ライフサイエンスコーパス: science and technology

1 en one of the important subjects in material science and technology.

2 ng, media activism, and public perception of science and technology.

3 foundation for over 125 years of hot carrier science and technology.

4 y is a fundamental tool in numerous areas of science and technology.

5 s is a key challenge for quantum information science and technology.

6 dynamics has the potential to revolutionize science and technology.

7 undamental problems and applications in both science and technology.

8 ving organisms is a fundamental challenge in science and technology.

9 as been one of the major research focuses in science and technology.

10 so in magnetism than in any other branch of science and technology.

11 defects are a promising platform for quantum science and technology.

12 ers in 1983 is even more relevant in today's science and technology.

13 Medical Research Council, German Ministry of Science and Technology.

14 flux of photons is crucial in many areas of science and technology.

15 of considerable importance to many areas of science and technology.

16 utstanding challenge in many areas of modern science and technology.

17 They inspire biomimetic approaches in science and technology.

18 al importance in diverse fields of (quantum) science and technology.

19 xenon has been widely studied and applied in science and technology.

20 e-study micronutrients, and new frontiers in science and technology.

21 ks for the "bottom-up" paradigm of nanoscale science and technology.

22 sing device design, and many other fields of science and technology.

23 s and play an increasingly important role in science and technology.

24 oscale dimensions remains a central means of science and technology.

25 but also of great interest for nanomaterials science and technology.

26 al particles are important in many realms of science and technology.

27 ashort-pulsed radiation, with huge impact in science and technology.

28 les; many examples exist in various areas of science and technology.

29 rly 100 years ago, and have underpinned much science and technology.

30 ructures is an important challenge of modern science and technology.

31 standards and discuss some of their uses in science and technology.

32 are of key importance across broad areas of science and technology.

33 ld have profound effects on many branches of science and technology.

34 ial component of many important processes in science and technology.

35 s are being changed by advancements in plant science and technology.

36 tracted great attention in various fields of science and technology.

37 photons is a key enabling system for quantum science and technology.

38 d to play an important role in many areas of science and technology.

39 pens frontiers in lightwave-driven nanoscale science and technology.

40 e is an important challenge for contemporary science and technology.

41 ems is a central goal in quantum information science and technology.

42 group from real-world collaboration data in science and technology.

43 mpass phenomena that underlie much of modern science and technology.

44 hetic oligonucleotide assemblies relevant in science and technology.

45 and patents change networks of citations in science and technology.

46 physical carriers, are essential in quantum science and technology.

47 f human health research and renewable energy science and technology.

48 al Research Council, and Chinese Ministry of Science and Technology.

49 otential applications in nearly all areas of science and technology.

50 ffers a measure of path-breaking surprise in science and technology.

51 rsectional analysis into relevant domains of science and technology.

52 ate fundamental processes crucial to aerosol science and technology.

53 tors (TIs) is breaking new ground in quantum science and technology.

54 reflect a fundamental shift in the nature of science and technology.

55 g-wave infrared (SWIR-LWIR) underpins modern science and technology.

56 plication in quantum computation information science and technology.

57 e most fundamental challenges facing quantum science and technology.

58 s is of great importance in various areas of science and technology.

59 asound sensors have wide applications across science and technology.

60 rties is a central problem in many fields of science and technology.

61 d opens new vistas in the field of ultrafast science and technology.

62 -has been fundamental to human innovation in science and technology.

63 , they are also fundamental in many areas of science and technology.

64 one of the most intensely studied fields of science and technology.

65 been one of the most daunting challenges in science and technology.

66 g approaches might define a new era in laser science and technology.

67 s is an essential component of semiconductor science and technology.

68 fundamentally important in diverse areas of science and technology.

69 position is of interest in various fields of science and technology.

70 play a remarkable role in various fields of science and technology.

71 layed a critical role as the enabler for new science and technology.

72 ate the vast potential of the SBMs in modern science and technology.

73 ) materials is a major focus of advancing 2D science and technology.

74 Finance, Ministry of Health, and Ministry of Science and Technology.

75 n is critical for the development of quantum science and technology.

76 d is of fundamental importance to analytical science and technology.

77 ue to the fundamental challenges it poses in science and technology.

78 has repeatedly had transformative impact on science and technology.

79 films plays a crucial role in many fields of science and technology.

80 e far reaching consequences in many areas of science and technology.

81 ll-established applications in many areas of science and technology.

82 aces regulates numerous processes in nature, science, and technology.

83 ental importance of ion solvation in nature, science, and technology.

84 antum excitations is at the heart of quantum science and technologies.

85 ation area is a fundamental issue in quantum science and technologies.

86 o accelerate discoveries in renewable energy sciences and technologies.

87 y combs have a wide range of applications in science and technology(1).

88 ities is of fundamental importance in modern science and technology(1).

89 have found many applications in fundamental science and technology(1-3).

90 scussions within the European Cooperation in Science and Technology Action on Native Mass Spectrometr

91 en by members of the European Cooperation in Science and Technology Action on Native MS and Related M

92 on Kidney Exchange Programmes Cooperation on Science and Technology Action, developed a questionnaire

93 ess exploited in transversal applications in science and technology and it has been studied for a lon

94 irs and Trade, Wellcome Trust, Department of Science and Technology and National Research Foundation

95 y into the past, are viewed as disruptive to science and technology and succeed further into the futu

96 re especially relevant for food and beverage science and technology and will help develop a more effe

97 rie Charitable Foundation, China Ministry of Science and Technology, and Chinese National Natural Sci

98 osons has played an important role in modern science and technology, and constitutes the working prin

99 ld be science-driven, use the best available science and technology, and must consider the unique nat

100 eedback control mechanisms are ubiquitous in science and technology, and play an essential role in re

101 Development Fund, Portuguese Foundation for Science and Technology, and Rede Nacional de Ressonancia

102 ms are essential to a flourishing ecology of science and technology, and suggest that, to achieve thi

103 largest companies in the world are based on science and technology, and there is a correlation betwe

104 ions in data sciences, life sciences, social sciences and technology, and hence, motivates alternate,

105 The evolution of NM science and technology-and the practice of clinical mole

106 Recent advances in MP science and technology are allowing for the development

107 dical, and pharmaceutical products, and food science and technology are exemplified.

108 thogens wreaking havoc at the same time that science and technology are exploding with new discoverie

109 Transgenic science and technology are fundamental to state-of-the-a

110 Science and technology are not autonomous entities and r

111 in other dermatologic settings as well as in science and technology are presented.

112 their dynamics, while fundamental to modern science and technology, are formidable to simulate and u

113 Our approach characterizes the frontier of science and technology as a complex hypergraph drawn fro

114 amental importance in such diverse fields of science and technology as physics, chemistry, life scien

115 ify, nations are putting greater emphasis on science and technology as strategic assets.

116 Recent advances in science and technology, as well as innovative approaches

117 yield and economic gains sustainably via the Science and Technology Backyard (STB) platform.

118 on Engineering, Inner Mongolia University of Science and Technology, Baotou, Inner Mongolia 014010, P

119 Special Foundation for National Science and Technology Basic Research Program of China a

120 National Science and Technology Basic Research Special Foundation

121 Here we highlight some of the science and technology being developed to improve the di

122 Neurology Key Discipline of Sichuan, Chengdu Science and Technology Bureau, the talent fund of Sichua

123 sue in nanotechnology than in other areas of science and technology but, as Chris Toumey explains, pu

124 l resonators(1-3) are of great importance to science and technology, but their performance is often l

125 rms--is a central foundation of mathematics, science, and technology, but the origins and development

126 (3D) printing has the potential to transform science and technology by creating bespoke, low-cost app

127 role for exploring the microscopic world in science and technology by refracting light with tailored

128 ral government, as well as the ways in which science and technology can be applied to meet the needs

129 Quantum science and technology can offer fundamental enhancement

130 Ministry of Science and Technology China, Beijing Municipal Educatio

131 Ministry of Health, China, and Ministry of Science and Technology, China.

132 ecular Neuroscience, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong K

133 cular Neuroscience, Hong Kong, University of Science and Technology, Clear Water Bay, Kowloon, Hong K

134 Despite stunning advances in basic science and technology, clinical translations in major a

135 of China, National Key R&D Program of China, Science and Technology Commission of Shanghai Municipali

136 Varieties and Platforms of Beijing Municipal Science and Technology Commission, and Zhongguancun Admi

137 Beijing Municipal Science and Technology Commission, Chinese Academy of Me

138 lth Leadership Development Program, Shanghai Science and Technology Committee Fund, China Ministry of

139 Scholars, Key Emergency Project of Shanghai Science and Technology Committee, Program of Shanghai Ac

140 Here, we introduce well-established aerosol science and technology concepts often overlooked or misu

141 cesses during the processing of food in both science and technology contexts.

142 orking Group (WG) 2 of the EU Cooperation in Science and Technology (COST) Action 'Genomics of Muscul

143 The members of the European Cooperation in Science and Technology (COST) Action CA15120 Open Multis

144 n Union (EU)-CARDIOPROTECTION Cooperation in Science and Technology (COST) Action, CA16225.

145 twork of nine European-funded Cooperation in Science and Technology (COST) Actions that can help faci

146 Two Actions of the Cooperation of Science and Technology (COST) programmes - DSDnet (BM130

147 d Brazilian Ministry of Health Department of Science and Technology (DECIT).

148 Technology Committee Fund, China Ministry of Science and Technology Department of International Coope

149 The Brazilian Ministry of Health (Science and Technology Department), the Brazilian Minist

150 Science Foundation of China and the Shanghai Science and Technology Development Fund.

151 "How much science and technology do you see in the mass media?

152 anoscale has created one of the most dynamic science and technology domains at the confluence of phys

153 nted prospect of miniaturizing semiconductor science and technology down to a truly atomic scale.

154 Nanomaterials have revolutionized modern science and technology due to their multiple application

155 endrimers have attracted immense interest in science and technology due to their unique chemical stru

156 s become increasingly important in materials science and technology, due to their optoelectronic prop

157 using the Nanjing University of Information Science and Technology Earth System Model to examine pot

158 is required to respond to an evolving global science and technology ecosystem.

159 ices to have a positive impact on the global science and technology enterprise in a relatively rapid

160 Portugal: Portuguese Foundation for Science and Technology, FEDER - European Regional Develo

161 essing is of critical importance for various science and technology fields.

162 This review highlights developing basic science and technologies for potential application to ac

163 highlighting the potentials of advancing the science and technologies for urban forest management.

164 nd may have a major impact on the advance of science and technology for CO(2)/H(2)S capture and separ

165 s onto planar substrates is a well-developed science and technology for microelectronics.

166 s been endorsed by the White House Office of Science and Technology for more widespread application i

167 tional Assessment of Agricultural Knowledge, Science, and Technology for Development scenario portray

168 ce Foundation of China, Guangdong Provincial Science and Technology Foundation of China, and Guangzho

169 echnology Foundation of China, and Guangzhou Science and Technology Foundation of China.

170 Neuroscience at the Norwegian University of Science and Technology, Foundation for Scientific and In

171 pping has an immense impact in many areas of science and technology, from the antennas of interferome

172 Austrian Science Fund, WWTF (Vienna Science and Technology Fund), and Ministry of Health of

173 Rapid progress in both science and technology has been stimulated by adopting c

174 Therefore, the National Institute of Science and Technology has developed heteroplasmic human

175 Concurrently, quantum science and technology has developed into a cross-discip

176 Throughout human history, science and technology have been the backbone of innovat

177 Modern advances in science and technology have depended on enhancing techno

178 Modern science and technology have greatly benefitted from our

179 he past 75 years, advances in cardiovascular science and technology have significantly reduced morbid

180 Advances in science and technology have transformed the health of th

181 es patients' concerns, and considers whether science and technology help to provide solutions to thes

182 tion [high levels of agricultural knowledge, science, and technology (high-AKST)], particularly in Af

183 these two important areas are impacting the science and technology.High throughput sequencing and mo

184 dy of childhood pneumonia since the Board on Science and Technology in International Development stud

185 y 970 students at the National University of Science and Technology in Oman.

186 ffiliated Hospital of Southern University of Science and Technology in Shenzhen, China from January 1

187 tensive investigations in different areas of science and technology in the past two decades.

188 lasmas of particular importance to materials science and technology include light sources for multipu

189 Numerous fields of science and technology, including healthcare, robotics a

190 ly separated particles can advance molecular science and technology, including remote catalysis of ch

191 anced or enabled applications in light-based science and technology, including ultrahigh-sensitivity

192 r the Central Universities, and the Shenzhen Science and Technology Innovation Commission Basic Resea

193 The incorporation of science and technology into agriculture has led to enorm

194 dening, yet efforts to translate advances in science and technology into meaningful improvements in p

195 overy lays the foundation for a new field of science and technology involving the magnetic Weyl excit

196 The rate of change in both the science and technology is accelerating with no end in si

197 (2) What science and technology is being done and how?

198 uble-edged sword in two-dimensional material science and technology is optically forbidden dark excit

199 ent use of structured light in optical fiber science and technology is severely limited by mode mixin

200 l Research Program, Agency for Innovation by Science and Technology (IWT-TBM).

201 ion, Cancer Research UK, Chinese Ministry of Science and Technology, Kadoorie Charitable Foundation,

202 opment Program of China, Chinese Ministry of Science and Technology, Kadoorie Charitable Foundation,

203 Chinese Ministry of Science and Technology, Kadoorie Charitable Foundation,

204 In the modern world of science and technology, LC materials have exhibited sign

205 Atomic clocks have been instrumental in science and technology, leading to innovations such as g

206 the wisdom of the West of investing in basic science and technology led to its dominance in world pol

207 For countless applications in science and technology, light must be concentrated, and

208 of critical importance in numerous areas of science and technology like space and vacuum technology

209 atural Science Foundation of China, National Science and Technology Major Project of China, Australia

210 National Science and Technology Major Project of China, the Funda

211 The National Science and Technology Major Project of China, the Progr

212 cademic/Technology Research Leader, National Science and Technology Major project of China, the US Na

213 rch and Development Program of China and the Science and Technology Major Project of Tibetan Autonomo

214 National Science and Technology Major Project, Chinese Academy of

215 Noncommunicable Chronic Diseases-National Science and Technology Major Project, National Key R&D P

216 INGNoncommunicable Chronic Diseases-National Science and Technology Major Project, National Natural S

217 National Science and Technology Major Project, National Natural S

218 of Science and Technology of China; National Science and Technology Major Project; National Natural S

219 China National Science and Technology Major Projects on Infectious Dise

220 e Charitable Foundation, Chinese Ministry of Science and Technology, National Natural Science Foundat

221 inical Trials Partnership, China Ministry of Science and Technology, National Natural Science Foundat

222 ges" outlined by Pacala and Socolow (1), the science and technologies needed to effect this vision al

223 top light source for general applications in science and technology, new methods are needed to overco

224 ic (PV) system at the National University of Sciences and Technology (NUST) in Islamabad, Pakistan (l

225 d Technological Development, and Ministry of Science and Technology of Brazil.

226 Ministry of Science and Technology of China, National Natural Scienc

227 Ministry of Science and Technology of China.

228 rch and Development Program, the Ministry of Science and Technology of China; National Science and Te

229 tional Key R&D Program of China, Ministry of Science and Technology of China; the Special Research Fo

230 The detailed science and technology of crystalline oxide film growth

231 Recent advances in the science and technology of global supply chain management

232 ng scheme but also to bridge the gap between science and technology of liquid crystals based sensing

233 omponents is a powerful new direction in the science and technology of nanometre-scale systems.

234 ength opens a path to miniaturization in the science and technology of negative refraction.

235 erve to lower the barrier for developing the science and technology of non-classical thermotropic gly

236 interface qualities, which can transform the science and technology of semiconductor heterostructures

237 surface of electrode play major roles in the science and technology of surface chemistry and biochemi

238 dergone major changes due to advances in the science and technology of surgery, treatment modality, g

239 onal Health Research Institutes, Ministry of Science and Technology of Taiwan, Chang Gung Medical Fou

240 e European Research Council, and Ministry of Science and Technology of the People's Republic of China

241 Ministry of Science and Technology of the People's Republic of China

242 Ministry of Science and Technology of the People's Republic of China

243 Fitness Surveillance Center and Ministry of Science and Technology of the People's Republic of China

244 ibed first, followed by a description of the science and technology of using atomic layer-by-layer de

245 cial sciences, on the one hand, and computer science and technology, on the other.

246 yte (a Novartis company), Australian Nuclear Science and Technology Organization, Movember, The Disti

247 howed potential to significantly expand food science and technology, paving the door for advances in

248 search Fund-Zhejiang Provincial Major Health Science and Technology Plan Project, Zhejiang Province N

249 Hubei Science and Technology Plan, Wuhan University Medical De

250 xecutive Office of the President's Office of Science and Technology Policy, the report highlights the

251 tion of whether and how the character of the science and technology produced by large teams differs f

252 ces Innovation Fund for Medical Science; and Science and Technology Program of Liaoning Province.

253 Natural Science Foundation of China, Sichuan Science and Technology Program, Project of Neurology Key

254 Shenzhen Science and Technology Programs.

255 nd Development Program of China, the Beijing Science and Technology Project.

256 er are of great importance for many areas of science and technology ranging from inertially confined

257 find increasingly important applications in science and technology, ranging from direct probing of k

258 history developments from adjacent fields of science and technology reach a tipping point where toget

259 Subjects covered included the science and technology, regulation and diffusion, traini

260 However, much of our modern science and technology relies on materials with defects

261 Identifying breakthroughs across science and technology requires models that distinguish

262 ew will interest researchers in all areas of science and technology requiring materials in which sepa

263 or Clinical Cancer Research (SAKK), Frontier Science and Technology Research Foundation, Australian a

264 national Cooperation Agency (JICA) under the Science and Technology Research Partnership for Sustaina

265 nal Natural Science Foundation of China, and Science and Technology Research Projects of Henan Provin

266 d properties are at the forefront of quantum science and technology research.

267 Many believe that science and technology (S&T) must play a more central ro

268 arranged in a honeycomb lattice, has set the science and technology sectors alight with interest in t

269 nolayer graphene has generated a new area of science and technology seeking to harness charge carrier

270 harge flows are fundamental to many areas of science and technology, serving as carriers of energy an

271 lative to B. anthracis spore decontamination science and technology since approximately 2002, referen

272 plinary collaboration between scientists and science and technology studies (STS) scholars offers a w

273 er resolution are important in many areas of science and technology such as photonics, electronics, a

274 National "Twelfth Five-Year" Plan for Science and Technology Support, National Health and Fami

275 hina Medical University, and the Ministry of Science and Technology (Taiwan).

276 ng to be a fundamental tool in many areas of science and technology thanks to its unique performance

277 describe the approaches taken to develop the science and technologies that are currently being used,

278 th Authority and the Norwegian University of Science and Technology, the Department of Neuroscience a

279 t disinformation, and the global distrust of science and technology, the statesman scientist is a nec

280 urrently being developed for applications in science and technology; these include probing the dynami

281 ncovalent synthesis for developing molecular science and technologies to address societal needs.

282 One of the most universal trends in science and technology today is the growth of large team

283 vides a paradigm for advancing optical fiber science and technology towards fiber-integrated light sh

284 nmental concerns and legislation are driving science and technology towards non-biocidal solutions ba

285 hnology and our insights into how to advance science and technology towards the development of fully

286 Ministry of Science and Technology (Vietnam).

287 frica's Deputy Minister of Higher Education, Science and Technology was at the Center for High Perfor

288 al Research Council Newton Fund, Ministry of Science and Technology, Wellcome Trust, Academy of Medic

289 Health Ministry, Mexican National Council of Science and Technology, Wellcome Trust, Medical Research

290 solids are promising candidates for quantum science and technology, where bottom-up assembly of a qu

291 a key process in nature and in many areas of science and technology, where pipettes or related device

292 ne of the most widely used systems in modern science and technology, where the emergent electronic pr

293 s and public health to the fields of natural science and technology, where this type of analysis is l

294 ted to lead to further developments in laser science and technology, while opening up new possibiliti

295 Ministry of Health, Tanzania Commission for Science and Technology, WHO-TDR.

296 period smaller teams have tended to disrupt science and technology with new ideas and opportunities,

297 ic building blocks in various disciplines of science and technology, with numerous applications rangi

298 gies, and inspiration to fuel a more diverse science and technology workforce.

299 s key to increase the biomimetics' value for science and technology yet is difficult to achieve with

300 interfaces is fundamentally important across science and technology, yet kinetic measurements of this