ライフサイエンスコーパス: practical application

1 quire extensive investigation to justify its practical application.

2 tic CO(2) reduction is of key importance for practical application.

3 n considered one of the main hurdles towards practical application.

4 PIXE and MeV-SIMS have been exploited for a practical application.

5 led voltage decay has been restricting their practical application.

6 e past years, the field now seems poised for practical application.

7 technology is also discussed, along with its practical application.

8 us solid wastes, and had great potential for practical application.

9 ability is of paramount importance for their practical application.

10 lants has been a major challenge towards its practical application.

11 xhibits most of the properties required in a practical application.

12 important to enhance their functionality for practical application.

13 nd formation of lithium dendrites hinder its practical application.

14 in acidic environment may be problematic for practical application.

15 arrier for perfect graphene are too high for practical application.

16 oss and voltage decay, further hindering its practical application.

17 and low Faradaic efficiency (FE) hinder its practical application.

18 es a voltage of 1.16 V, which is too low for practical application.

19 fuel cell, demonstrating great potential for practical application.

20 strong inhomogeneity which may hamper their practical application.

21 hods often have insufficient selectivity for practical application.

22 pment of customized biocatalysts for diverse practical applications.

23 ignificant advantage over existing MIECs for practical applications.

24 entific discoveries and to develop important practical applications.

25 ich enables quantification possibilities for practical applications.

26 step forward to a significant advancement in practical applications.

27 is critical to enabling EC refrigeration in practical applications.

28 of the results does not satisfy the needs of practical applications.

29 ght in new physical insight but also spurred practical applications.

30 and catalytic properties leading to numerous practical applications.

31 single-atom catalysts is critical for their practical applications.

32 uents, with conductivity levels suitable for practical applications.

33 tile force, hampering their potential use in practical applications.

34 hat the sensing platform can be deployed for practical applications.

35 which has become the main obstacle for their practical applications.

36 y for utilizing the fabricated sensor in the practical applications.

37 arch opportunities with both theoretical and practical applications.

38 ive for their wider adoption in industry and practical applications.

39 ic conductivity and make them attractive for practical applications.

40 he MIT properties in real time is needed for practical applications.

41 eful resource of entanglement accessible for practical applications.

42 eld, which poses limitation for viability in practical applications.

43 identification of communities bears numerous practical applications.

44 y small strain (~30%), which restricts their practical applications.

45 -output triboelectric nanogenerators towards practical applications.

46 oration efficiency, making it attractive for practical applications.

47 hysicochemical phenomena that are useful for practical applications.

48 hesis modification, and their integration to practical applications.

49 eneck to the deployment of NFRHT concepts in practical applications.

50 However, the toxicity of lead limits their practical applications.

51 promising indications for existing drugs in practical applications.

52 sition and properties that are desirable for practical applications.

53 allenging for any kind of investigations and practical applications.

54 ensor is hard to satisfy the requirements of practical applications.

55 wable resources is highly desirable for many practical applications.

56 he RMBF, a major refinement that extends its practical applications.

57 ng these fuel cells from finding large-scale practical applications.

58 ergy bandgap is a substantial limitation for practical applications.

59 nd thus promises quantum-enhanced sensing in practical applications.

60 nstrates a great potential of the sensors in practical applications.

61 une light transport, which holds promise for practical applications.

62 rs are now an emergent tool for a variety of practical applications.

63 strategy establishment, and a roadmap toward practical applications.

64 a-E and Delta-T(EC) /Delta-E are too low for practical applications.

65 nced properties and novel functionalities in practical applications.

66 y at elevated temperatures often limit their practical applications.

67 without dendrites and provides guidance for practical applications.

68 eded to develop the next-generation POPs for practical applications.

69 literature that demonstrate their impact in practical applications.

70 ecules, and hence a highly efficient PEM for practical applications.

71 urities, and process operation conditions on practical applications.

72 lectrodeposition behavior, which prevent its practical applications.

73 Prizes and seeing the implementation of many practical applications.

74 e important for both fundamental studies and practical applications.

75 n, potentially preventing these devices from practical applications.

76 fundamental interest and also have potential practical applications.

77 nditions, however, largely overshadows their practical applications.

78 low mechanical strength is a constraint for practical applications.

79 important for both fundamental research and practical applications.

80 e potassium metal anode has restrained their practical applications.

81 gued that public investments in science have practical applications.

82 eliable, field-portable, low-cost device for practical applications.

83 e to its interesting physical properties and practical applications.

84 f the applied field, which is favourable for practical applications.

85 croscopic materials can greatly extend their practical applications.

86 ath to using the technology for a variety of practical applications.

87 throughput needs to be greatly improved for practical applications.

88 portant feature of this reaction in terms of practical applications.

89 d limited power output severely impede their practical applications.

90 BSCF with CO(2) , however, limits its use in practical applications.

91 ch represents a critical step forward toward practical applications.

92 input signal, which is not available in most practical applications.

93 control of these reactions for a variety of practical applications.

94 mine the optimized fullerene-based leads for practical applications.

95 rmophoretic force is not unlikely to possess practical applications.

96 bio-ontology community to drive a number of practical applications.

97 ited their volumetric energy density towards practical applications.

98 ediate forms of error correction that enable practical applications.

99 vant ECR systems to bring this technology to practical applications.

100 eltaE and DeltaT(EC) /DeltaE are too low for practical applications.

101 ost and low yield remain open challenges for practical applications.

102 so presented, confirming its feasibility for practical applications.

103 are often tedious and unscalable, hampering practical applications.

104 ive to both electric and magnetic fields for practical applications.

105 a broader range of fundamental research and practical applications.

106 n carbon dioxide electrolysis is crucial for practical applications.

107 eve highly functionalized carbon spheres for practical applications.

108 pproach for developing Li||LCO batteries for practical applications.

109 ormal blood glucose levels has blocked their practical applications.

110 evelopment of stable and functional MOFs for practical applications.

111 heir solid state have severely limited their practical applications.

112 testing, indicating the high feasibility in practical applications.

113 specific capacity, validating the potential practical applications.

114 a chemical chaperone and has found numerous practical applications.

115 eld and cost-effective synthesis of GQDs for practical applications.

116 ade-off trend that needs to be optimized for practical applications.

117 efect-chemistry of ceria-based materials for practical applications.

118 urtzite-structured ZnO and GaN, limiting its practical applications.

119 ten underestimated and deemed unsuitable for practical applications.

120 efficient and stable activity for potential practical applications.

121 ntum hardware comes a push towards the first practical applications.

122 generating recyclable catalytic systems for practical applications.

123 indicating the potential for sustainable and practical applications.

124 ate monitoring, suggesting its potential for practical applications.

125 rning models have considerable potential for practical applications.

126 its the study of their exotic properties and practical applications.

127 attenuation with cycling still hinder their practical applications.

128 rochemical carbon separation further towards practical applications.

129 meworks (MOFs) that show great potential for practical applications aimed at addressing global enviro

130 each key step of the methodology informs its practical application and provides fundamental insight i

131 stigation of Acrs is leading to a variety of practical applications and is providing exciting new ins

132 rk to assess the frontiers of host range for practical applications and research on pathogen evolutio

133 ion from research due to the great demand in practical applications and rich commercial value.

134 ed as an attractive platform; however, their practical applications are hindered due to lack of bioco

135 es (FDHs) are attractive biocatalysts, their practical applications are limited because of their low

136 wever, many of their fundamental studies and practical applications are stymied by sample polydispers

137 ategies to make MIP sensors more specific if practical applications are to be pursued.

138 2)O(3), and zeolite, which is vital to their practical applications, are largely unexplored.

139 nowires are obtained, which paves the way to practical application as a next-generation supported cat

140 low redox potential of alkali metals, their practical application as anodes is still limited by the

141 f these materials significantly limits their practical application as soft energy-harvesting/storage

142 The proposed sensor assures practical applications as disease biomarker, manifesting

143 mmonium energetic salts could lead to future practical applications as energetic materials.

144 torious reactivity of lithium prevents their practical applications, as evidenced by the undesired li

145 e straightforward and efficient paradigm for practical applications based on radiation control via ve

146 de will benefit both fundamental studies and practical applications based on WGM resonators.

147 this technology has not been translated into practical applications because of its relatively low per

148 sues require additional investigation before practical applications become possible, among which high

149 ontrol of thermal expansion is important for practical applications but can be difficult to achieve.

150 e not been trained on, which is important in practical applications but is often untested.

151 performance lithium-oxygen batteries towards practical applications by designing cross-stacked and al

152 It provides new functionalities to empower practical applications by using a cross validation frame

153 ity under aerobic and aqueous conditions for practical applications, carbon-based anion receptors hav

154 carry out the prediction thus maximizing its practical application compared to existing predictors th

155 Moreover, for practical applications, demonstrations of information co

156 increasingly significant in research and in practical applications due to their high signal-to-noise

157 te to a more "solution-oriented" agenda with practical applications, emulating similar movements in t

158 rite growth and side reactions prevent their practical applications, especially at high temperatures.

159 covery represents a big step forward towards practical applications, especially in areas in which saf

160 d human plasma, respectively, confirming the practical application for point of care monitoring.

161 of O(2), potentially enabling a plethora of practical applications for bioinspired catalysts under h

162 neral-dye composite material, as well as its practical applications for fast detection.

163 CoO nanomaterials are promising catalysts in practical applications for organic combustion.

164 and highlight representative examples of its practical applications for the discovery of molecular me

165 r knowledge of parasite ecology and provides practical applications for wildlife medicine and managem

166 al decades and no substantial progress for a practical application has been made to date.

167 ric polarization, which is important in many practical applications, has rarely been reported in such

168 were first developed in the 1970s, but their practical applications have been hindered by the safety

169 Practical applications have largely focused on solar ene

170 importance to both fundamental research and practical applications, however understanding and contro

171 trochemical N(2) fixation, which is far from practical application in aqueous solution under ambient

172 The approach reported may have practical application in better understanding, defining,

173 ovide a comprehensive evaluation, aiming for practical application in biosensing platform.

174 SACs, crucial for their mass production and practical application in diverse industrial reactions.

175 ctory results were also demonstrated for its practical application in human serum samples, suggesting

176 tabilities are receiving attention for their practical application in industry.

177 TL has had practical application in many areas since its initial de

178 ical, and interventional therapies and their practical application in progressive/severe pulmonary ar

179 fluid sample matrices, which prevents their practical application in the testing of whole blood samp

180 circle in the complex plane, it has numerous practical applications in a wide variety of disciplines.

181 Fs is a key prerequisite for their potential practical applications in areas including storage, separ

182 ine learning techniques that has substantial practical applications in biotechnological fields.

183 he stabilization of enzyme activity has many practical applications in biotechnology and medicine.

184 D may be important in biology and could have practical applications in biotechnology and nanotechnolo

185 the mechanisms DNA damage and repair and for practical applications in cancer diagnosis and drug scre

186 scale, and on the development of systems for practical applications in chemistry, biology and materia

187 line AORFBs constitute a roadblock for their practical applications in energy storage.

188 in biological systems but has seen very few practical applications in engineering.

189 , such TiO2-S/rGO hybrids are expect to find practical applications in environmental and energy secto

190 ineering of the SOPs may pave the way toward practical applications in functional quantum devices.

191 ss we refer to as "shadow-drive", have broad practical applications in improving health and agricultu

192 eparation performance makes it promising for practical applications in marine environments.

193 internal protein adaptors might find further practical applications in multianalyte sensing devices.

194 l (2D) semiconductors is essential for their practical applications in novel electronics.

195 ing techniques, we also describe examples of practical applications in patients.

196 able tools for gene silencing in plants with practical applications in plant functional genomics and

197 asurements demonstrated have fundamental and practical applications in polymer science, geophysics, m

198 Our techniques in this paper have practical applications in public health, taxonomy and ci

199 on of lithium metal, thus paving the way for practical applications in rechargeable batteries based o

200 itated for both fundamental research and for practical applications in the fields of magnetics, elect

201 itating photon upconversion processes toward practical applications in the fields of photobiology, en

202 Mechanical objects have important practical applications in the fields of quantum informat

203 s makes salamander adhesives interesting for practical applications in the medical sector.

204 This limit of detection is suitable for practical applications in the ppm mixing ratio level ran

205 t flexibility and low cost, and it will open practical applications in voice control, wearable electr

206 icle assembly holds promise for a variety of practical applications, in particular for a new generati

207 These results pave the way to practical applications including polarization manipulati

208 dered as the most promising MOFs for varying practical applications including water adsorption, carbo

209 of water with TiO2 is crucial to many of its practical applications, including photocatalytic water s

210 tion (HER/HOR) in alkaline media limits many practical applications involving hydrogen generation and

211 Practical application is demonstrated by investigating h

212 and whole bacteria immunoassay tests, their practical application is limited by complex protocols, b

213 ics are available, their transformation into practical application is still lagging far behind.

214 Its practical application is, however, hampered by the capac

215 length control of stress waves, their use in practical applications is severely hindered by intrinsic

216 ance and insensitive energetic compounds for practical applications is through adjusting the molecula

217 For practical applications, it is crucial to manipulate thes

218 nopore structures could be and where further practical applications might emerge.

219 However, practical application of a Li-metal anode is impeded by

220 These results not only demonstrate a practical application of a unique, photoactivated enzyme

221 ition, an approach that is essential for the practical application of ARU.

222 ctivity remain significant obstacles for the practical application of C(sp(3) )-H bond functionalizat

223 Targeting the potential practical application of co-pigmentation, we tested eigh

224 of the most important considerations for the practical application of electrode materials in energy-h

225 To demonstrate practical application of HD-CNTf rod arrays, detection o

226 r future roll-to-roll mass manufacturing and practical application of highly efficient PSCs.

227 The practical application of layered black phosphorus (LBP)

228 ic conductivity of sulfur cathodes limit the practical application of Li-S batteries.

229 energy density of lithium metal anodes, the practical application of lithium-metal batteries (LMBs)

230 ane formation and pushes forward the further practical application of Ln-MOF-based luminescent thermo

231 g up of the process: the first, key step for practical application of nanosized rare-earth doped YAG

232 ycle assessment (LCA) case study illustrates practical application of our proposed framework, demonst

233 g(lum) ~ 5 x 10 (-3)), thus demonstrating a practical application of our synthetic method.

234 This study is the first report on the practical application of PCD using a nanomaterial assist

235 However, practical application of porous alloying anodes is chall

236 vestigation of hypothetical molecules to the practical application of real-world energetic materials.

237 The practical application of sulfenium ion transfer has been

238 To assess the versatility and practical application of the paper sensor, we used it to

239 The practical application of the probe was successfully test

240 We validated the practical application of the proposed method to measure

241 A practical application of the UCD-PHIM ligand in the copp

242 ce (TADF) emitters is highly desired for the practical application of these materials.

243 st, the up scaling as a prerequisite for the practical application of these novel bioelectronic monit

244 The practical application of these recommendations was evalu

245 as a warning that ADAs may be a problem for practical application of this approach in humans.

246 The practical application of this prior-apprised unsupervise

247 Practical application of this strategy is challenging be

248 Of prime importance to the practical application of this technique is the absence o

249 Finally, to demonstrate the practical application of this technology, we analyzed a

250 We discuss rationale and practical application of venetoclax in first-line and tr

251 mportantly, this study paves the way for the practical applications of 3D printed graphene electrodes

252 ur subsequent experimental work focused upon practical applications of BOEC: their use for gene thera

253 sion controls will propel the development of practical applications of Cas9.

254 rising different configuration are vital for practical applications of emerging non-volatile resistiv

255 In consideration of the practical applications of high-performance TE materials,

256 to the cathode materials rational design and practical applications of Li-S batteries.

257 l of Na-CO(2) batteries create obstacles for practical applications of Li/Na-CO(2) batteries.

258 The practical applications of lithium metal anodes in high-e

259 Practical applications of metal-organic framework (MOF)

260 d low melting temperature severely restricts practical applications of Mg.

261 ntially might have strong impact on numerous practical applications of micro-structured fibres.

262 A major challenge limiting the practical applications of nanomaterials is that the acti

263 The practical applications of polygenic risk information for

264 Several technical challenges hindering practical applications of SANs are analyzed, and possibl

265 inal condition are two major constraints for practical applications of solid lipid nanoparticles (SLN

266 ty; however, little success has been made on practical applications of solid-state batteries, which i

267 quality is a very important information for practical applications of structure models such as inter

268 These cheap and easy-to-prepare probes offer practical applications of sulfide recognition in environ

269 The practical applications of this discovery evolve through

270 w surface charge density greatly hinders the practical applications of triboelectric nanogenerators (

271 further exploration of exotic properties and practical applications of type-II TWSs, as well as the i

272 resentation times that would be suitable for practical application outside a research setting.

273 ompact absorbers, while it is beneficial for practical applications owing to the minimum use of porou

274 s, represent another attractive solution for practical applications owing to their biocompatibility a

275 microparticles showed the best potential for practical application, particularly, in yogurt preparati

276 e actuators, opens the path for their use in practical applications ranging from photochemistry to op

277 As a demonstration of practical applications, real-time 3D OCT imaging of pH a

278 thickness, challenge their implementation in practical application scenarios.

279 For practical applications, simultaneous large ferroelectric

280 To demonstrate the practical application, spiked samples of water and orang

281 and the gap between fundamental research and practical applications still hinder the commercializatio

282 Therefore, meeting the requirements of practical applications still remains unsolved.

283 system provides a novel platform for various practical application such as structural colour patterni

284 esence of the liquid phase often required in practical applications such as enantioselective crystall

285 ly, the reported uses of hydrophobic MOFs in practical applications such as hydrocarbon storage/separ

286 ious biological systems, but also in various practical applications such as image-guided surgical rem

287 g, they still face barriers that limit their practical application, such as poor interfacial stabilit

288 etection at room temperature is critical for practical applications, such as for tracking the complex

289 To demonstrate this sensor for practical applications, the CSFET sensor array is combin

290 s advanced rapidly in recent years but lacks practical application to risk assessment, particularly f

291 Its practical application to treatment has been hindered by

292 echanisms of host seeking, pathogenicity and practical applications to improve the EPN's efficacy as

293 However, practical applications using triple-helix-forming oligon

294 the transition of scientific achievement to practical application was also addressed, with specific

295 In a practical application, we show that cultures containing

296 Looking towards practical applications, we also present the possibility

297 idate and generalize principles from lac for practical applications, we previously described artifici

298 is promising for large scale production for practical applications where both chromium (VI) cations

299 us making it more amenable to be employed in practical application which may range from smart filtrat

300 molecular species, and provide guidance for practical applications with its presence, for example, i