ライフサイエンスコーパス: figure of merit

1 rmal conductivity, and consequently improved figure of merit.

2 and comparison of fibers using a statistical figure of merit.

3 ently can enhance the overall thermoelectric figure of merit.

4 photostability, all resulting in a superior figure of merit.

5 irectly in improvement in the thermoelectric figure of merit.

6 hit and re-ranks the hits according to their figure of merit.

7 own to have an unusually high thermoelectric figure of merit.

8 mpeded efforts to improve the thermoelectric figure of merit.

9 uctivity of the hybrid, resulting in a large figure-of-merit.

10 are characterized by a set of indices called figures of merit.

11 were compared and validated by establishing figures of merit.

12 hown to significantly improve the analytical figures of merit.

13 near-infrared spectral range, with excellent figures of merit.

14 rocesses, it is critical to characterize the figures of merit.

15 omatography method with excellent analytical figures of merit.

16 s model was validated estimating appropriate figures of merit.

17 The method showed fit-for-purpose figures of merit.

18 tured thermoelectric materials with enhanced figures-of-merit.

19 a refractive index sensor with an ultra-high figure-of-merit (254), a high signal-to-noise ratio and

20 arious land-use categories, and had a higher figure of merit (48.19%) than models used in other case

21 istic size scale of the folds W = 30 mum and figure of merit A/ W (2) approximately 5000, demonstrate

22 le advances in instrumentation have improved figures of merit, acquiring measurements at high through

23 erive in the calculation of other analytical figures of merit (AFOMs), such as sensitivity, analytica

24 versions of the clustering validation method figure of merit allows for performance comparisons betwe

25 characteristic (JAFROC) method was used, and figures of merit along with sensitivity and specificity

26 The carrier mobility is an important figure of merit and is sensitively influenced by the cry

27 the performance was analyzed in terms of the figure of merit and operating bandwidth.

28 sionless figure of merit, ZT (where Z is the figure of merit and T is absolute temperature), which go

29 efficiency is limited by the relatively low figure-of-merit and low-temperature differential.

30 ransparent conducting oxide with competitive figures of merit and a cubic perovskite structure, facil

31 aterials, their optical spectral properties, figures of merit and application space.

32 e (HPLC-SPR) was assessed for its analytical figures of merit and applied to the quantification of ly

33 The analytical figures of merit and ecological aspects were evaluated a

34 The analytical figures-of-merit and fragmentation characteristics are c

35 Area under the curve (AUC) functioned as figure of merit, and P values were computed with the Dor

36 struction of the instrument, discuss its key figures-of-merit, and demonstrate its performance for th

37 Upon determining figures of merit, aptasensor was miniaturized and integr

38 materials and enhancement in thermoelectric figure of merit are achieved in porous bulk materials.

39 photocatalysts, and photocathodes, and their figures of merit are discussed alongside system stabilit

40 Several figures of merit are evaluated including linearity of re

41 erating conditions are described, analytical figures of merit are presented, and background sources p

42 Non-dimensional figures of merit are proposed to identify electrochemica

43 The estimated figures of merit are reasonably correlated with the anal

44 These figures of merit are similar to those reported for state

45 red spectral region, and the magneto-optical figure of merit as a function of wavelength was determin

46 -magnitude enhancement of the magnetooptical figure of merit at near-infrared wavelengths.

47 parameter, n, can be exploited to achieve a figure of merit at room temperature that rivals all know

48 r than gold below 550 nm; present dielectric figures of merit better than conductive oxides at near-i

49 e is close to the golden range, leading to a figure of merit beyond 1.5.

50 tors composed of these materials demonstrate figures of merit beyond those achievable in plasmonic eq

51 ble experimental advancement in organic SERS figure-of-merits but also a guidance for the molecular d

52 framework is presented to tailor any target figure of merit by recourse to deep elastic strain engin

53 ad localized resonance, boosting the sensing figure-of-merit by up to 36 times.

54 h as diamond, with many appealing functional figures of merit, can offer after overcoming its present

55 ical modes, refractive index sensitivity and figure-of-merit capacities.

56 These figures of merit combined are among the highest reported

57 7, and loamy soil CRM 962-50) and analytical figures of merit comparable to those obtained using regu

58 nic electrochemical transistors (OECTs) with figures of merit comparable to those of state-of-the-art

59 These figures of merit compare favorably to state of the art v

60 was designed to provide improved analytical figures of merit compared to that which could be achieve

61 The figures of merit concerning the selected case study name

62 te waste heat recovery if its thermoelectric figure-of-merit could be brought close to that of the le

63 ly active layer of strontium titanate with a figure of merit (curvature divided by electric field) of

64 time, selectivity, and excellent analytical figures of merit demonstrate the advantages of this envi

65 ental procedure and the excellent analytical figures of merit demonstrate the screening potential of

66 'gold-standard' test set indicate that this figure of merit does indeed delineate true positives fro

67 were selected in order to monitor analytical figures of merit during method optimization.

68 or quantification of analytical and clinical figures of merit (e.g., limit of detection and clinical

69 hen analyzed to determine various analytical figures of merit (e.g., limit of detection in terms of t

70 for calibration and comparison of analytical figures of merit, followed by analysis of blinded patien

71 e-response receiver operating characteristic figure of merit (FOM) and noninferiority limit of -0.10.

72 Using this relation, a figure of merit (FOM) is defined from photoluminescence

73 s with 300x500 nm period provide the highest figure of merit (FOM) of 2.4 and a sensitivity of 310 nm

74 per refractive index unit (RIU) and a record figure of merit (FOM) of 590.

75 ss-limited negative refractive index and the figure of merit (FOM) of the device have been drasticall

76 standards and using an objective function or figure of merit (FOM) to measure simulated performance,

77 The new sensors achieve a figure of merit (FOM) up to 35 RIU(-1) and a competitive

78 e-response receiver operating characteristic figure of merit (FOM) was calculated on a per-malignant

79 A figure of merit (FOM) was computed to normalize the imag

80 ion of LRSPs allows increasing the biosensor figure of merit (FOM), and the employment of MNPs furthe

81 absorption coefficient (beta=4470 cm/GW) and figure of merit (FOM=sigma(1) /sigma(o) , 3565) value co

82 Here, we propose a set of harmonized Figures of Merit (FoM) as quality descriptors applicable

83 Region-of-interest (ROI) figures of merit (FOMs) and side-specific sensitivity an

84 o suffer from relatively low sensitivity and figures of merit (FOMs).

85 s, we experimentally demonstrate record high figures of merits (FOMs as high as 162) for intrinsic de

86 ration of a PSI-BLAST search, calculates the figure of merit for each 'overlapped' hit and re-ranks t

87 Our work provides a general figure of merit for evaporative heat transfer as well as

88 m these two PSI-BLAST iterations to obtain a figure of merit for rank-ordering the hits.

89 Following this, we quantify a figure of merit for the utility of LIAD in cold atom exp

90 orption based plasmonic sensor with a record figure of merit for this class of sensors.

91 chieved after poling, with high pyroelectric figure of merits for sensing and harvesting, along with

92 ethod is introduced to quantify the material figure-of-merit for a general surface.

93 Here we report figure-of-merits for defining the performance of a tribo

94 ble method was achieved showing satisfactory figures of merit for all matrices.

95 Similar figures of merit for detecting bulk refractive index cha

96 In this work, the figures of merit for each technique are combined via an

97 Two key figures of merit for electronic spin qubits, the smalles

98 odel, making it possible to assess important figures of merit for method comparison or optimization.

99 ) = -27 +/- 3 coulombs per square meter) and figures of merit for piezoelectric energy-harvesting sys

100 The detection figures of merit for pyocyanin in the simulant at 37 deg

101 re characterized by electron microscopy, and figures of merit for the approach were determined using

102 false negatives observed for the analytical figures of merit for the constructed biosensors.

103 the current dominant noise sources, and the figures of merit for the device as pertaining to inducti

104 The figures of merit for the new method suggest that it is s

105 controlling the sensed analytical volume and figures of merit for their use.

106 The detection figures of merit for uric acid in the simulant at 37 deg

107 alytical method was validated, and excellent figures of merit have been achieved, such as detection l

108 sition they can, for example, have plasmonic figures of merit higher than conductive oxides and nitri

109 operating characteristic curve (AUC) as the figure of merit in the task of differentiating between m

110 with the area under the ROC curve (AUC) as a figure of merit in the task of distinguishing between ma

111 therefore an increase in the thermoelectric figure of merit in these materials.

112 A key figure of merit in this regard is the ratio of cavity qu

113 easurement accuracy is a critical analytical figure-of-merit in most areas of mass spectrometry appli

114 new way for accessing a high thermoelectric figure-of-merit in topological-insulator-based nanomater

115 ochemical properties but also optimize their figures of merit in a wide variety of applications.

116 echniques), their analytical performance and figures of merit in clinical diagnostics, with the futur

117 ectrometer, was evaluated to explore the key figures of merit in generating peptide and protein ident

118 In all cases, PLS-DA classification figures of merit in terms of sensitivity, specificity, e

119 Figures of merit in this proof-of-principle study includ

120 Analytical figures of merit includes a linearity range of 10-5,000

121 long with more detail on relevant analytical figures of merit including limits of quantitation, preci

122 The analytical figures of merit including linearity and repeatability f

123 We benchmark this instrument's key figures of merit, including resolution, mass accuracy, l

124 oupled ITP and affinity process, and for key figures of merit, including scaled capture length and ma

125 Figures of merit indicate the method is suitable for its

126 o-DC conductivities is alone not an adequate figure of merit, instead the desired impedance matching

127 ignificant enhancement of the thermoelectric figure of merit is achieved.

128 icient reaches this range, the corresponding figure of merit is maximized.

129 A large enhancement of the thermoelectric figure of merit is reported in single-crystalline films

130 Our primary figure of merit is the overpotential necessary to achiev

131 Our primary figure of merit is the overpotential required to achieve

132 The structural figure-of-merit is derived and simulated to compare the

133 dex of -2 in the blue spectral region with a figure-of-merit larger than 8.

134 Further, the analytical figures of merit (localization and amplification of sign

135 ip integration made from high thermoelectric figure-of-merit materials have been unable to produce th

136 able to or better than generators using high figure-of-merit materials.

137 ophene ring proved essential to optimize the figure of merit mubeta, with the best results obtained w

138 0 x 10(-48) esu, while estimated chromophore figures of merit, mubeta(vec)/M(w), approach 1500 x 10(-

139 All these figures of merit must be as large as possible for transi

140 nd analog applications, focusing on the main figures of merit needed to meet industry requirements.

141 The figures of merit obtained, e.g. recovery (72.4-106.5%),

142 bismuth doped lead selenide, which reaches a figure of merit of <1.

143 allows the system to reach a thermoelectric figure of merit of 1.7 at ~800 K.

144 g negative refractive index with a very high figure of merit of 3.5 (that is, low loss).

145 igh conductivity and transparency boosts the figure of merit of a p-type TC: its value jumps from app

146 uctivity (ca. 0.18 Wm(-1) K(-1) ) and a high figure of merit of about 1.5 at 727 K.

147 The high dielectric tunability and high figure of merit of ceramics, especially Sr0.7Pb0.3TiO3 (

148 A commonly used figure of merit of magnetoresistive sensors employed to

149 We herein determine the important figure of merit of radiative efficiency for Methylammoni

150 ld induced by Fano resonance can improve the figure of merit of specific device characteristics, e.g.

151 The lifetime and figure of merit of the hyperbolic polaritons can be regu

152 particular, the pyroelectric coefficient and figure of merit of the interface are over one order of m

153 n and scattering bands, and consequently the figure of merit of the nanoparticle, as a localized SPR

154 rystal composition has already resulted in a figure of merit of up to 0.55 at 450 degrees C.

155 ffect of phonons yields a value for the full figure of merit of ZT = 3.5.

156 cordingly, we achieve a large thermoelectric figure of merit of ZT=0.21 at 300 K for the CuI films, w

157 ny-doped lead selenide with a thermoelectric figure of merit of ~1.5 at 800 K.

158 At 300 K, the in-plane and out-of-plane figure of merits of these Bi2Te3 films were (5.6 +/- 1.2

159 leading to a refractive index sensor with a figure-of-merit of 103.

160 The analytical figures of merit of a low-dispersion (ultrafast) ablatio

161 We also characterize the analytical figures of merit of our method.

162 al CSF samples, we determined the analytical figures of merit of our shotgun proteomic approach regar

163 Standard plasmonic figures of merit of our tunable graphene devices surpass

164 olume of the keratin active layer, while the figures of merit of the biopolymer such as the ionic con

165 The analytical figures of merit of the developed biosensor confirm that

166 Under the optimal conditions, figures of merit of the developed method were obtained i

167 The figures of merit of the low-cost system still enabled a

168 Figures of merit of the method for the detection using a

169 This approach was also used to establish the figures of merit of the method.

170 The figures of merit of the methods were determined, and the

171 e-CdSe nanocomposites possess thermoelectric figures of merit of up to 1.3 at 850 K, which is, to the

172 The analytical figures of merits of the proposed method are at an advan

173 also studied, concerning the improvement in figures of merit on increasing the data order, which is

174 or films with transport properties and other figures of merit on par with their single-crystal counte

175 for thermoelectric (TE) materials with high figure of merit (or ZT), which can directly converts low

176 Due to such functionality and associated figures of merit, our material may substantially reduce

177 ds directly on the average ZT (dimensionless figure of merit) over a certain temperature range, which

178 rnational guidelines through the estimate of figures of merit parameters, thus showing an effective a

179 ardware has resulted in a modest operational figure of merit performance (Range [Formula: see text] B

180 The cumulative figure of merit, product operator(TC), which included th

181 ve-fold increase in the reported operational figure of merit (Range x Bit Rate) for 'THz Torch' wirel

182 We show that figures of merit reaching as high as ~1.2-1.3 at 900 K c

183 generator, which is composed of a structural figure-of-merit related to the structure and a material

184 Two figures of merit, related to: (a) the loss and (b) the d

185 of our knowledge, the highest thermoelectric figure of merit reported for solution-processed SnTe.

186 For a rapidly growing field, critical figures of merit should be formalized both to establish

187 The analytical figures of merit show repeatable results for the recover

188 The methodology was validated and all figures of merit shown to be within the limits establish

189 ed for 19-layer LiC6, which corresponds to a figure of merit sigma(dc)/sigma(opt) = 1,400, significan

190 These figures-of-merit significantly surpass prior results on

191 Figures of merit similar to those obtained with liquid s

192 The figures of merit studied showed that the proposed method

193 ty can be employed to compute other relevant figures of merit such as analytical sensitivity, limit o

194 t methods stated in the literature regarding figures of merit such as limit of detection, linear rang

195 networks, expressions for the estimation of figures of merit such as sensitivity, prediction uncerta

196 performance level in terms of key analytical figures of merit such as: repeatability, sensitivity and

197 , this approach provides improved analytical figures of merits such as: (i) enhanced mass resolution

198 ible perovskite solar cells, considering key figures-of-merit such as high transmittance, high carrie

199 alidation was performed, estimating specific figures of merit, such as false positive and false negat

200 Other important figures of merit, such as limit of detection, limit of q

201 istors is usually assessed by speed and gain figures of merit, such as the maximum oscillation freque

202 rocessable, thin-film compatible, and have a figure of merit suitable for large-area devices.

203 This material has a higher figure of merit than the current state-of-the-art materi

204 As a result, the pillars show a damping figure of merit that is substantially higher than any pr

205 erit related to the structure and a material figure of merit that is the square of the surface charge

206 This discrepancy demands a figure-of-merit that includes a holistic set of driving

207 smartphone detector, and displays analytical figures of merit that are comparable to standard laborat

208 The new LC-based method showed figures of merit that were superior to those of the curr

209 toelectronic applications, but their primary figure of merit, the room-temperature photoluminescence

210 With its good analytical figures of merit, the described method is very promising

211 uld pave the way to a new generation of high figure of merit thermoelectric materials.

212 small AC magnetic field, S0 is not the good figure of merit to optimize.

213 A similar figure of merit to the one used in conventional dengue N

214 We propose measurable figures of merit to characterize cell resistance.

215 200muS/mm are extracted, showing comparable figures of merit to hydrogen-based SGFET.

216 trometry provides a desirable convergence of figures of merit to support high-performance LC-MS/MS an

217 analysis with area under the curve (AUC) as figure of merit, to distinguish cancer foci from normal

218 molecules in each case yielded the following figures of merit: training, 99.2%; internal test sets, 6

219 transport properties provide thermoelectric figures of merit up to 1.7 at 850 K.

220 The two figures of merit used for the optimization are the bulk

221 favors achievement of higher thermoelectric figure of merit value of up to 1.98.

222 The resultant maximum thermoelectric figure of merit value reached 0.132 under these optimal

223 systems have been shown to reach record high figure of merit values via modification of the band stru

224 Our abiotic enamels have viscoelastic figures of merit (VFOM) and weight-adjusted VFOM that ar

225 ise new strategies to enhance thermoelectric figure of merit via dual and multinanostructuring of mis

226 97 ohm/sq and 90.657%, respectively, and the figure of merit was 60.502 x 10(-3)/ohm, which remained

227 A figure of merit was introduced to allow comparison betwe

228 e capacity (microC*) is the materials/system figure of merit; we use this framework to benchmark and

229 Fit-for-purpose figures of merit were achieved with a limit-of-detection

230 Analytical figures of merit were comparable, reaching an identical

231 Excellent analytical figures of merit were obtained for all the studied metab

232 f standards was developed and the analytical figures of merit were systematically evaluated.

233 All figures of merit were within the limits established by r

234 s 0.4 Wm(-1) K(-1) and a high thermoelectric figure of merit, which can be explained by a dislocation

235 cipate that the many beneficial and matching figures of merit will bring forensic chemistry and ambie

236 was performed, showing excellent analytical figures of merit with an overall maximum bias of 5.8%, v

237 n system demonstrated a very good analytical figures of merit with differential pulse anodic strippin

238 calibration method produced good analytical figures of merit with linearity ranging from 1 to 500 mu

239 The prepared polymeric resin displayed good figures of merits with analytical calibration curve rang

240 w thermal conductivity (kappa) and excellent figure of merit (z T).

241 electric (TE) performance with dimensionless figure of merit ZT = 0.4 at 930 K.

242 arch strategies to enhance the dimensionless figure of merit zT above 2 rely on either bulk nanomater

243 Although the thermoelectric figure of merit zT above 300 K has seen significant impr

244 ing the number of the MoS2/WS2 interfaces, a figure of merit ZT as high as 5.5 is achieved at a tempe

245 rge enhancement of the weighted mobility and figure of merit zT by more than 100% near room temperatu

246 gnificant improvements to the thermoelectric figure of merit ZT have emerged in recent years, primari

247 ectric materials, yet further thermoelectric figure of merit ZT improvement is largely limited by the

248 Obtaining thermoelectric materials with high figure of merit ZT is an exacting challenge because it r

249 Here we demonstrate a thermoelectric figure of merit ZT of 2.5 at 923 K by the cumulative int

250 However, the figure of merit zT of most TE materials is still lower t

251 ns, the thermopower S and the thermoelectric figure of merit ZT of single-molecule devices.

252 eir efficiency depends on the thermoelectric figure of merit ZT of their material components, which i

253 ial for thermoelectric cooling and also high figure of merit ZT thermoelectric applications.

254 flexible thermoelectric materials with high figure of merit ZT through printing is an exacting chall

255 phonon scattering, contributing to the peak figure of merit ZT value of ~2.7 at 973 K and high avera

256 cy is determined by the device dimensionless figure of merit ZT(dev), and optimizing this efficiency

257 ce of Seebeck coefficient, and thus a higher figure of merit ZT, as compared with neat conjugated pol

258 on of Sn results in a 50% improvement in the figure of merit ZT.

259 lectron repository' role in maintaining high figure of merit ZT.

260 The TE efficiency is defined by the figure of merit ZT=(S(2) sigma) T/kappa, where S is the

261 lleytronics can influence the thermoelectric figure-of-merit ZT is derived and discussed in detail.

262 and counter-act for the power factor PF and figure-of-merit ZT.

263 efficiencies, related to the thermoelectric figure-of-merit ZT.

264 rhombohedral phases in favor of exceptional figures-of-merit zT.

265 thermal conductivity and high thermoelectric figure of merit ( zT).

266 ion to the improvement in the thermoelectric figure of merit (zT > 2) of high-efficiency Na-doped PbT

267 m.K) and a significantly high thermoelectric figure of merit (ZT = 2.1 at 630 K) in the Sb-doped pseu

268 ute Seebeck coefficient (-218 muV/K), the TE figure of merit (ZT) at 773 K is significantly increased

269 lectric device in terms of the dimensionless figure of merit (ZT) has been widely used to assess the

270 The dimensionless thermoelectric figure of merit (ZT) in bismuth antimony telluride (BiSb

271 -structuring methods have helped improve the figure of merit (ZT) in the state-of-the art bulk thermo

272 d the thermal conductivity, which leads to a figure of merit (ZT) of 0.42 at 323 K.

273 ide (Mg(3)Bi(2))-based materials with a peak figure of merit (ZT) of ~0.9 at 350 kelvin, which is com

274 A figure of merit (ZT) of ~1.2 at ~873 K was achieved in P

275 (SnSe)(0.025)(SnS)(0.025) exhibits a high TE figure of merit (zT) of ~1.9 at 710 K.

276 in six-fold improvement in the dimensionless figure of merit (ZT) relative to as-purchased samples.

277 on to the corresponding pure tellurides, the figure of merit (ZT) values of heterostructured material

278 Peak thermoelectric figure of merit (ZT) values of ~1.6 and ~1.7 were obtain

279 The thermoelectric figure of merit (zT), both parallel and perpendicular to

280 ich is evaluated in terms of a dimensionless figure of merit (zT).

281 rs is limited by the material thermoelectric figure of merit (zT).

282 we have defined an engineering dimensionless figure of merit (ZT)eng and an engineering power factor

283 Moreover, we achieve a figure-of-merit (ZT) of 0.14 +/- 0.01 when chlorine-dopi

284 ved both the peak and average nondimensional figure-of-merit (ZT) significantly.

285 ic NWs and a summary of their thermoelectric figures of merit (ZT).

286 heoretical prediction of high thermoelectric figure of merit, zT > 2.

287 c materials is dictated by the dimensionless figure of merit, ZT (where Z is the figure of merit and

288 we have achieved an improved thermoelectric figure of merit, zT approximately 1, in SnAg0.025In0.025

289 t have an intensive thermoelectric materials figure of merit, zT, above 1.5.

290 The thermoelectric figure of merit, zT, can exceed 1 at high temperatures i

291 Herein, a high figure of merit, ZT, near 0.6 at cryogenic temperatures

292 conductivity contributed to a thermoelectric figure of merit, ZT, of 0.28 at 373 K, which might find

293 mance is enhanced, and a high thermoelectric figure of merit, zT, of approximately 2.2 is achieved.

294 ange (400-500 K) with maximum thermoelectric figure of merit, zT, reaching ~1.3 in p-type (GeTe)(80)(

295 c materials is limited by their hitherto low figure of merit, ZT, which governs the Carnot efficiency

296 aling to produce a thin film that achieves a figure of merit, ZT, which is as high as its traditional

297 re environmentally friendly and exhibit high figure of merit, ZT.

298 Traditionally, high thermoelectric figure-of-merit, ZT, has been the only parameter pursued

299 a-Zn8Sb7 exhibits a promising thermoelectric figure-of-merit, zT, of 0.33 at 400 K, which is comparab

300 ict that values of electronic thermoelectric figure of merit ZTe up to 160 are achievable, provided t