ライフサイエンスコーパス: organic compounds

1 phases serves as both a source and a sink of organic compounds.

2 n when the samples contain mixtures of other organic compounds.

3 olism, and its functionalization of numerous organic compounds.

4 a range of environmental elements including organic compounds.

5 ty principle for predicting molar volumes of organic compounds.

6 ieve excellent removal of many, but not all, organic compounds.

7 ctivity at T(c) values surprisingly high for organic compounds.

8 e proton transfer (ESPT) reactions happen in organic compounds.

9 er-soluble Fe and Cu were complexed with the organic compounds.

10 ontrasting isotopic selectivities for common organic compounds.

11 reath diagnostics and monitoring of volatile organic compounds.

12 tive detection of oxygen-containing volatile organic compounds.

13 sis, but its efficiency is typically low for organic compounds.

14 undreds of thousands of low molecular weight organic compounds.

15 HNO3)) with or without the presence of model organic compounds.

16 for the preparation of enantiomerically pure organic compounds.

17 ause of the destruction of a wide variety of organic compounds.

18 the condensation of atmospheric low-volatile organic compounds.

19 s, and good flexibility for various volatile organic compounds.

20 ts, and production and release of oxygen and organic compounds.

21 o) in a small collection of natural volatile organic compounds.

22 emented toward detection of various volatile organic compounds.

23 onmentally friendly way for the oxidation of organic compounds.

24 dem IMS to an expanded selection of volatile organic compounds.

25 consider when investigating the kinetics of organic compounds.

26 system have so far been associated only with organic compounds(4,5).

27 the fingerprints of the fraction of volatile organic compounds acquired from samples representative o

28 haracterize a more robust set of halogenated organic compounds across species and among lakes.

29 that these are excellent reservoirs to host organic compounds against the harsh surface conditions o

30 ere, we show that the addition of individual organic compounds and 0.2 mum filtered diatom lysate sig

31 The concentrations of 13 volatile organic compounds and 2 aldehydes identified as EDCs wer

32 aterials (such as silicon oxide derivatives, organic compounds and aerogels) have kappa values greate

33 By determining the organic compounds and bioelements present in the species

34 Detection of urinary volatile organic compounds and ELISA assays showed that the loadi

35 nt differences were observed in the volatile organic compounds and fatty acids levels.

36 Cu ions, OH radicals are mainly generated by organic compounds and Fenton-like reactions of metal ion

37 We screened ~202,000 small organic compounds and identified 337 candidate inhibitor

38 lator-associated pneumonia specific volatile organic compounds and species differentiation by noninva

39 r the physicochemical features of the target organic compounds and the plastic particles.

40 nsure the accuracy of delta(2)H analysis for organic compounds and to enhance intercomparability for

41 c compounds, (ii) complexed with hydrophilic organic compounds, and (iii) free or inorganic metal fra

42 tions in WTW GHGs, nitrogen oxides, volatile organic compounds, and carbon monoxide emissions, compar

43 chemical mixture consisting of trace metals, organic compounds, and often, high levels of salts.

44 s are a ubiquitous skeleton of pi-conjugated organic compounds, and their incorporation requires synt

45 These organic compounds are known to promote not only the ring

46 Many atmospheric organic compounds are long-lived enough to be transporte

47 Dissolved organic compounds are major contaminants in oil sands pr

48 l (SOA) formation from oxidation of volatile organic compounds are measured in laboratory chambers an

49 of 24 isotopologues and isotopomers of five organic compounds are separated, identified, and quantif

50 cids are monodisperse just as low-molar-mass organic compounds are.

51 Herein, we investigate metal-organic compounds as a new class of solid-liquid phase-c

52 S., Potential role of fecal volatile organic compounds as biomarkers of chemically induced in

53 Here we introduce azobenzene-based organic compounds as new active materials to realize hig

54 al catalysts is their modification by chiral organic compounds, as most prominently represented by th

55 However, most aromatic organic compounds assessed as anode materials in SIBs to

56 ed monomers of 42 volatile oxygen containing organic compounds at ambient pressure using a tandem ion

57 Thus, accurate quantification of organic compounds at concentrations as low as 1 x 10(5)

58 (3), N(2)O(5), O(3), and OH) and BB volatile organic compounds (BBVOCs), using emissions representati

59 Organic compounds bearing radioisotopes of iodine are wi

60 Biogenic volatile organic compounds (BVOCs) play important roles at cellul

61 ions and concentrations of biogenic volatile organic compounds (bVOCs) with potential implications fo

62 record of in situ degradation of chlorinated organic compounds by a granular iron permeable reactive

63 ns to determine solubility limits of various organic compounds by exploiting their pH-active carboxyl

64 etermination of delta(33)S and delta(34)S in organic compounds by GC-MC-ICPMS applying medium- and al

65 Till now, analysis of organic compounds by NMR spin diffusion in viscous solve

66 Light, inorganic, and organic compounds can all be used for its source of ener

67 hether the capacity of smectites to preserve organic compounds can be influenced by a short exposure

68 Aromatic organic compounds can be used as electrode materials in

69 In contrast to soluble compounds, volatile organic compounds can diffuse easily through air- and ga

70 The introduction of fluoroalkyl groups into organic compounds can significantly alter pharmacologica

71 with the corresponding ion types of 78 other organic compounds characterized.

72 Adverse health effects of condensable organic compounds (COC) and potential secondary organic

73 There is a growing interest in organic compounds containing the difluoromethyl group, a

74 Intermediate volatility organic compounds could be responsible for the rest.

75 cid and nitrogen- containing highly oxidised organic compounds, decreased considerably, which was fol

76 , the E(p) of more general biomarker lipids, organic compounds derived from a multitude of species, h

77 ds; a 1-3 kDa fraction containing humic-like organic compounds, dispersed Fe, and, to a small extent,

78 th redox ions ([Fe(CN)(6)](3-/4-)) and redox organic compounds (dopamine) are used as model analytes

79 ns, carbohydrates, and volatile/semivolatile organic compounds (e.g., alkanes, alkenes, alkynes, arom

80 st NaCl, boron, and a set of small-molecular organic compounds (e.g., propylparaben, norfloxacin, and

81 f addition of the low-molecular weight (LMW) organic compounds, easily ionized elements (EIEs), i.e.,

82 fferences in the composition of the volatile organic compounds emissions between PFI and GDIs, includ

83 were found to contain significant amounts of organic compounds exhibiting biological effects such as

84 A large set of organic compounds extracted from the CAS Registry is ana

85 Fatty acid-derived volatile organic compounds (FA-VOCs) make significant contributio

86 ing interest in the synthesis of fluorinated organic compounds, few reactions are able to incorporate

87 is presented for improving the stability of organic compounds for battery electrodes.

88 ed to predict the toxicity of the quantified organic compounds for fresh water organisms in recipient

89 n dioxide (CO(2)) and nitrogen or break down organic compounds for its carbon and nitrogen requiremen

90 the purification of volatile or semivolatile organic compounds for radiocarbon analysis using acceler

91 ROS concentrations, we predict that certain organic compounds found in aerosols, such as amino acids

92 nvolved in the abiotic synthesis of numerous organic compounds found in extant life; however, little

93 ure to total hydrocarbons (THC) and volatile organic compounds from air pollution is associated with

94 t a novel approach for in situ extraction of organic compounds from hydrothermal vent fluids through

95 provide a low-cost option for removing trace organic compounds from RO concentrate, a pilot-scale tre

96 periments-suggesting a selective transfer of organic compounds from seawater into the atmosphere.

97 how heat waves affect emissions of volatile organic compounds from urban/suburban vegetation and cor

98 is the first study to indicate that volatile organic compounds from Xenorhabdus spp. can be used in p

99 ial stages of the combustion or oxidation of organic compounds, from different sites of 2ME were exam

100 Three fluorescent organic compounds-furocoumarin (FC), dansyl aniline (DA)

101 Organic compounds further enhance the photolysis rate co

102 ely used for the configuration assignment of organic compounds generally comparing one cluster of exp

103 ominating the emissions of biogenic volatile organic compounds globally.

104 he plasma-mediated decomposition of volatile organic compounds has previously been investigated in th

105 Decades of research on the autooxidation of organic compounds have provided fundamental and practica

106 xtensively to identify past climate changes, organic compounds have rarely been used to assess paleo-

107 rogen oxides = NO(2) + NO) and VOC (volatile organic compounds) have decreased.

108 The concentrations of hydrophobic organic compounds (HOCs) in aquatic biota are used for c

109 ient PM(2.5): (i) complexed with hydrophobic organic compounds, (ii) complexed with hydrophilic organ

110 tection Agency study assessing more than 700 organic compounds in 38 streams, in vitro assays indicat

111 ants such as particulate matter and volatile organic compounds in addition to causing light and noise

112 sed for real-time quantification of volatile organic compounds in ambient air and exhaled breath with

113 impact on the dynamic chemical speciation of organic compounds in aqueous environmental media and wit

114 ermination of intrinsic solubility limits of organic compounds in aqueous solutions within 2-4 h.

115 tabolic interactions and that small molecule organic compounds in CB could attenuate ALD.

116 hich governs chemotaxis to citrate and other organic compounds in Comamonas testosteroni.

117 talytic activities for efficiently degrading organic compounds in contaminated water such as harmful

118 ards) for determining the acidity (pK(a)) of organic compounds in DMSO, which was achieved with the a

119 d the ionization constants (K(a)) of several organic compounds in DMSO.

120 as developed to screen for a wide variety of organic compounds in high-resolution mass spectrometry (

121 vironmental chamber, quantifying 33 volatile organic compounds in mainstream and sidestream emissions

122 uction of sulphuric acid and highly oxidized organic compounds in maintaining atmospheric NPF.

123 cells and redox-active, nonenzymatic soluble organic compounds in organic-rich spent culture supernat

124 he bioaccumulation potential and toxicity of organic compounds in organisms but is, in general, poorl

125 The composition of condensed-phase organic compounds in SOA is measured using several compl

126 henylbenzimidazole sulfonic acid, indicating organic compounds in sunscreen and other personal care p

127 xtensively for the structural elucidation of organic compounds in tandem mass spectrometry.

128 , which are among the most abundant volatile organic compounds in the atmosphere, are readily oxidize

129 isoprene, one of the most abundant volatile organic compounds in the earth's atmosphere, generates t

130 To ensure no volatile organic compounds in the foam, supercritical CO(2) (sc-C

131 porewater has been sufficiently advanced for organic compounds in the low- to midrange of hydrophobic

132 The organic compounds in the produced water neither noticeab

133 Anthropogenic volatile organic compounds including aromatics are considered as

134 simultaneous high-resolution analysis of any organic compounds including stereoisomers.

135 that were extracted, a wide range of unique organic compounds, including labile dissolved organic su

136 rocess in soils and their potential to leach organic compounds into streams and groundwater, mineral

137 eered artificial organelles that manufacture organic compounds intracellularly.

138 The oil-water partition coefficient of organic compounds is an essential parameter for the dete

139 The synthesis of complex organic compounds is largely a manual process that is of

140 Surface film of HNO(3) and organic compounds is ubiquitous in the environment and i

141 ten associated with soot particles coated by organic compounds, is a known carcinogen and mutagen.

142 from the atmospheric oxidation of gas-phase organic compounds leading to the formation of particle m

143 es of sample are recovered, labile dissolved organic compounds may not be detected due to time delays

144 study aimed to investigate whether volatile organic compounds measured in exhaled breath condensate

145 racterize small and large molecules, such as organic compounds, metabolites, and biomacromolecules at

146 , decorated by Bronsted acid sites, in which organic compounds, mostly methylated benzene species, ar

147 had the largest number of novel halogenated organic compounds (NHOCs).

148 dominant, together with nonmethane volatile organic compounds (NMVOCs) (10-40%).

149 an increase of domestic non-methane volatile organic compounds (NMVOCs) emissions by 3.5 million tons

150 emission factors of 59 non-methane volatile organic compounds (NMVOCs), CH(4), CO(2), CO, and NO (x)

151 adation, is a likely precursor of meteoritic organic compounds of astrochemical and astrophysical int

152 he number of possible molecular formulas for organic compounds of relative high molecular mass (e.g.,

153 prehensive polar metabolome and the volatile organic compounds of T. melanosporum were studied at dif

154 ults suggest that the digestive activity and organic compounds of watery saliva may elicit a plant se

155 HOCl and Cl(2) may react with unsaturated organic compounds on indoor surfaces and in indoor air.

156 The influence of organic compounds on iodine (I(2)) emissions from the O(

157 ips (pp-LFERs) for aqueous adsorption of 165 organic compounds onto 50 biochars, 34 carbon nanotubes,

158 ion Theory (RAST), to bisolute adsorption of organic compounds onto a hyper-cross-linked polystyrene

159 The detection of microbial volatile organic compounds or host response markers in the exhale

160 )) as electron acceptor for the oxidation of organic compounds or hydrogen (H(2)), but so far the use

161 properties, and it has been used to identify organic compounds or to verify their chemical or phase p

162 proportions of nitrate salts and/or oxidized organic compounds over the year.

163 ing properties of SOA particles and oxidized organic compounds (OVOCs) requires controlled experiment

164 able for low-energy removal of inorganic and organic compounds, particularly for non-potable applicat

165 The identified halogenated organic compounds, particularly iodinated organic molecu

166 Nitrated organic compounds, particularly nitroaromatics, were ide

167 ers (OPEs) and bisphenols) and other related organic compounds (perfluorinated chemicals) measured in

168 Oxidation processes, commonly of organic compounds, provide the electrons needed for the

169 Volatile organic compounds, quality and sensory attributes of swe

170 Volatile organic compounds, quality and sensory parameters of fou

171 benzo-p-dioxins (PCDDs) are a class of toxic organic compounds released by a number of industrial pro

172 r from electronic noses that detect volatile organic compounds released from plants or pathogens, as

173 racterization of gaseous (highly) oxygenated organic compounds remains challenging and requires analy

174 We also suggest that using emitting organic compounds such as CBP (4,4-Bis(N-carbazolyl)-1,1

175 y protecting otherwise bioavailable, reduced organic compounds such as lipids and waxes from decompos

176 also useful precursors for other classes of organic compounds such as other cycloalkane derivatives,

177 ion due to the emerging task to remove trace organic compounds such as pesticides.

178 Biogenic volatile organic compounds such as terpenoids emitted from plants

179 d to gain structural information for unknown organic compounds, such as drug metabolites, in complex

180 entification and quantification of gas-phase organic compounds, such as volatile organic compounds (V

181 in the ppbv range as well as to semivolatile organic compounds (SVOC) and even highly oxidized organi

182 Semivolatile organic compounds (SVOCs) are ubiquitous in the indoor e

183 erstanding the partitioning of semi volatile organic compounds (SVOCs) between gas phase and particle

184 We measured the uptake of semivolatile organic compounds (SVOCs) by the airborne particles in r

185 exposure of nail technicians to semivolatile organic compounds (SVOCs) in nail salons.

186 on and accuracy of quantifying semi-volatile organic compounds (SVOCs) in solution by GC/MS, particul

187 The diffusivity of semivolatile organic compounds (SVOCs) in the bulk particle phase of

188 G) were used to investigate how semivolatile organic compounds (SVOCs) partition among indoor reservo

189 , such as free fatty acids and semi-volatile organic compounds (SVOCs).

190 , can influence the dynamics of semivolatile organic compounds (SVOCs).

191 k of environmental exposures to semivolatile organic compounds (SVOCs).

192 The quantified semivolatile organic compounds (SVOCs, n = 33) (targeted analysis), a

193 of polycyclic aromatic hydrocarbons (PAHs), organic compounds that are produced during the combustio

194 Rubisco catalyzes the fixation of CO(2) into organic compounds that are used for plant growth and the

195 ribing the kinetics of uptake and release of organic compounds that associate with plastic particles.

196 readily yield a complex mixture of volatile organic compounds that can adversely impact product qual

197 other contaminants (such as heavy metals and organic compounds) that may be present on the iron oxyhy

198 rogression and alters urine-derived volatile organic compounds through the mevalonate pathway.

199 is geared toward the utilization of similar organic compounds throughout the water column, with yet

200 )S isotope analysis of industrially produced organic compounds to investigate potential mass-independ

201 vic acid (SRFA), a proxy for the atmospheric organic compounds, to generate reactive oxygen species (

202 Contamination of rivers by trace organic compounds (TrOCs) poses a risk for aquatic ecosy

203 the opportunity to detect also unknown trace organic compounds (TrOCs) that are not in the focus of r

204 The fate of 28 trace organic compounds (TrOCs) was investigated in the hyporh

205 udied the ionic fragmentation of 26 oxidized organic compounds typically found in atmospheric particl

206 ffecting their potential for preservation of organic compounds under contemporary Mars surface condit

207 atile reagent for the selective oxidation of organic compounds under mild reaction conditions.

208 SOA produced from several biogenic volatile organic compounds undergoes photolysis-induced mass loss

209 nin degradation correlated for the time, and organic compounds via oxidation (or hydrolyzation).

210 oiting its ability for detection of volatile organic compounds via simple optical fibre based sensing

211 H(3), hydrogen sulfide (H(2)S), and volatile organic compounds (VOC) emissions (>90%).

212 Emission of Volatile Organic Compounds (VOC) in SME is important considering

213 volatile organic compounds (VOC) spectra from coffee samples of 7

214 ere added to the algae cultures and volatile organic compounds (VOC) were sampled from the headspace

215 Reactions of volatile organic compounds (VOC) with NO(3) radicals and of react

216 ixtures including ammonia, methane, volatile organic compounds (VOC), and H(2)S.

217 Food volatile organic compounds (VOCs) analysis is a useful tool in au

218 Plant volatile organic compounds (VOCs) are major vehicles of informati

219 Volatile organic compounds (VOCs) are released from biogenic sour

220 In addition, small amounts of volatile organic compounds (VOCs) are released.

221 sions, deposition, and chemistry of volatile organic compounds (VOCs) are thought to be influenced by

222 nene, one of the most common indoor volatile organic compounds (VOCs) arising from use of cleaning pr

223 The analysis of volatile organic compounds (VOCs) as a non-invasive method for di

224 Many volatile organic compounds (VOCs) associated with industry cause

225 Changes in the emissions of volatile organic compounds (VOCs) can affect formation rates and

226 able information structure of plant volatile organic compounds (VOCs) can emerge from a conflicting i

227 Volatile organic compounds (VOCs) comprise a large and highly div

228 s and biotrickling filters used for volatile organic compounds (VOCs) control have treatment rates li

229 With traffic emissions of volatile organic compounds (VOCs) decreasing rapidly over the las

230 evelopment of free and glycosylated volatile organic compounds (VOCs) during fruit maturation.

231 (untargeted) metabolic profiling of volatile organic compounds (VOCs) emitted in culture by bacterial

232 y the fingerprints generated by the volatile organic compounds (VOCs) emitted.

233 vestigated the release of gases and volatile organic compounds (VOCs) from a carbon fibre reinforced

234 rusion assume that the transport of volatile organic compounds (VOCs) from a source toward a building

235 Observations of volatile organic compounds (VOCs) from a surface sampling network

236 onvenient technique used to isolate volatile organic compounds (VOCs) from complex liquid matrices.

237 r identifies and clusters groups of volatile organic compounds (VOCs) from deconvolved GC/MS breath w

238 illance of both methane (CH(4)) and volatile organic compounds (VOCs) from oil and gas (O&G) producti

239 Flux estimates of volatile organic compounds (VOCs) from oil and gas (O&G) producti

240 Fecal volatile organic compounds (VOCs) have been found to differ in pa

241 Analyses of exhaled volatile organic compounds (VOCs) have shown promising results wh

242 Exposure to high levels of volatile organic compounds (VOCs) impairs pancreatic beta-cell fu

243 ical composition, concentration) of volatile organic compounds (VOCs) in atmospheric, indoor, and bre

244 ng opens the way for the sensing of volatile organic compounds (VOCs) in gaseous media.

245 a potent, mobile source of various volatile organic compounds (VOCs) in indoor environments.

246 e recognition and quantification of volatile organic compounds (VOCs) in moderately complex mixtures

247 Volatile organic compounds (VOCs) include endogenous metabolites

248 essed pollution plumes as oxidizing volatile organic compounds (VOCs) interact with SO(2) and water.

249 (GOMRR) to a range of vapour phase Volatile Organic Compounds (VOCs) is reported.

250 Nowadays, monitoring of volatile organic compounds (VOCs) is very important in various do

251 dation of natural and anthropogenic volatile organic compounds (VOCs) leads to secondary organic aero

252 ortionment of CH(4), CO, CO(2), and volatile organic compounds (VOCs) measurements were used to evalu

253 Plant volatile organic compounds (VOCs) mediate many interactions, and

254 typing using endogenously generated volatile organic compounds (VOCs) offers the possibility of nonin

255 erties of spices are related to the volatile organic compounds (VOCs) present, which can provide dist

256 strategy for analyzing non-targeted volatile organic compounds (VOCs) profiles to distinguish between

257 Faecal volatile organic compounds (VOCs) reflect the microbiota composit

258 Volatile organic compounds (VOCs) represent a broad class of chem

259 n mass spectrometry-based analysis, volatile organic compounds (VOCs) that were linked to lipid metab

260 argest combustion-related source of volatile organic compounds (VOCs) to the atmosphere.

261 n its own in liposomes could detect volatile organic compounds (VOCs) ultrasensitively using Electroc

262 tant products from the oxidation of volatile organic compounds (VOCs) under atmospheric conditions.

263 In the atmosphere, certain volatile organic compounds (VOCs) undergo oxidation.

264 dy the kinetics and fast release of volatile organic compounds (VOCs) upon reconstitution of instant

265 Overall, 99 volatile organic compounds (VOCs) were detected and VOC profiles

266 fficients of formaldehyde and other volatile organic compounds (VOCs) were determined from continuous

267 t capacity, fatty acid profile, and volatile organic compounds (VOCs) were determined.

268 chain fatty acid (SCFA) and urinary volatile organic compounds (VOCs) were measured.

269 f Colorado Art Museum, during which volatile organic compounds (VOCs), carbon dioxide (CO(2)), ozone

270 l-time detection of released gases (volatile organic compounds (VOCs), CO(2), NO, NO(2), SO(2), CO an

271 as-phase organic compounds, such as volatile organic compounds (VOCs), frequently use gas chromatogra

272 unctional platform for detection of volatile organic compounds (VOCs), multicolour dynamic displays,

273 ize that early alterations in fecal volatile organic compounds (VOCs), reflecting intestinal microbio

274 Plants produce a range of volatile organic compounds (VOCs), some of which are perceived by

275 source of secondary metabolites and volatile organic compounds (VOCs), which may induce plant defense

276 t flowers, emits a number of floral volatile organic compounds (VOCs).

277 The profile analyzed included 134 volatile organic compounds (VOCs).

278 , aldehydes, esters and ketones) of volatile organic compounds (VOCs).

279 ence switching properties for polar volatile organic compounds (VOCs).

280 in root exudates or are emitted as volatile organic compounds (VOCs).

281 emit ultrafine particles (UFPs) and volatile organic compounds (VOCs).

282 Differences in aroma (profiles of volatile organic compounds, VOCs) have been widely reported acros

283 tope analysis of sulfur (delta(34)S-CSIA) in organic compounds was established in the last decade emp

284 The T(g) of the organic compounds was found to be strongly correlated wi

285 eening of MOS sensors, specific for volatile organic compounds, was performed using fuzzy logic.

286 A total of 58 volatile organic compounds were found, with hotrienol, phenylacet

287 Exhaled concentrations of 45 volatile organic compounds were greater in critically ill patient

288 ty in vitro and a wide range of phenolic and organic compounds were identified.

289 tive hydrogenation of alpha,beta-unsaturated organic compounds, which cannot be achieved with FLPs in

290 emerging concern are polar and/or ionizable organic compounds, whose removal from engineered and env

291 n, and detection of fungal-specific volatile organic compounds will be reviewed, along with other key

292 n toolbox approach to annotate these complex organic compounds with amplifiable DNA barcodes, which c

293 A viscosity database for organic compounds with atmospherically relevant function

294 ubstrates such as syntrophic fermentation of organic compounds with methanogens.

295 Chemical ionization of organic compounds with negligible vapor pressures (VP) i

296 luding NH3, SO2, NO2, H2S, and some volatile organic compounds, with particular emphasis on the chall

297 lize the photochemistry of cyclic conjugated organic compounds, with the long-term goal of using thes

298 es of fluorine and produced countless fluoro-organic compounds without which our everyday lives would

299 ll configurations that involve electroactive organic compounds working either in the solid state or i

300 Water-soluble organic compounds (WSOCs) were extracted from corn stalk