ライフサイエンスコーパス: gaseous

1 The deposition of gaseous 2-methylimidazole onto M-doped ZnO substrates, f

2 ts, strongly influencing the partitioning of gaseous acidic and basic species to aerosols, surface fi

3 Considering gaseous administration as a promising adjunctive treatme

4 nd payment method), and confounding by other gaseous air pollutants were also investigated.

5 Both particulate and gaseous air pollutants were positively associated with p

6 of the local communities fostered by venting gaseous alkanes around these seeps.

7 n that utilizes propane, isobutane, or other gaseous alkanes/alkenes (e.g., ethane, butane, and ethen

8 ast method for simultaneous determination of gaseous ammonia (NH(3)) and particulate ammonium (NH(4)(

9 formulations, and as an example we detected gaseous ammonia with Cu(II).

10 )-devices detect and differentiate important gaseous analytes (NO, H2S, and H2O) at ppm levels and ma

11 The combination of rotating parts and gaseous analytes makes the design of RDE cells that allo

12 tting SERS-active surfaces and (4) confining gaseous analytes using porous materials over SERS hotspo

13 between the solid-state sensor elements and gaseous analytes, distinct color difference patterns wer

14 ich was chosen as prototype of electroactive gaseous analytes.

15 organic aerosol and compare these spectra to gaseous and aqueous 2-nitrophenol.

16 The methane recovered from gaseous and dissolved fractions could generate an estima

17 from waste treatment plants, (iv) long-term gaseous and liquid emissions from landfills, (v) waste b

18 ge in planet formation is the evolution of a gaseous and magnetized solar nebula.

19 ty of Denver repeated its 2013 fuel specific gaseous and particle emission measurements on two Califo

20 8)O and Delta(17)O) isotope compositions for gaseous and particle phases.

21 nd of the airport, the concentrations of all gaseous and particulate pollutants (except PM(2.5)) were

22 The gaseous and PM(10) emissions of a piston-engine aircraft

23 demonstrated for Ni(2)(m-dobdc) in both the gaseous and the liquid phases via breakthrough and batch

24 ived from the Boltzmann equation to describe gaseous and thermal transport both in continuum and rare

25 ction as sensitive and selective sensors for gaseous and vaporous analytes.

26 potentially general strategy for exploiting gaseous and/or hard-to-handle carbene donor reagents in

27 Microplasmas combined with gaseous and/or liquid media at low temperatures and atmo

28 YR1 MH susceptibility mutations triggered by gaseous anesthetic, affecting both central and periphera

29 phases in earth's atmosphere, including the gaseous, aqueous, and aerosol bound, and these different

30 Once formed, these gaseous arsenic species are readily diluted in the atmos

31 Though poorly understood, the production of gaseous arsenic species in these environments can be a p

32 ewton) revealed(4) an extended, X-ray-bright gaseous atmosphere with a virial temperature of 60 milli

33 embly is very profitable for the analysis of gaseous atmospheres, especially when used as detector fo

34 y affect the budgets of both particulate and gaseous atmospheric organic compounds on a global scale.

35 ode of MT regulation in response to changing gaseous biofilm microenvironments, which could contribut

36 ials and methods required to concentrate the gaseous biomarkers for detection.

37 formed endogenously via the reaction of the gaseous biotransmitter hydrogen sulfide (H2S) and disulf

38 a Rayleigh-like evolution of the atmospheric gaseous boron reservoir with possible but limited anthro

39 sults of recent modelling of the response of gaseous broad emission lines to continuum variations(6,7

40 anism, changing from classic nucleation into gaseous bubbles to a facilitated removal through escapin

41 are related to the formation and collapse of gaseous bubbles.

42 g acids and the managed removal/quenching of gaseous byproducts.

43 The relative proportions of gaseous C loss and organic matter transport downstream s

44 Total gaseous C loss, CUE, and MBC were greater in the slow (r

45 ays, elevated moisture stimulates cumulative gaseous C-loss as CO2 and CH4 to >150% of the control.

46 ion via a managed carbonation step involving gaseous carbon dioxide (CO(2)).

47 nvestigating the feasibility of accelerating gaseous carbon dioxide (CO2) dissolution into a continuo

48 ble heterogeneous catalytic hydrogenation of gaseous carbon dioxide to chemicals and fuels.

49 l carbon balance and the fossil fuel-derived gaseous carbon footprint, to track carbon coming into, b

50 Gaseous carbon release from Arctic soils due to permafro

51 compartment setup in which ex situ generated gaseous CF3CHN2 is processed by engineered myoglobin cat

52 vices, which enables real-time monitoring of gaseous chemical reactions.

53 Three gaseous chlorofluorocarbon guests, trichlorofluoromethan

54 As the production of gaseous CO is detected in the light near this onset pote

55 ever, how these enzymes bind and control the gaseous CO(2) molecule during catalysis is only poorly u

56 by high pressure permeative introduction of gaseous CO(2) through thin membranes supported upon a po

57 ant inter-species energy currency even under gaseous CO2 -saturation.

58 ogen-dependent carbon dioxide reductase when gaseous CO2 and H2 are placed under pressure (up to 10 b

59 stem was observed to rapidly convert 100% of gaseous CO2 to formic acid, and >500 mM formate was obse

60 ers were used to capture alkaline and acidic gaseous components, and particle phase components were c

61 The endogenous concentrations of four gaseous compounds, oxygen, carbon dioxide, ethylene, and

62 Gaseous compounds, such as CH(4), H(2), and O(2), are co

63 r day respiration responded to environmental gaseous conditions.

64 ures, which are expected to be predominantly gaseous, correlations with particle mass concentration w

65 A small number of these systems contain gaseous debris discs, visible through emission lines.

66 Recently, the discovery of a gaseous debris disk with a composition similar to that o

67 sulting from a foaming effect during release gaseous decomposition products.

68 ng and immediately reacting small amounts of gaseous diazoalkane with analyte molecules.

69 roorganisms(2,3) and the major precursor for gaseous dimethyl sulfide (DMS).

70 2.25, that is accreting from a circumstellar gaseous disk composed of hydrogen, oxygen and sulfur at

71 The gaseous effluent is then immediately transferred to a de

72 The gaseous effluent of the extraction chamber is immediatel

73 erm records of atmospheric concentrations of gaseous elemental (GEM), gaseous oxidized (GOM), and par

74 erm historical records of actual atmospheric gaseous elemental Hg (GEM) concentrations exist.

75 n the interior Arctic tundra is derived from gaseous elemental Hg (Hg(0)) deposition, with only minor

76 Atmospheric monitoring networks quantify gaseous elemental mercury (GEM) concentrations, but not

77 Gaseous elemental mercury (GEM) is the dominant form of

78 o independent methods for the measurement of gaseous elemental mercury (GEM) mass concentration: isot

79 n of isotopic composition during sampling of gaseous elemental mercury (GEM) with a passive air sampl

80 Gaseous elemental mercury (GEM, Hg) emissions are transf

81 Despite 30 years of study, gaseous elemental mercury (Hg(0)) exchange magnitude and

82 rgoes frequent rapid depletions in ozone and gaseous elemental mercury due to reactions with halogen

83 nt of spatial and temporal concentrations of gaseous elemental mercury.

84 to describe early occurrence and severity of gaseous embolism (GE) and DCS in marine turtles after in

85 for online on-site monitoring of radioactive gaseous emissions as well as future work on in-situ moni

86 Gaseous emissions from livestock production are complex

87 continuous on-site monitoring of radiocarbon gaseous emissions from nuclear facilities.

88 into the system, (ii) export of waste (iii) gaseous emissions from waste treatment plants, (iv) long

89 ulate emissions and also provide benefits in gaseous emissions, including nonmethane hydrocarbons (NM

90 ctroscopy to measure the effect of TA-NaF on gaseous emissions.

91 her have a rocky core enveloped in a H(2)-He gaseous envelope (gas dwarfs) or contain a significant a

92 's atmosphere is primordial and obtained its gaseous envelope late in its disk lifetime, with little

93 Interior-structure models suggest that any gaseous envelope of pure hydrogen and helium consists of

94 ecular species are key to energy transfer in gaseous environments.

95 or probing catalytic reactions in controlled gaseous environments.

96 q) (comprising both downstream transport and gaseous evasion) for the two main landscape components,

97 suggest that the interplay between stomatal gaseous exchange and photosynthesis is complex, and that

98 Stomata enable gaseous exchange between the interior of the leaf and th

99 The control of gaseous exchange between the leaf and external atmospher

100 ell types, fluid flow, nutrient profiles and gaseous exchange.

101 an affect photosynthesis, through changes in gaseous exchange.

102 , massive stars (the S stars(3)) and various gaseous features(4,5).

103 le gas and renewable resources to obtain the gaseous feedstock.

104 ling pathways, in interaction with the other gaseous flooding signals.

105 strategy for turbulent natural convection of gaseous fluids may not be equally well suited for simula

106 ental conditions add a temporal dimension to gaseous fluxes between the leaf and atmosphere.

107 hemical process may produce a few Tg/year of gaseous formic acid, the amount comparable to its primar

108 The nature of the gaseous fuel reservoirs that power black hole growth is

109 The environmental benefits of cleaner, gaseous fuels such as natural gas and hydrogen are widel

110 iable generation and detection of biomimetic gaseous gradients in vitro is challenging due to low spa

111 rence between the chemical potentials of the gaseous growth species and the species bound to the nano

112 liquids, this material also encapsulates non-gaseous guests-shape and size selectivity was observed f

113 electricity while bypassing the formation of gaseous H(2).

114 ntaining product of the reaction, along with gaseous H(2).

115 Gaseous H(2)O(2) levels decreased rapidly and irreversib

116 Mixing ratios of up to 610 ppbv gaseous H(2)O(2) were observed following cleaning, order

117 ironmental conditions of increased levels of gaseous H2S and the concrete type.

118 Gaseous HCl as a by-product is often produced from chlor

119 A gaseous HCl electrolysis with Fe(3+) /Fe(2+) redox-media

120 Tundra uptake of gaseous Hg(0) leads to high soil Hg concentrations, with

121 atmosphere, the accurate characterization of gaseous (highly) oxygenated organic compounds remains ch

122 nced by 1-4 orders of magnitude from that of gaseous HNO(3), with HONO and NO(2) as the main products

123 to 3 orders of magnitude higher than that of gaseous HNO3.

124 the chlorination chemistry that occurs when gaseous HOCl reacts with thin films of squalene and olei

125 ces promote the release of nitrite formed as gaseous HONO.

126 al is demonstrated to selectively adsorb the gaseous hydrocarbons ethane, ethylene, acetylene, propan

127 Direct activation of gaseous hydrocarbons remains a major challenge for the c

128 Bacterial production of gaseous hydrocarbons such as ethylene and methane affect

129 production of higher molecular weight (C2+) gaseous hydrocarbons, (iii) patterns of (13)C enrichment

130 table cyclohexa-1,4-diene-based surrogate of gaseous hydrogen iodide are described.

131 efficacy of sterilization processes applying gaseous hydrogen peroxide (H2O2).

132 r and evaluate the sterilization efficacy of gaseous hydrogen peroxide in aseptic filling machines.

133 or platform for the in situ determination of gaseous hydrogen sulfide, employing a 470 nm light emitt

134 indoor environments leads to the emission of gaseous hypochlorous acid (HOCl) and chlorine (Cl(2)), b

135 een performed to understand the influence of gaseous impurities in CO(2) electroreduction.

136 We report elevated levels of gaseous inorganic chlorinated and nitrogenated compounds

137 Here we report the observation of single gaseous ion adsorption on individual carbon nanotubes (C

138 o date, there have been no reports on single gaseous ion interaction with microelectronic devices, an

139 The net charge for a gaseous ion is easily identified by mass spectrometry, b

140 of novel ionic assemblies using well-defined gaseous ions as building blocks.

141 uid chromatography that can rapidly separate gaseous ions prior to detection by mass spectrometry.

142 eloped to reduce the average charge state of gaseous ions; however, all of these techniques have been

143 To clarify the mechanism of gaseous ligand recognition and signaling, we investigate

144 heme sliding mechanism to achieve binding of gaseous ligands through coordination to the heme iron.

145 erized that reveals an alternate pathway for gaseous ligands.

146 stem to subtle differences in the binding of gaseous ligands.

147 addition to the swirlonic state, we observe gaseous, liquid and solid states, depending on the inter

148 Acoustic levitation in gaseous media provides a tool to process solid and liqui

149 ndatory to obtain reliable analyses of humid gaseous media such as ambient air and exhaled breath.

150 sing of volatile organic compounds (VOCs) in gaseous media.

151 e used for sizing nanoparticles suspended in gaseous media.

152 nt mercury (Hg(II)(i)) to volatile dissolved gaseous mercury (Hg(0)((aq))) and toxic methylmercury (M

153 However, nitric oxide (NO), a gaseous messenger produced in this nucleus during isoton

154 Nitric oxide (NO) is a ubiquitous gaseous messenger, but we know little about its early ev

155 Cs can be controlled by nitric oxide (NO), a gaseous messenger.

156 including adipocytokines, microvesicles and gaseous messengers, with a wide range of endocrine and p

157 but from a circulation-induced enrichment of gaseous methane a few kilometres above Pluto's plains th

158 liquid droplets capable of vaporization into gaseous microbubbles for imaging or therapy.

159 n single supported Pd atoms are exposed to a gaseous mixture of CO + O2.

160 heme oxygenase-2 (HO-2), which generates the gaseous molecule carbon monoxide (CO), exhibit sleep apn

161 d eukaryotes alike endogenously generate the gaseous molecule hydrogen sulfide (H(2)S).

162 We identified the gaseous molecule hydrogen sulfide (H2S) as the major eff

163 s for use as tools to study the role of this gaseous molecule in complex biological systems.

164 peded by the dearth of tools to deliver this gaseous molecule in situ to specific cells.

165 anic CO prodrugs that allow for packing this gaseous molecule into a dosage form for the goal of "car

166 fide (H2S) is a biologically important small gaseous molecule that exhibits promising protective effe

167 Hydrogen sulfide (H(2) S) is a gaseous molecule that has received attention for its rol

168 en sulfide (H2S) is an endogenously produced gaseous molecule with important roles in cellular signal

169 Because gaseous molecules are important determinants of CB activ

170 t can influence the microbiome through these gaseous molecules as well in a reciprocal manner.

171 nediamine (EDA) can effectively retain small gaseous molecules at room temperature.

172 diverse range of metabolites, which include gaseous molecules such as H(2), CO(2), NH(3), CH(4), NO,

173 in scaffold may modulate the access of small gaseous molecules to enzyme-bound substrates.

174 Among these gaseous molecules, NO, H(2)S, and CO occupy a special pl

175 Discovery of the production of gaseous molecules, such as nitric oxide and hydrogen sul

176 exhibits a striking reactivity toward small gaseous molecules.

177 acid and by relevant proteins and signalling gaseous molecules.

178 n of water bodies, and emissions of reactive gaseous N forms into the atmosphere.

179 joint effects of elevated plant N demand and gaseous N loss.

180 ed mostly N(2); N(2)O was around 2% of total gaseous N(2) + N(2)O.

181 alkenyl and aryl amines in high yields with gaseous N(2) and CO(2) as the only byproducts.

182 le the crystals of 1a delaminate and release gaseous N(2) indiscriminately under paraffin oil, the cr

183 Gaseous N2O and N2 effluxes, dissolved N2O flux, and tra

184 ic (PA) setups for the online-measurement of gaseous N2O, employing semiconductor lasers at 2.9 and 4

185 -state materials is limited by the inert and gaseous nature of N(2).

186 ifficult postreaction separations, given the gaseous nature of the resulting carbon dioxide byproduct

187 Dissolution of gaseous NH3 in MP medium maintained neutral pH in the MP

188 two orders of magnitude greater than that of gaseous nitric acid, with nitrous acid as the main produ

189 Philanthus triangulum, emit large amounts of gaseous nitric oxide (NO(.)) to protect themselves and t

190 Little is known about the exchange of gaseous nitrogen (N(2)) with the atmosphere in freshwate

191 ch are estimated to account for 30% of total gaseous nitrogen emissions on Earth.

192 The sources and chemistry of gaseous nitrous acid (HONO) in the environment are of gr

193 vel NOx recycling route reproduces levels of gaseous nitrous acid, NO, and NO2 within the model and m

194 midacloprid (DN-IMD, 16% yield) product, and gaseous nitrous oxide (N2O).

195 ctor and a NO(x) analyzer, the production of gaseous NO/NO(2) was demonstrated during irradiation (30

196 In addition to gaseous NO/NO(2), nitrite and nitrate were also detected

197 NC, PM10, PMcoarse, PM2.5, and PM2.5abs) and gaseous (NOx, NO2) pollutants were positively associated

198 rs and exhibits minimal mobility unlike free gaseous O(2), making it more characteristic of a solid-l

199 Its origin was ascribed to primordial gaseous O2 incorporated into the nucleus during the come

200 eoxidize the reduced metal centers while the gaseous O2 reactant replenishes these lattice oxygen vac

201 of conditions results in unusually abundant gaseous octamer clusters that exhibit significant homoch

202 tegy to overcome this hurdle by avoiding the gaseous or liquid phase, and directly converting glass i

203 in-based devices devoted to the detection of gaseous or liquid samples, according to the correspondin

204 Many gaseous organic molecules, however, have been observed;

205 the major global sources of particulate and gaseous organic pollutants.

206 The uptake of gaseous organic species by atmospheric particles can be

207 The formation of gaseous oxidation products and secondary organic aerosol

208 c concentrations of gaseous elemental (GEM), gaseous oxidized (GOM), and particle bound (PBM) Hg meas

209 od for measurement of reactive mercury (RM = gaseous oxidized and particulate bound Hg), was tested.

210 ed as the sum of particle bound Hg (PBM) and gaseous oxidized Hg (GOM).

211 reactive mercury (RM), defined as the sum of gaseous oxidized mercury (GOM) and <3 mum particulate bo

212 Gaseous oxidized mercury (GOM) measurement uncertainties

213 nvestigated whether pancreas preservation by gaseous oxygen perfusion (persufflation) better preserve

214 Experiments probing the dissolved and gaseous oxygen with primary producers and bacteria toget

215 The effect of gaseous ozone (500-1000 ppm) treatment on the protein, a

216 Concentrations of gaseous ozone and nitrogen oxides were determined with F

217 ect of treatment of whole pepper fruits with gaseous ozone and the refrigeration storage period condi

218 hin the limitations of this DM animal study, gaseous ozone application accelerates xenograft resorpti

219 Multiphase reaction kinetics at gaseous ozone concentrations of 131, 480, and 965 parts-

220 Gaseous ozone has been recently proposed as sanitizing a

221 lly and immunohistochemically, the effect of gaseous ozone on bone healing in diabetic rat calvarial

222 Gaseous ozone was applied on the operation day and daily

223 il are responsible for triggering of the new gaseous phase and light to intermediate oil components c

224 The new gaseous phase doesn't form for oils that have an infinit

225 Various studies demonstrated new gaseous phase formation and oil swelling and viscosity r

226 by carbonated water injection (CWI) with new gaseous phase formation being the major recovery mechani

227 he oil liberates, which leads to in-situ new gaseous phase formation.

228 redicted equilibrium composition in the bulk gaseous phase to that expected in the presence of confin

229 t of the oil and oil composition, on the new gaseous phase.

230 on the saturation and growth rate of the new gaseous phase.

231 are responsible for the formation of the new gaseous phase.

232 ation in aqueous environments as well as the gaseous phase.

233 onents control the further growth of the new gaseous phase.

234 ection of trimethylamine both in aqueous and gaseous phases has been accomplished using an inexpensiv

235 the interface between solid/liquid or solid/gaseous phases of matter lie at the heart of key industr

236 distribution of label in soil, aqueous, and gaseous phases.

237 Ethylene is a gaseous phytohormone and the first of this hormone class

238 The gaseous phytohormone ethylene plays an important role in

239 Ethylene is a gaseous plant hormone perceived by a family of receptors

240 is demonstrated that direct exposure to the gaseous plasma effluent exhibited superior decontaminati

241 Tests were performed using both direct gaseous plasma treatment and an indirect treatment using

242 gative permeability metamaterial immersed in gaseous plasma.

243 emissions, we present the identification of gaseous plumes with high spatial and temporal granularit

244 This study reports on the results of gaseous pollutants emission measurements of double-decke

245 Associations were robust to adjustment for gaseous pollutants other than nitrogen dioxide and sulfu

246 [Formula: see text] ([Formula: see text]) or gaseous pollutants.

247 tion of particulate matter and absorption of gaseous pollutants.

248 high concentrations of aerosols, as well as gaseous pollutants.

249 remained similar after adjustment for PM and gaseous pollutants.

250 n addition to on-line analysis, abundance of gaseous precursors and reaction products were monitored

251 ilms that does not require high temperature, gaseous precursors, or complex apparatus.

252 oduction, and silicon electrodeposition from gaseous precursors.

253 n is due to internal pressure exerted by the gaseous product in the crystal lattices of these materia

254 Nanoliters of gaseous products are released to the surrounding oil mat

255 al decomposition, identification of the main gaseous products evolved and intermediate compounds form

256 and a carboxylic acid) were detected as the gaseous products released during the thermal exposure of

257 or require collection and quantification of gaseous products.

258 of contaminant degradation and generation of gaseous products.

259 all represent viable pathways for generating gaseous protein ions during ESI.

260 important consequences for efforts to model gaseous proteins via computational analysis, which shoul

261 Off-line methods for analysis of gaseous reduced sulfur compounds can suffer from a varie

262 ile in that they enable direct ionization of gaseous samples as well as desorption/ionization of anal

263 n electrodes (SPCE) suitable for analyses in gaseous samples which are of course lacking in supportin

264 sections (Omega) with values calculated for gaseous (SapA dimer + 26POPC)(8+), (SapA trimer + 33POPC

265 Gaseous second messengers establish a functional ellipso

266 Lake Ontario near Toronto (18 pg/L), whereas gaseous Sigma12BDE was greatest on the southern shorelin

267 es evidence that physiological levels of the gaseous signal molecule NO can rapidly and reversibly in

268 ne cross-talk includes a dynamic exchange of gaseous signaling mediators generated by bacterial and i

269 The gaseous signaling molecule carbon monoxide (CO) has rece

270 H(2) S is a gaseous signaling molecule that modifies cysteine residu

271 Nitric oxide (NO) is a gaseous signaling molecule that plays an important role

272 Hydrogen sulfide (H(2)S) is a gaseous signaling molecule, which modulates a wide range

273 Gaseous signaling molecules that diffuse in three dimens

274 In the past decades three gaseous signaling molecules-so-called gasotransmitters-h

275 lts reveal the biological link between three gaseous signals for the regulation of flooding survival

276 sensors allow the evaluation of aqueous and gaseous solutions from real-time measurements of molecul

277 of HH waveforms that cannot be accessed with gaseous sources.

278 nables the detection of reactive volatile or gaseous species at high operating current densities (>10

279 t accurately measuring low concentrations of gaseous species formed from the oxidation of alpha-pinen

280 ls for ion/molecular transport and pores for gaseous species, solids, and liquids to coexist.

281 lative uncertainties specified to date for a gaseous SRM produced by NIST.

282 However, the gaseous state of CO(2) does render the indefinite storag

283 So, one can study a sample (in condensed or gaseous state) during a physical or chemical transformat

284 in their journey from bulk solution into the gaseous state.

285 in contrast to molecular systems, liquid and gaseous states of active matter do not coexist.

286 Gaseous streams in biorefineries have been undervalued a

287 especially when used as detector for FIA in gaseous streams.

288 The dominant gaseous structure in the Galactic halo is the Magellanic

289 ew kind of test strip for rapid detection of gaseous sulfur mustard that is based on its degradation

290 n of various carboxylic acids by exposure to gaseous sulfur tetrafluoride.

291 If the formed products are gaseous, then the usual way of quantifying them is the u

292 Recently, key studies have shown that gaseous therapies based mainly on nitric oxide (NO), car

293 e (CBS) and subsequent overproduction of the gaseous transmitter hydrogen sulfide (H(2)S).

294 NO also acts as a gaseous transmitter in a variety of biological processes

295 xclusively use components that are typically gaseous under standard conditions show a wide potential

296 ssibly by absorbing chemical species such as gaseous vanadium oxide and titanium oxide.

297 sulation since the existence of high-density gaseous voids breaks the continuity of heat-transport pa

298 s on summarizing the strategies for creating gaseous voids in solid materials and thus synthesizing v

299 power plants (CFPPs) via solid, liquid, and gaseous waste streams.

300 loped and demonstrated in bulk liquid or dry gaseous xenon.