda

64 tegrated system of dissimilar material-based high-performance devices suggests a new pathway towards

65 c physics and promises a scalable pathway to high-performance devices.

66 tant technological advances; from efficient, high-performance displays, to 3D imaging and all-organic

67 he strategy can easily expand the choices of high-performance donor polymers for NF-OSCs.

68 Equipped with two 75 mm long high-performance drift tubes, the dual IMS reaches high

69 , and specify criteria for developing future high-performance, dual-use probes.

70 ng the understanding the bottom-up design of high-performance, durable catalytic systems for various

71 The key challenge for these compact high-performance edge computers is the integration of a

72 des a methodology for the rational design of high-performance EIS muPADs and has the potential to fac

73 For example, high-performance electrocatalysts usually demonstrate un

74 Strategies for the development of high-performance electrochemical sensors and biosensors

75 mising route for the facile manufacturing of high-performance electrodes at large industrial scales.

76 olarization field-controlled electronics and high-performance electromechanical applications.

77 At the interface of high-performance electronics and biomolecular self-assem

78 ent low-kappa dielectric characteristics for high-performance electronics.

79 phenotypes, few of them achieve consistently high performance even when large-scale multi-omic data a

80 work, we evaluate the feasibility to realize high-performance event-driven in-situ supervised learnin

81 prevalence was higher when assessed through high-performance examinations (9.1%; 95% CI, 4.0-14.2; P

82 FSESDs, it remains a major challenge to make high-performance fiber-shaped devices at low cost.

83 s significant implications for manufacturing high-performance fibrous platforms to meet the growing d

84 Using these films, batch fabrication of high-performance field-effect transistor (FET) arrays in

85 thus critical for the quantitative design of high-performance fluorophores and AIEgens.

86 The IL/NiFe(2)O(4)/rGO/CPE displays a high performance for analysis of these dyes in hair sham

87 velopment of an EC-ES electrolyte exhibiting high performance for Li||LiFePO(4) batteries.

88 This new method demonstrated a high performance for the analytes, and their adsorption

89 Deep Sequence achieved high performance for the prediction of exudation within

90 reate a composite biocathode that exhibits a high-performance for oxygen reduction by direct electron

91 Here, a high-performance, fully green TENG (FG-TENG) using cellu

92 ntriguing mechanical properties in designing high-performance functional materials, where cellulose's

93 neural network simulations using consumer or high performance grade graphics processing units (GPUs).

94 traclean graphene as a material platform for high-performance Hall sensors.

95 of porous materials combining stability and high performance has remained a challenge.

96 indings provide a new strategy for designing high performance heterogeneous catalysts.

97 other Hall sensors at 4.2 K, and demonstrate high performance in a few-Tesla magnetic field at which

98 exciton diffusion lengths are a hallmark of high performance in organic-based devices such as photov

99 The experimental realization of such high performance in orthorhombic GeSe, however, is still

100 The convolutional neural network also showed high performance in other species used in research-inclu

101 easingly applied in pathology because of its high performance in tasks like histology segmentation.

102 sequently, we report in this article a novel high-performance in vitro detection method to recognize

103 e in various seafood categories, by means of high-performance ion-exchange chromatography with suppre

104 structures enhances the capability to design high-performance ion-regulating devices and promotes the

105 High performance is achieved with adaptive learning rate

106 f potassium (K) metal anodes could result in high-performance K-ion batteries that offer a sustainabl

107 However, high performance, large-scale EGT arrays, and EGT applic

108 tive RT-PCR-based transcriptomics, and ultra-high-performance LC-MS/MS- and GC/MS-based metabolomics,

109 wk of intervention were measured by an ultra-high-performance LC-tandem MS platform.

110 tector has been developed using low-cost and high-performance LEDs, which can be operated in both sca

111 High-performance light-emitting diodes can be realized w

112 High performance liquid chromatography (HPLC) analysis o

113 melanoma and two neuroblastoma cell lines by high performance liquid chromatography (HPLC).

114 HMOs were measured by high performance liquid chromatography (HPLC).

115 n the plant material can be determined using high performance liquid chromatography (HPLC).

116 e application of this method in a fast ultra-high performance liquid chromatography (UHPLC) analysis

117 In this study, a reverse-phase ultra-high performance liquid chromatography (UHPLC) method wi

118 thapyr (IMT) with determination by HPLC-PAD (High performance liquid chromatography - photodiode-arra

119 n mushroom samples were measured using ultra-high performance liquid chromatography - triple quadrupo

120 of polyethylene-glycol-labeled liposomes and high performance liquid chromatography analysis revealed

121 The compounds were analyzed by high performance liquid chromatography and the antioxida

122 ypes in cow milk were determined using ultra-high performance liquid chromatography coupled to high r

123 uantification of eight organic acids), Ultra High Performance Liquid Chromatography coupled to triple

124 owed by vitamin B(2) quantification by Ultra High Performance Liquid Chromatography coupled with fluo

125 ound assisted solvent extraction followed by high performance liquid chromatography coupled with quad

126 ma samples were analysed using reverse phase high performance liquid chromatography for esketamine.

127 A fast high performance liquid chromatography tandem mass spect

128 These results were validated by high performance liquid chromatography technique.

129 , cobalamin was simultaneously determined by high performance liquid chromatography with ultraviolet

130 vent extraction) with a shorter UHPLC (ultra-high performance liquid chromatography) method was devel

131 eparation and determination were achieved by high performance liquid chromatography-diode-array detec

132 of cobalamin and cobalt in kefir samples by high performance liquid chromatography-inductively coupl

133 ed serum proteomic analysis using nano ultra-high performance liquid chromatography-tandem mass spect

134 High performance liquid chromatography-tandem mass spect

135 extraction (SALLE) method followed by ultra-high performance liquid chromatography-tandem mass spect

136 alpha-galactosides and IPs was determined by high performance liquid chromatography.

137 bjected to maceration and germination, using High Performance Liquid Chromatography.

138 th respect to their extracting ability using high performance liquid chromatography.

139 Preparative high-performance liquid chromatographic (prep-HPLC) syst

140 e introduce a new two-dimensional chip-based high-performance liquid chromatography (2D chip-HPLC) ap

141 romatography-Mass Spectroscopy (SPME-GC-MS), High-Performance Liquid Chromatography (HPLC) (for the q

142 be ca. 0.5 to 6.2 ng/mL (3.9 to 40.5 nM) by high-performance liquid chromatography (HPLC) (this info

143 dual disulfide-bonded isomers by traditional high-performance liquid chromatography (HPLC) and mass s

144 Phytate concentrations were analysed using high-performance liquid chromatography (HPLC) and minera

145 thod was developed using an immobilized IdeS-high-performance liquid chromatography (HPLC) column as

146 lations were undertaken to elucidate NMR and high-performance liquid chromatography (HPLC) data for t

147 Pr(4)Me(4)BU[4], 4b, was resolved by chiral high-performance liquid chromatography (HPLC) into its e

148 These techniques, such as high-performance liquid chromatography (HPLC) or total o

149 his work, fruit juices have been analyzed by high-performance liquid chromatography (HPLC) to measure

150 of the two enzymes using time-resolved NMR, high-performance liquid chromatography (HPLC), and mass

151 ltrasound assisted method and analyzed using high-performance liquid chromatography (HPLC), fourier t

152 rmination of chlorine-containing analytes by high-performance liquid chromatography (HPLC)-ICPMS/MS b

153 est (SickleSCAN) and the gold standard test, high-performance liquid chromatography (HPLC).

154 d-MCE) as alternatives to the typically used high-performance liquid chromatography (HPLC).

155 nd lipids were extracted and fractionated by high-performance liquid chromatography (HPLC).

156 e quantification of OTA was established by a high-performance liquid chromatography (HPLC-FD) with a

157 bination of gel filtration and reverse-phase high-performance liquid chromatography (RP-HPLC).

158 analyzed by immunofluorescence, immunoblots, high-performance liquid chromatography (to measure creat

159 irmed using C30 reversed-phase (C30RP) ultra-high-performance liquid chromatography (UHPLC) coupled t

160 ultrafast dansylation conditions with ultra-high-performance liquid chromatography (UHPLC) method.

161 ference method for carnosine quantification (high-performance liquid chromatography - HPLC).

162 weight of the PSMA ligands were confirmed by high-performance liquid chromatography and liquid chroma

163 PFOA removal kinetics followed using high-performance liquid chromatography and liquid chroma

164 + monomethyl + dimethyl As) was measured by high-performance liquid chromatography coupled to ICP-MS

165 Cell culture media were analyzed with ultra-high-performance liquid chromatography coupled with high

166 Lipids were detected using ultra high-performance liquid chromatography coupled with quad

167 rationale, we established a validated ultra-high-performance liquid chromatography high-resolution m

168 strong correlation to those obtained by the High-performance liquid chromatography method.

169 drodynamic pumping of the mobile phase as in high-performance liquid chromatography nor for generatin

170 High-performance liquid chromatography or gas chromatogr

171 ometry and lipidomic analyses using an ultra-high-performance liquid chromatography quadruple time-of

172 By applying high-performance liquid chromatography tandem-mass spect

173 ounting, the plasma samples were analyzed by high-performance liquid chromatography to detect intact

174 rotenoids and vitamins were determined using high-performance liquid chromatography with a diode arra

175 uring plasma metanephrines (R(2) > 0.99) and high-performance liquid chromatography with an electroch

176 arbofuran, and methomyl before analysis by a high-performance liquid chromatography with diode array

177 High-performance liquid chromatography with diode array

178 sted, and winnowed side and end products) by high-performance liquid chromatography with diode array

179 f IOCs across cultured epithelia using ultra-high-performance liquid chromatography with high-resolut

180 adherence and exposure, were measured using high-performance liquid chromatography with mass spectro

181 rum albumin binding was measured by affinity high-performance liquid chromatography, whereas the lipo

182 An ultra-high-performance liquid chromatography-diode array detec

183 This method enabled quantification by high-performance liquid chromatography-high-resolution m

184 Using high-performance liquid chromatography-mass spectrometry

185 infusion electrospray mass spectrometry and high-performance liquid chromatography-mass spectrometry

186 ange samples based on SS-MSPME coupling with high-performance liquid chromatography-ultraviolet (HPLC

187 c acid, were identified and quantified using high-performance liquid chromatography.

188 s of metabolic stability was performed using high-performance liquid chromatography.

189 ncentration was measured using reverse-phase high-performance liquid chromatography.

190 Vitamins and carotenoids were determined by high-performance liquid chromatography.

191 pment and use of an online three-dimensional high-performance liquid chromatography/mass spectrometry

192 an unconventional and unprecedented use of a high-performance liquid/liquid counter current chromatog

193 sugars and organic acids were quantified by high-performance-liquid-chromatography.

194 In response, we employed high-performance machine learning-based NER tools for co

195 ture, provide guidelines for improving these high-performance magnetic materials.

196 vides a novel approach to design and develop high-performance magnetostrictive materials.

197 a rich range of complex 3D mesostructures in high-performance materials, from inorganic and organic s

198 charges in domains, shedding a new light on high-performance mechanical energy harvesting technology

199 ial nanoconduits inspires the development of high-performance membranes for water separation.

200 rface offers opportunities for new design of high-performance memristor devices.

201 r results indicate that the key to achieving high-performance micro-sensors from nano-graphitic carbo

202 Here, high-performance microbatteries with high active volume

203 sheds new light on future rational design of high-performance MOF-based cathode materials for efficie

204 exchange is of great value for the design of high performance molecular nanomagnets.

205 rd resonance quenching in the development of high-performance molecular beacon-based biosensing syste

206 nisotropic building-blocks for the design of high-performance molecule-based magnetic materials.

207 Here we report high-performance MoS(2) field-effect transistors on pape

208 hould make possible the innovative design of high-performance, multi-functional carbon nanomaterials

209 h to discover antigenic epitopes and develop high performance multiplex serological assays.

210 design guidelines for the next generation of high-performance n-type materials for thermoelectric app

211 olds promise for thin, ultralightweight, and high-performance nanoelectromechanical transducers.

212 rmational candidates for the next-generation high-performance noble-metal-free catalysts.

213 metamaterial reveals enticing ways to design high-performance noise mitigation devices.

214 compounds as new active materials to realize high-performance nonaqueous RFBs with long cycling life

215 he development of redox-active materials for high-performance nonaqueous RFBs.

216 This high-speed and high-performance OCT system centered at 1300 nm suggests

217 The investigation clearly shows the high performance of each bioprobe, which, depending on t

218 The high performance of the FG-TENG is due to the high posit

219 pollination time as well, which demonstrated high performance of the metabolic fingerprinting and rev

220 Additionally, the high performance of the preconcentration system leads to

221 A rainbow trout strain selected for high performance on a plant protein diet was compared to

222 levels and optimizing the molecular packing, high-performance optically switchable organic thin-film

223 ght trapping directly in core/shell PNCs for high-performance optoelectronics.

224 ombining subcellular spatial resolution with high-performance Orbitrap mass spectrometry.

225 onductors (OSCs) is essential for developing high-performance organic electronic devices.

226 hin films, thus opening up opportunities for high-performance organic flexible electronics.

227 s which have recently emerged as emitters in high-performance organic light-emitting diodes.

228 of Fe-N(x) species paves a new avenue toward high-performance ORR electrocatalysts.

229 -solution reaction are critical to realizing high-performance P2-type cathodes for sodium-ion batteri

230 y be found in other ectothermic animals with high performance, particularly those for which thermoreg

231 our strategy can lead to the development of high performance PEDs for the on-site detection of a var

232 Combining these strategies, high-performance perovskite LEDs are demonstrated with m

233 State-of-the-art, high-performance perovskite solar cells (PSCs) contain a

234 ly for emerging PQDs to achieve scalable and high-performance perovskite-based optoelectronic devices

235 an important endeavor toward a wide range of high-performance perovskite-based photodetectors, solar

236 S is suitable for large-scale, UV-sensitive, high-performance photodetector arrays for information en

237 hat satisfies most requirements for an ideal high-performance photoelectrode, including a small band

238 earth-abundant iron-based metal complexes as high-performance photosensitizers demands long-lived ele

239 High-performance piezoelectric materials are critical co

240 ect transparency simultaneously because most high-performance piezoelectrics are ferroelectrics that

241 a thousandfold improvement over conventional high-performance plasmonic devices.

242 However, conventional high-performance polymer dielectrics generally have conj

243 A high-performance potassium anode achieved by confining p

244 The system integrates high-performance preconcentration elements and optical c

245 vailable for VAM, taking another step toward high-performance printed polymers.

246 bides and graphene oxide hybrid membranes as high-performance PRO membranes.

247 nce denovo metagenome assembler and PASTIS a high-performance protein similarity graph construction p

248 onstants of the PTB7-type oligomers with the high-performance PTB7 polymer revealed a delocalization

249 pies performed by colonoscopists with low vs high performance quality (adenoma detection rate <20% vs

250 mental of any global-scale quantum Internet, high-performance quantum networking and near-term quantu

251 metric devices to meet the strong demand for high-performance, rapid, and portable (or point-of-care)

252 pursuit of inexpensive, safe, scalable, and high-performance rechargeable batteries.

253 Here, we describe a high-performance recyclable photocatalytic core-shell na

254 The high-performance sample exhibits a Vickers microhardness

255 ay for practical large-scale applications of high-performance SDRC for human thermal comfort in build

256 ctrostatic (HASEL) actuators, a new class of high-performance, self-sensing artificial muscles that c

257 are desirable for applications ranging from high-performance semiconductor device channels to atomic

258 identify and quantify bacterial species via high-performance sequencing.

259 Semiconducting absorbers in high-performance short-wave infrared (SWIR) photodetecto

260 Organic optoelectronic devices combine high-performance, simple fabrication and distinctive for

261 However, synthesis of high-performance single-crystalline Ni-rich cathode is v

262 vide a new type of organometallic ligand for high-performance single-molecule magnets.

263 Although high-performance single-step biosensors based on the pri

264 es are anticipated to impact next generation high performance solar cells because of their extraordin

265 d by the implementation of three consecutive high performance solid-phase extraction columns consisti

266 egy, guided by machine learning, to create a high-performance, soluble, fluorescent serotonin sensor

267 for the rapid optimization and screening of high-performance SSEs.

268 rochemical transistor (OECT) operation using high-performance, state-of-the-art OECT materials.

269 nable applications and being fabricated into high-performance structural materials that are both stro

270 with tunable bandgaps for the fabrication of high-performance SWIR photodetectors are reported.

271 fibers, it would be possible to compete with high-performance synthetic fibers such as glass fibers a

272 We report a scalable, high-performance system architecture, demonstrated in a

273 High-performance tellurium p-type field-effect transisto

274 Here, a high-performance TENG based on charge shuttling is demon

275 This work demonstrates that high-performance TENGs can be made using natural green m

276 Defect chemistry is critical to designing high performance thermoelectric materials.

277 of-the-art strategies for the realization of high-performance thermoelectric materials and devices by

278 carrier scattering is crucial for developing high-performance thermoelectric materials and indicates

279 stal tin selenide (SnSe), a record holder of high-performance thermoelectric materials, enables high-

280 In high-performance thermoelectric materials, there are two

281 portance of intrinsic defects in engineering high-performance thermoelectrics.

282 ncreased, it has become necessary to produce high-performance thin-film transistors (TFTs) that enabl

283 ulti-analytical clustering approach based on high-performance thin-layer chromatography fingerprints

284 ch was to establish a fast, sensitive HPTLC (high-performance thin-layer chromatography) method that

285 e zone eluting interface (after normal-phase high-performance thin-layer chromatography-multi-imaging

286 or engineering topological superlattices for high-performance TI-spintronic devices.

287 We also find that high-performance tongue projection that exceeds availabl

288 rge density is the key factor for developing high performance triboelectric nanogenerators (TENG).

289 derpin many modern technologies ranging from high-performance turbine blades to solder alloys.

290 ocessed metal oxide films and the promise of high-performance, ultra-stable metal oxide semiconductor

291 Our work will pave the way for high-performance ultraflexible single-crystal organic el

292 approach for the fabrication of new types of high-performance ultraviolet light emitters.

293 at cryogenic temperatures for fabrication of high-performance wafer-scale p-type field-effect transis

294 High performance was partly due to the conspicuous signa

295 ty, which is holding back the development of high-performance wearable/implantable ion sensors.

296 ication (CIE-h degrees = 33-37 degrees ) and high-performance wet-milling (-6 degrees ).

297 They maintained high performance when the color, shape and the length of

298 on of pre-selected features and demonstrates high performances with promising possibilities for the i

299 s can achieve well-controlled morphology and high-performance with a variety of chemical structures a

300 All these properties translate to high-performance X-ray imaging with sensitivity up to 17