ライフサイエンスコーパス: practical application

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

2 fabrication techniques and advances towards practical application.

3 oidance appears particularly appropriate for practical application.

4 into OPVs, bridging laboratory research with practical application.

5 too small for systematic characterization or practical application.

6 er sample) remain a significant challenge to practical application.

7 ility in high loading electrodes limit their practical application.

8 r of Excellence in Rwanda are described as a practical application.

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

10 tanding their stability is crucial for their practical application.

11 important to enhance their functionality for practical application.

12 energy efficiency and kinetics prevent their 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 formances, thus providing a preview of their practical application.

17 nced properties and novel functionalities in practical applications.

18 ty of this haptic memory material for use in practical applications.

19 is aspect in particular limits the potential practical applications.

20 the fabricated sensor makes it suitable for practical applications.

21 l and thus is a cost-effective candidate for practical applications.

22 portance for fundamental research as well as practical applications.

23 ure performance, which severely hinder their practical applications.

24 ical testing, suggesting great potential for practical applications.

25 literature that demonstrate their impact in practical applications.

26 monolayer WSe2 which is critical for future practical applications.

27 ycling stability, which strongly limit their practical applications.

28 an obstacle to developing such detectors for practical applications.

29 ints of view are also discussed for enabling practical applications.

30 ssity for their successful implementation in practical applications.

31 tegration are also discussed for enabling of practical applications.

32 aterial (TIM), results were discouraging for practical applications.

33 ty, however, presents a major barrier to the practical applications.

34 mains a challenge that must be addressed for practical applications.

35 lenging despite the paramount importance for practical applications.

36 Further work will define its usefulness and practical applications.

37 ld and quality of laser-driven ion beams for practical applications.

38 onal degree of freedom for modern optics and practical applications.

39 elative volume change have prevented it from practical applications.

40 ixed silicates represent an advancement with practical applications.

41 catalytic properties fulfilling the needs of practical applications.

42 lization, which is an interesting aspect for practical applications.

43 s, respectively, showing great potential for practical applications.

44 trolled oscillator suitable for a variety of practical applications.

45 emonstrating high capabilities of CNF/PB for practical applications.

46 few seconds making the system appealing for practical applications.

47 agnetoresistance effect which are crucial in practical applications.

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

49 and this could be a serious disadvantage in practical applications.

50 ng many challenges that hampers its possible practical applications.

51 -fields designed by aperture engineering for practical applications.

52 trength, and high cost have restricted their practical applications.

53 unique characteristic properties for various practical applications.

54 urities, and process operation conditions on practical applications.

55 c oxide clusters an enticing alternative for practical applications.

56 to the introduction of these catalysts into practical applications.

57 t the MNW/PANI SSCs have great potential for practical applications.

58 ures of these protocols are advantageous for practical applications.

59 at needs to be overcome before they can find practical applications.

60 imited stability often restrict their use in practical applications.

61 crostructures is of fundamental interest and practical applications.

62 d their relative merits are still unclear in practical applications.

63 lectrodeposition behavior, which prevent its practical applications.

64 importance for both fundamental studies and practical applications.

65 f previous NV imaging technologies, enabling practical applications.

66 n prepared for the property modification and practical applications.

67 ng and poor cycling stability restrict their practical applications.

68 t high current rates, which hinder them from practical applications.

69 nd densities, and is therefore promising for practical applications.

70 lutions is a longstanding obstacle for their practical applications.

71 es which prevent most current softwares from practical applications.

72 sional (2D) semiconductors with wide-ranging practical applications.

73 lds considerable promise for a wide range of practical applications.

74 stability in air is of paramount concern for practical applications.

75 eatly limit their large-scale production and practical applications.

76 ontrolling magnetic states of nanodevices in practical applications.

77 rge screening of OP and non-OP pesticides in practical applications.

78 Prizes and seeing the implementation of many practical applications.

79 mercial CE instrument making it suitable for practical applications.

80 lso long-term stability is crucial for their practical applications.

81 rs due to the sustainability requirement for practical applications.

82 e important for both fundamental studies and practical applications.

83 motors hold considerable promise for diverse practical applications.

84 d to other material systems for a variety of practical applications.

85 r the single unresolved impediment for their practical applications.

86 driven switching and this is an obstacle for practical applications.

87 mAhg(-1) versus 140 mAhg(-1) for LiCoO2) for practical applications.

88 n, potentially preventing these devices from practical applications.

89 ingle electronic spin in diamond and discuss practical applications.

90 fundamental interest and also have potential practical applications.

91 nditions, however, largely overshadows their practical applications.

92 low mechanical strength is a constraint for practical applications.

93 important for both fundamental research and practical applications.

94 gued that public investments in science have practical applications.

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

96 e to its interesting physical properties and practical applications.

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

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

99 y at elevated temperatures often limit their practical applications.

100 throughput needs to be greatly improved for practical applications.

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

102 d limited power output severely impede their practical applications.

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

104 ch represents a critical step forward toward practical applications.

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

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

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

108 rmophoretic force is not unlikely to possess practical applications.

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

110 As such, the work has practical application and follows the line of study comb

111 Such a bright pair source has many practical applications and could be basis for future com

112 2010, with the aim of highlighting both the practical applications and elegance of enantioselective

113 ural enzymes, providing systems suitable for practical applications and greater insight into the role

114 We describe the practical applications and implications for each approac

115 h the standards for developing TENGs towards practical applications and industrialization.

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

117 The evolved polymerases should find practical applications and the developed evolution syste

118 ined superselective targeting properties for practical applications, and provides mechanistic insight

119 c data for the mechanistic understanding and practical applications are outlined.

120 capacity of lithium-sulfur batteries, their practical applications are severely hindered by a fast c

121 , the assay provides great potential for its practical application as a home testing or on-site analy

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

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

124 esent platforms for fundamental research and practical applications as they provide tunability of str

125 ive bacteria and the vision of two important practical applications, as wastewater treatment coupled

126 adverse effects of citalopram may limit its practical application at the dosage of 30 mg per day.

127 gher than theoretically predicted, promising practical applications based on bulk materials.

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

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

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

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

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

133 ation techniques makes it great potential in practical applications, especially in microarray areas w

134 or more terminals, which are more common in practical applications, existing conformal mapping metho

135 ysis suggested that nanobiosensor could have practical application for methylation detection in human

136 of these machine learning methods and their practical application for the analysis of genetic and ge

137 me chiral compounds, and may also be used in practical applications for chemical separations and cata

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

139 r development of this electrolyte may enable practical applications for lithium metal anode in rechar

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

141 new molecular insights into HAstV that have practical applications for the development of vaccines a

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

143 ation has led to fundamental discoveries and practical applications, further efforts are needed to in

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

145 ounds and small molecules important for many practical applications has been accomplished.

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

147 However, their practical applications have been hindered by an unusuall

148 reduction reaction (ORR) in fuel cells, but practical applications have been limited by catalytic ac

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

150 ality graphene sheets is essential for their practical application in electronics, optoelectronics, c

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

152 ne including human cells and thus may enable practical application in nanomedicine.

153 tely 2.3%) of monolayer graphene hinders its practical application in photodetectors with high respon

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

155 efficiency during cycling have prevented its practical application in rechargeable batteries.

156 onary process in simple communities and have practical application in the control of bacterial pathog

157 ctory prediction performances enabling their practical application in the dairy.

158 Finally, we show a practical application in which a Li-ion battery is exami

159 -organized helical superstructures that find practical application in, for example, thermography, ref

160 olerance of infection in animals and suggest practical applications in animal and human disease manag

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

162 ts (aptamers) and catalysts (xenozymes) with practical applications in disease diagnosis and treatmen

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

164 This approach could find potential and practical applications in many areas, such as optical me

165 siderably advanced in recent years and found practical applications in many different research fields

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

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

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

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

170 This function has several practical applications in population genetics and comput

171 ications describing NLP methods that support practical applications in radiology.

172 metamaterials and provide a basis for their practical applications in science and engineering.

173 ntal interest as well as being important for practical applications in spintronics, magnetism, cataly

174 e polar magnets are of interest due to their practical applications in spintronics.

175 processes described in our models also have practical applications in that they emphasize how politi

176 rinting and additive manufacturing, has many practical applications in the fields of chemistry and ph

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

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

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

180 to the point of becoming actually useful for practical applications in the near future.

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

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

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

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

185 trates has been intensively investigated for practical applications including surgical and medical to

186 ithout complex optics system, giving rise to practical applications including truly nanoscale lithogr

187 ne-intercalating molecules based on COEs for practical applications, including energy generation, env

188 ity and deposition rate is critical for many practical applications, including large-area electronics

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

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

191 Practical application is demonstrated by investigating h

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

193 l may be highly advantageous, at present its practical application is limited by issues related to de

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

195 Further, the utility of the assay for practical applications is exemplified by analyzing a riv

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

197 r example, to 10-100 nm, which features many practical applications, is highly important but remains

198 However, for practical applications, it is critical to control the lo

199 For practical applications, it is desirable to create in sit

200 For practical applications, it is highly desirable to be abl

201 es from proof-of-principle demonstrations to practical applications, it is important to develop singl

202 though it is thermally not stable enough for practical applications, its predicted specific impulse a

203 lity control of grape-derived spirits, whose practical application may improve the efficiency and qui

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

205 Critical for practical applications, NU-1103 combines for the first t

206 Nevertheless, the practical application of a majority of the fabricated ch

207 Practical application of AOPs in chemical-specific risk

208 This paves the way for practical application of artificial membranes or droplet

209 The large-scale practical application of battery electric vehicles may n

210 colloidal gels and opens up new avenues for practical application of colloidal gels.

211 sion support tools are needed to further the practical application of ecosystem services principles i

212 Practical application of FIQT to Psychiatric Genetic Con

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

214 uch, it represents an important step towards practical application of interpretable logic models.

215 metal anodes are discussed to facilitate the practical application of Li-metal batteries.

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

217 ues associated with lithium metal anodes.The practical application of lithium metal anodes suffers fr

218 The practical application of membrane distillation (MD) for

219 xpected to open a new corridor to expand the practical application of MOFs for the treatment diverse

220 e constraints of prenatal testing, hampering practical application of NIPD in the clinic.

221 ion of the membrane potential and facilitate practical application of optical heat shock stimuli.

222 Finally we consider the practical application of SHP for disease diagnosis and c

223 ructure resolution efforts and exemplify the practical application of structural information for the

224 tegration in living environments, making the practical application of such systems economically viabl

225 e major challenge to be addressed before any practical application of the demonstrated high efficienc

226 CO methanation is a decisive aspect for the practical application of the methanation reaction for th

227 The practical application of the probe was successfully test

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

229 However, practical application of these devices has been limited

230 Overcoming these challenges to allow the practical application of these drugs is a priority that

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

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

233 The practical application of these recommendations was evalu

234 However, several challenges impede the practical application of this architecture, including th

235 For practical application of this method to a broader range

236 Finally, to further explore the practical application of this nanomaterial-based artific

237 The practical application of this rapid and effective method

238 Practical application of this strategy is challenging be

239 A limit to the practical application of this structure-function model i

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

241 To demonstrate the practical application of this technique, we detected miR

242 suggest a new type of material suitable for practical applications of 2D TI at room-temperature.

243 To ensure the practical applications of 5, rather than preparing the s

244 in developing the fundamental principles and practical applications of a new copper-free click reacti

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

246 ent sorptive materials is still on since the practical applications of conventional porous materials

247 e, thus potentially removing the barrier for practical applications of DNA nanostructures.

248 cently developed toxin screening methods and practical applications of engineered toxins.

249 specific disease-related RNAs and proteins, practical applications of EVs include potential uses as

250 zyme (malate dehydrogenase), and demonstrate practical applications of genetic code expansion in prot

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

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

253 Practical applications of metal-organic framework (MOF)

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

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

256 at low operating voltages are essential for practical applications of organic field-effect transisto

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

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

259 e heavy bottom and charm quarks preclude any practical applications of such reactions.

260 rmation is further fabricated to demonstrate practical applications of the crumpled-graphene-paper el

261 pproximately 5 mg cm(-2), which is ideal for practical applications of the lithium-sulfur batteries.

262 ted by spin orbit torque oscillators hinders practical applications of these magnetic nanodevices.

263 MSI technical limitations have hindered the practical applications of this technology.

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

265 iew, we summarize the algorithms behind, and practical applications of, SPT.

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

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

268 rank nodes and links of a network, which has practical applications, particularly to prioritize resou

269 Advances in metasurfaces have led to various practical applications ranging from lensing to holograph

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

271 Nicotine has practical applications relating to smoking cessation dev

272 ty of pathologies including skin wounds, but practical applications remain elusive.

273 Although their practical application requires much further development

274 provides a significant further step towards practical application scenarios such as transparent devi

275 For practical applications, simultaneous large ferroelectric

276 fer several features that are beneficial for practical application such as stability, ease of catalys

277 e nature of ordered materials, as well as to practical applications such as display technologies.

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

279 ization of DNA is of key importance for many practical applications such as gene detection and DNA-me

280 and for increasing signal-to-noise ratio in practical applications such as gyroscopes.

281 lution and protein attribute prediction) and practical application (such as timely modeling the 3D st

282 mental differences enables several different practical applications, such as combinatorial biosynthes

283 d subsequent thrombus formation, however its practical application suffered from the formation of clu

284 This practical application supports the immune system being o

285 As a practical application, terpene-derived primary alcohols

286 ies for biological networks is paramount for practical applications that involve reprogramming a cell

287 (DIET) has biogeochemical significance, and practical applications that rely on DIET or DIET-based a

288 In view of practical applications, the influence of some key parame

289 Moreover, for practical applications, this bio-inspired motion must be

290 he gap between genetic discoveries and their practical application to cardiovascular clinical care.

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

292 It's one of the key points for any of the practical applications to maintaining stable conjugation

293 To explore a practical application, we used the model to simulate nut

294 Looking towards practical applications, we also present the possibility

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

296 odeling and analyzing biochemical systems in practical applications, where several multisite proteins

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

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

299 cale particles in flow offers robustness for practical applications with live cells and allows us to

300 tional brain imaging is increasingly finding practical applications with real-world consequences, it