ライフサイエンスコーパス: renewable

1 y that can help spur large-scale adoption of renewables.

2 both stabilize and extend the utilization of renewables.

3 We present a process for renewable ACN production using 3-hydroxypropionic acid (

4 splay enzyme biocatalyst as an effective and renewable alternative for treating recalcitrant organic

5 ving resurgence in its utilization both as a renewable alternative to fossil fuels and as a sustainab

6 ls and lubricants, for which no other viable renewable alternatives exist.

7 conomic and environmental competitiveness of renewable alternatives relative to conventional generati

8 uch as starch, cellulose, and chitin provide renewable alternatives to fossil fuels as a source for f

9 oduction of drop-in hydrocarbon fuels from a renewable and abundant natural resource.

10 s with controlled piezoelectricity provide a renewable and biocompatible energy source for biomedical

11 Thus, electronic systems consisting of renewable and biodegradable materials and minimal amount

12 used in food- and nonfood applications as a renewable and degradable source of carbon and energy.

13 ew type of alternative energy that is clean, renewable and inexpensive is urgently needed.

14 he Amazon has been based on intensive use of renewable and nonrenewable natural resources, which has

15 ting one of the most promising solutions for renewable and portable solar energy generation and other

16 tailored for specific industrial uses offer renewable and potentially sustainable sources of petroch

17 g interest owing to its potential to provide renewable and storable energy in the form of a 'solar fu

18 Research toward renewable and sustainable energy has identified specific

19 ocatalysts presents a promising platform for renewable and sustainable energy.

20 microorganism-containing liquid derived from renewable and sustainable wastewater which is readily ac

21 Systems with a realistic combination of renewables and storage will result in net emissions redu

22 as well as for developing highly efficient, renewable, and affordable catalysts for large-scale prod

23 Apart from being sustainable, renewable, and biodegradable, wood and its derivative ma

24 als leveraging self-assembly of inexpensive, renewable, and environmentally benign starting materials

25 Renewables-based biotechnology depends on enzymes to deg

26 ss (defined as organic matter available on a renewable basis) has been acknowledged as the most logic

27 cement of petroleum-based raw materials with renewable biobased feedstocks, thereby reducing greenhou

28 Microalgae represent a promising source of renewable biomass for the production of biofuels and val

29 Sustainable biofuel production from renewable biomass will require the efficient and complet

30 ty perspective, to produce them instead from renewable biopolymers.

31 nd a promising resource for the synthesis of renewable bioproducts from atmospheric CO2 Growth and me

32 gradation is central to the carbon cycle and renewable biotechnologies.

33 self-powered sensor networks and large-scale renewable blue energy.

34 The optimal renewable build plan is sensitive to the capacity credit

35 opower together constitute nearly 80% of the renewable capacity in Australia and their resources are

36 convert mixed organic waste and ethanol into renewable caproic acids.

37 or surface while simultaneously acting as a "renewable" capture reagent for anti-HCV core antibody.

38 es for preparing small molecules from simple renewable carbon sources by telescoping multiple reactio

39 significant attention recently as source of renewable carbon-based fuels.

40 or which no efficient, highly selective, and renewable catalysts exist.

41 fferent ways than other rapidly dividing and renewable cell populations.

42 n 10 years ago, have been studied, including renewable cell sources, biomaterials with tunable proper

43 f human hematopoietic stem cells (HSCs) from renewable cell types has been a long sought-after but el

44 d storage, and the sustainable generation of renewable chemical feedstocks [1].

45 caloric intake, and is a major driver in the renewable chemical industry.

46 m bicolor), a strategic plant for generating renewable chemicals and fuels, indicates their similarit

47 es the aromatics production much simpler and renewable, circumventing the use of ethylene at high pre

48 Algae biodiesel (BioD) and renewable diesel (RD) have been recognized as potential

49 Procedure (FTP) cycle on seven biodiesel and renewable diesel fuel blends.

50 The use of biodiesel and renewable diesel fuels in compression ignition engines a

51 Instead, solar energy represents a renewable, economic and green alternative in the future

52 sured by Hofstede's cultural dimensions) and renewable electricity adoption at the national level.

53 e significant exponential relationships with renewable electricity adoption.

54 SGE) technologies produce carbon-neutral and renewable electricity from salinity differences between

55 eduction of CO2 to fuels and chemicals using renewable electricity has attracted significant attentio

56 ction of CO2 to formate (HCO2(-)) powered by renewable electricity is a possible carbon-negative alte

57 Renewable electricity is an important tool in the fight

58 Projects or organizations implementing renewable electricity policy, designs, or construction s

59 grids are particularly likely to be open to renewable electricity technologies.

60 her than CO2 This approach can be powered by renewable electricity, enabling the sustainable and sele

61 CO2) is a key aspect of fuel synthesis from renewable electricity.

62 he most fundamental reactions in distributed renewable electrochemical energy conversion and storage

63 These renewable electrodes are the closest analogue to the mer

64 Thus, the areas with higher renewable emergy can be easily visualized and identified

65 is a simple and attractive approach to store renewable energies in the form of chemical fuels.

66 ated the Multicriteria Analysis for Planning Renewable Energy (MapRE) framework to map and characteri

67 Algae-derived biocrude oil is a possible renewable energy alternative to fossil fuel based crude

68 Microbial electrosynthesis is a renewable energy and chemical production platform that r

69 Our key finding is that oxygen acts as a renewable energy and electron shuttle following photoexc

70 dramatically alters the yield and quality of renewable energy and fuels.

71 In this paper, we studied on-site renewable energy and GBRSs at the system level to explor

72 mponents of fuel cells and electrolysers for renewable energy applications.

73 ution reaction (OER) catalyst for solar fuel renewable energy applications.

74 heterostructured nanomaterials for practical renewable energy applications.

75 tion of CO2 provides an opportunity to store renewable energy as fuels with much greater energy densi

76 ceived much attention as possible sources of renewable energy biocatalysts.

77 of bridging the gap between fossil fuels and renewable energy by utilizing existing coalbed natural g

78 ystem (GBRSs) that strongly considers use of renewable energy can have important environmental conseq

79 en evolution reaction, is important for many renewable energy conversion processes.

80 The advent of renewable energy conversion systems exacerbates the exis

81 ion (ORR) is of great importance for various renewable energy conversion technologies such as fuel ce

82 and chemicals is a promising but challenging renewable energy conversion technology.

83 ce hydrogen fuel is an attractive method for renewable energy conversion.

84 al energy that could complement intermittent renewable energy conversion.

85 ng human activities such as the placement of renewable energy developments and the distribution of ma

86 the overall positive and negative effects of renewable energy developments before planning consent is

87 ve a transformative effect on electronic and renewable energy devices.

88 ffort to improve the performance of low cost renewable energy devices.

89 from water is one promising route towards a renewable energy economy and sustainable development.

90 Using the value of grain to produce renewable energy for transport, while using the remainin

91 the past decades as a potential approach for renewable energy generation.

92 ions, ranging from passive building cooling, renewable energy harvesting and passive refrigeration in

93 growing need to store increasing amounts of renewable energy has recently triggered substantial R&D

94 as an important strategy for the storage of renewable energy in chemical bonds.

95 ries (RFBs) are a viable technology to store renewable energy in the form of electricity that can be

96 ree magnets are highly demanded by clean and renewable energy industries because of the supply constr

97 velopment is an increasingly popular form of renewable energy infrastructure in rural areas.

98 trochemical reduction of carbon dioxide with renewable energy is a sustainable way of producing carbo

99 Demand for renewable energy is rising exponentially.

100 Analysis of five National Renewable Energy Laboratory Jobs and Economic Developmen

101 and Atmospheric Administration, the National Renewable Energy Laboratory, and the International Energ

102 The renewable energy landscape will be reshaped if the curre

103 ehicles, while also enabling the use of more renewable energy on the grid.

104 wing renewables penetration, particularly as renewable energy policy seeks to incorporate demand-side

105 While photovoltaic (PV) renewable energy production has surged, concerns remain

106 cell (DUFC) is an important but challenging renewable energy production technology, it offers great

107 inorganic-organic hybrid materials for clean/renewable energy related applications.

108 across the U.S. and determine the amount of renewable energy required to offset the CO2 emissions re

109 Wide-scale exploitation of renewable energy requires low-cost efficient energy stor

110 ed global attention as a clean, abundant and renewable energy resource.

111 fueling the water cycle that affects various renewable energy resources, such as wind and hydropower.

112 the primary carbon source for the burgeoning renewable energy sector.

113 study underscores the potential of strategic renewable energy siting to mitigate environmental trade-

114 t salinity gradient energy; a rather unknown renewable energy source from controlled mixing of river

115 eliability, availability, and quality of the renewable energy source.

116 duction of an organic-rich biofeedstock as a renewable energy source.

117 c semiconductors are considered as promising renewable energy sources due to their low manufacturing

118 idely recognized as one of the most valuable renewable energy sources for the future.

119 In the search for renewable energy sources, genetic engineering is a promi

120 n the large-scale deployment of intermittent renewable energy sources, smart power grids, and electri

121 rong dependence on products derived from non-renewable energy sources.

122 rs, and providing robust, decentralized, and renewable energy sources.

123 of Things (IoT) devices from sustainable and renewable energy sources.

124 are necessary for mitigating fluctuations of renewable energy sources.

125 is a key step for liquid-fuel production for renewable energy storage and use of CO2 as a feedstock f

126 crop productivity, global food security, and renewable energy storage.

127 gurations and cell designs are desirable for renewable energy storage.

128 R) provides great potential for intermittent renewable energy storage.

129 dings open a new avenue of CO2 reduction for renewable energy supply.

130 he importance of HP as a resource-efficient, renewable energy system.

131 ies to mitigate the environmental impacts of renewable energy systems.

132 reduce the processing cost and complexity of renewable energy systems.

133 Oxygen electrochemistry plays a key role in renewable energy technologies such as fuel cells and ele

134 on reaction (OER) is critical for developing renewable energy technologies such as fuel cells, metal-

135 /GO is a promising bifunctional catalyst for renewable energy technologies, particularly regenerative

136 ue-added chemicals is a key goal in emerging renewable energy technologies.

137 ion (OER) are cornerstone reactions for many renewable energy technologies.

138 se electrodialysis (RED) is a membrane-based renewable energy technology that can harvest energy from

139 ance levels fundamental to the deployment of renewable energy technology.

140 urgent need to develop technologies that use renewable energy to convert waste products such as carbo

141 is of great importance for the conversion of renewable energy to hydrogen fuel via photoelectrochemic

142 Using renewable energy to recycle CO2 provides an opportunity

143 her levels of energy performance and on-site renewable energy utilization, instead of fixed percentag

144 Environmental impacts of renewable energy varied dramatically between sites, in s

145 e and environmentally friendly production of renewable energy vectors and fuel sources, such as dihyd

146 arded osmosis (PRO) is a promising source of renewable energy when hypersaline brines and other high

147 Generating renewable energy while sequestering CO2 using algae has

148 vancements in power density, city-integrated renewable energy will be better suited to satisfy the hi

149 is an attractive prospect for the storage of renewable energy, and photoelectrocatalytic technologies

150 e also highlight a range of applications for renewable energy, biosensing, quantum optics, high-densi

151 aterials in biomedicine, tissue engineering, renewable energy, environmental science, nanotechnology

152 to sustain global requirements for food and renewable energy.

153 ncrease in the production of sustainable and renewable energy.

154 re management issues while delivering clean, renewable energy.

155 ed as key drivers for the development of new renewable energy.

156 plication in optoelectronics, plasmonics and renewable energy.

157 of water represents an alternative source of renewable energy.

158 energy storage is fundamental to the use of renewable energy.

159 Hydrogen is an ideal carrier for renewable energy; however, hydrogen generation is ineffi

160 ave considerable potential to satisfy future renewable-energy needs, but efficient and scalable metho

161 Microbial production of fatty alcohols from renewable feedstock stands as a promising strategy to en

162 Lignin, one of the most abundant renewable feedstock, is used to develop a biocompatible

163 ucalypt tree plantations have emerged as key renewable feedstocks (over 20 million ha globally) for t

164 s a class of materials that are derived from renewable feedstocks and exhibit closed-loop life cycles

165 The catalytic conversion of renewable feedstocks into chemicals is pursued as a mean

166 rogenation of higher alcohols available from renewable feedstocks is also described.

167 ainable processes utilizing biomass or other renewable feedstocks.

168 The dominant renewable flow in certain areas can also be directly dis

169 we utilized emergy analysis to convert each renewable flow with different attributes into a unified

170 As the most accessible, renewable form of carbon (in comparison to CO2), lignoce

171 Recently, we reported a green, renewable framework material composed of gamma-cyclodext

172 rogen-evolving electrocatalysts are key in a renewable fuel economy, and ligand-based proton and elec

173 rategy toward production of the storable and renewable fuel hydrogen.

174 -powered production of hydrogen for use as a renewable fuel is highly desirable for the world's futur

175 on (SHC) from water is a great challenge for renewable fuel production.

176 The narrow scope of the U.S. renewable fuel standard (RFS2) is a missed opportunity t

177 those envisioned by the United States (U.S.) Renewable Fuel Standard and U.S. Department of Energy's

178 oil for feed with a co-product ethanol as a renewable fuel.

179 yield.Bio-oil is a potential major source of renewable fuels and chemicals.

180 to convert lignocellulose-based biomass into renewable fuels and chemicals.

181 The efficiency with which renewable fuels and feedstocks are synthesized from elec

182 e used as a microbial biocatalyst to produce renewable fuels directly from lignocellulosic biomass du

183 ding the emissions limits established by the Renewable Fuels Standard (RFS2) for clean, advanced biof

184 classified as cellulosic biofuels under the Renewable Fuels Standard.

185 of lipids, making them candidate sources of renewable fuels.

186 cilitating conversion to cleaner-burning and renewable fuels.

187 stem emissions, the emissions effect of both renewable generation and energy storage varies by locati

188 on of global, crop-specific estimates of non-renewable groundwater abstraction and international food

189 ow that approximately eleven per cent of non-renewable groundwater use for irrigation is embedded in

190 e route for producing graphene materials and renewable H2 at low cost, and it may stimulate a new are

191 Advances in catalysis, concerning the use of renewable hydrogen as a feedstock for major chemical pro

192 the grid could enable greater integration of renewables, improve system resilience and reliability, a

193 e, we improve the methodology to incorporate renewables in MEF estimates and demonstrate a case study

194 Results show that because the share of renewables in MISO is still relatively low (6.34%), conv

195 he findings can offer additional insight for renewable incentives across sectors.

196 ous cryogenic hydrogen jet as a debris-free, renewable laser-driven source of pure proton beams gener

197 rty may have potential in the development of renewable Li-ion batteries.

198 The conversion of renewable lignocellulosic biomass into liquid fuels is p

199 by the destructive distillation of cheap and renewable lignocellulosic biomass, contains high energy

200 er in human health and for the generation of renewable liquid biofuels.

201 cal reduction of CO2 to ethanol, a clean and renewable liquid fuel with high heating value, is an att

202 Endogenous damage accumulation in non-renewable macromolecules and spontaneously polymerized m

203 rriers as they can be made from CO2 or other renewable materials, they can be used in stationary powe

204 Trees are sustainable and renewable materials, which give us shelter and oxygen an

205 ward biodegradable devices based on flexible renewable materials, which may impact the future design

206 The development of renewable monomers, the versatile synthetic routes to co

207 particularly in the context of biofuels and renewable nanomaterials.

208 ric proanthocyanidins (OPACs) are potent and renewable natural bioactives possible to be refined into

209 ral gas infrastructure to produce low carbon renewable natural gas and reducing global warming.Coalbe

210 s, thus demonstrating a potential low carbon renewable natural gas resource.

211 natural geobioreactors to produce low carbon renewable natural gas, which can be considered carbon ne

212 software, distribution maps for each type of renewable natural resource were generated by kriging int

213 the spatial distributions and quantities of renewable natural resources and net primary productivity

214 lt, the spatial distributions of the flow of renewable natural resources of the Hokkaido region are p

215 A composite map of the flow of all types of renewable natural resources was also generated by map la

216 Renewable natural resources, such as solar radiation, ra

217 Wood as a renewable naturally occurring resource has been the focu

218 NIR PLNPs and present their enhanced in vivo renewable NIR PL.

219 lectronic devices, are typically made of non-renewable, non-biodegradable, and sometimes potentially

220 the anticipated reductions are lower than a renewable-only addition.

221 , and interconnections that support the best renewable options may differ from those planned for hydr

222 yalkanoates (PHAs) from activated sludge and renewable organic material can become an alternative pro

223 panded MEFs in regions with high and growing renewables penetration, particularly as renewable energy

224 ound that such nanocrystals possess superior renewable PL photoluminescence in vitro and in vivo comp

225 the development of biomedical scaffolds with renewable plant oils and advanced 3D fabrication techniq

226 extractions might be a potential alternative renewable plant protein source to use asa food ingredien

227 pical carbon mixtures that comprise standard renewable plant-biomass-based carbon sources.

228 ity generation between CCS retrofits and new renewable plants under the ERC trading scheme, retrofitt

229 We observe production of several renewable plastic precursors with fluorescent readouts a

230 es demonstrate that morphologically distinct renewable pollens could produce carbon architectures for

231 Renewable polymeric materials derived from biomass with

232 In the United States, state-level Renewable Portfolio Standards (RPS) have served as key d

233 ology diversity mitigates the variability of renewable power generation at the interannual scales.

234 imizes incremental RPS costs, accounting for renewable power purchase agreements (PPAs), displaced ge

235 l gas as a low-cost fuel to support variable renewable power.

236 entally damaging detergents, and muconate, a renewable precursor to polyethylene terephthalate and ny

237 n, utilization of natural, abundant and more renewable precursors, coupled with simpler, lower energy

238 he potential to create a new paradigm in the renewable production of economically competitive feed ad

239 water splitting is a promising approach for renewable production of hydrogen from solar energy and r

240 comprehensive economic dispatch model and a renewable project selection model.

241 emitting sources only, assuming nonemitting renewables rarely contribute to marginal generation.

242 nsive material and energy use or recovery of renewable raw materials in form of green and waste bioma

243 ying Prdm14-mediated repression and provides renewable reagents for studying and controlling Prdm14 f

244 ous promise to create the next generation of renewable, recombinant antibodies to study proteins and

245 Water is a renewable resource but yet finite.

246 developed starting from furfuryl alcohol, a renewable resource made from bran or bagasse, and aldehy

247 Water splitting driven by sunlight or renewable resource-derived electricity has attracted gre

248 presents a unique transition from one basal renewable resource-hydropower-to another based on geothe

249 ts are largely derived from petroleum, a non-renewable resource.

250 bonates are promising materials due to their renewable resources and excellent biodegradability.

251 lem between the intermittent supply of these renewable resources and variable demand.

252 Renewable resources are used increasingly in the product

253 lly competitive and low-environmental-impact renewable resources can significantly contribute to meet

254 tes sustainability of communities reliant on renewable resources facing uncertain futures.

255 Efficient generation of hydrogen from renewable resources requires development of catalysts th

256 ge higher in organic farming, including when renewable resources such as composts are used as soil am

257 However, renewable resources such as water may also be overused a

258 omposite inks containing some materials from renewable resources that can be 3D printed into complex,

259 due to the interest to exploit shale gas and renewable resources to obtain the gaseous feedstock.

260 molecules that can be readily accessed from renewable resources via the combination of microbial fer

261 uction of fuels and chemical feedstocks from renewable resources.

262 al product is thus constructed entirely from renewable resources.

263 s one of the most important needs to develop renewable, scalable and multifunctional methods for the

264 ade to develop clean syngas production using renewable solar energy.

265 Lignin is the only large-volume renewable source of aromatic chemicals.

266 ity that patient-specific iPSCs may become a renewable source of autologous cells for cell therapy wi

267 ical technologies and e-pili are a promising renewable source of electronic materials.

268 on, Fe-bearing clay minerals are viewed as a renewable source of Fe redox activity in diverse environ

269 velopment of engineered stomach tissues as a renewable source of functional beta cells for glycemic c

270 show the potential of foliage material as a renewable source of high-value compounds.

271 ative tissue with the potential to provide a renewable source of insulin(+) cells after undergoing ce

272 rammed gastric endocrine cells to generate a renewable source of insulin-producing cells.

273 nt the largest terrestrial carbon sink and a renewable source of ligno-cellulose.

274 d beta cells hold the promise of providing a renewable source of tissue for the treatment of insulin-

275 sidering increased methane availability from renewable sources and hydraulic fracturing of shale rock

276 G) has been regarded as a bridge fuel toward renewable sources and is expected to play a greater role

277 extraction processes may further be used as renewable sources for production of biofuels.

278 ur approach involves precursors derived from renewable sources including wild-type Saccharomyces cere

279 Electrochemical reduction of CO2 using renewable sources of electrical energy holds promise for

280 , chitin and related polysaccharides are key renewable sources of organic molecules and materials.

281 sometimes-conflicting terminology as well as renewable sources with a special focus on the degradatio

282 they are biodegradable and are produced from renewable sources.

283 versatile separation platforms derived from renewable sources.

284 Here we solidified a novel renewable soybean oil epoxidized acrylate, using a 3D la

285 Large-scale CO2 hydrogenation could offer a renewable stream of industrially important C1 chemicals

286 ride (LPS), alpha-synuclein generated a self-renewable, structurally distinct fibril strain that cons

287 sults suggest that amyloid fibrils with self-renewable structures cause distinct types of proteinopat

288 er demands of electrochemical processes with renewable sunlight-driven ion transport.

289 A simple renewable surface for a rapid antibacterial susceptibili

290 ssions and a possible stepping-stone towards renewable synthetic fuels.

291 ite the significant economic burden of those renewable systems on-site and vice versa.

292 In particular, as the data imply that renewable technologies are being used to manage risk in

293 ower generation to be competitive with other renewable technologies.

294 idized natural products from an abundant and renewable terpene feedstock.

295 creased penetration and improved dispatch of renewables, this assumption may be outdated.

296 ered an important component, alongside other renewables, to mitigate global warming and to reduce fos

297 olysis and catalytic upgrading of bio-oil to renewable transportation fuel.

298 for utilizing non-arable land for generating renewable transportation fuels to replace fossil resourc

299 n, with the potential to improve biomass for renewable uses.

300 , a 2012 US immigration policy that provided renewable work permits and freedom from deportation for