ライフサイエンスコーパス: vapor phase

1 e, cytidine deaminase remains dimeric in the vapor phase.

2 ompact and unfolded cytochrome c ions in the vapor phase.

3 s change to the analyte concentration in the vapor phase.

4 response to the analyte concentration in the vapor phase.

5 ature and concentration of an analyte in the vapor phase.

6 romoting components of ETS may reside in the vapor phase.

7 molecular hydrogen (H-) bonds and enters the vapor phase.

8 ased explosives, or their precursors, in the vapor phase.

9 tions and controlled precursor ratios in the vapor phase.

10 er water is present, either in the liquid or vapor phase.

11 th the color change of P2 in solution and in vapor phase.

12 iscrimination among aldehydes and ketones in vapor phase.

13 els when samples were exposed to BITC in the vapor phase.

14 oal, may be preferentially released into the vapor phase.

15 te explosives in order to detect them in the vapor phase.

16 TN similarly introduced from solution or the vapor phase.

17 ounts of RDX introduced from solution or the vapor phase.

18 o well-ordered films when deposited from the vapor phase.

19 terfacial instability between the liquid and vapor phases.

20 moval) on Se removal in both particulate and vapor phases.

21 amplifying the mercury concentration in the vapor phase above the FGD scrubber suspension.

22 ntrast in specific volume between liquid and vapor phases, also leads to the onset of unwanted vapor

23 The design and optimization of a vapor-phase analyte deposition method for limit of detec

24 The vapor-phase analyte is produced through a reactive olfac

25 the gas regions contain trace quantities of vapor-phase analyte, thereby controlling and optimizing

26 strategy for detection and discrimination of vapor phase analytes utilizing the QCM.

27 ntinuous, real-time monitoring of particular vapor-phase analytes at concentrations of 1 ppb.

28 method to a wide variety of analytes in the vapor phase and aqueous solution by incorporation of fun

29 This is the first report of vapor phase and diffusive flux of both PAHs and OPAHs du

30 This is the first report of vapor phase and flux of both PAHs and OPAHs during the D

31 (6)H(6)/C(6)H(12) and C(6)H(10)/C(6)H(12) in vapor phase and highest binary and ternary selectivities

32 that analytes partition directly between the vapor phase and the SPME fiber.

33 2) were exposed to cigarette whole smoke and vapor phase and to aerosol from ENDS.

34 In addition, nanotube growth both by vapor-phase and solid-phase mechanisms is described.

35 ornenone has been probed under complementary vapor-phase and solution-phase conditions to assess the

36 owed by capping with acetic anhydride in the vapor phase, and then capping with succinic anhydride in

37 Postsynthetic vapor-phase anion exchange in the ferromagnetic two-dime

38 y gases, implying defense capability against vapor-phase antimicrobials as well.

39 hen specific compounds are dominantly in the vapor phase, are dominantly in the particle phase, or ha

40 ing water-methanol composition, and a helium vapor phase as reference state.

41 of the inhibitory complex kinetically in the vapor phase, as no additional dimeric complexes (other t

42 methylpyridine or each cyanopyridine in the vapor phase at 254 nm results in the formation of the ot

43 n upon S0 --> S2 (pi, pi*) excitation in the vapor phase at 254 nm.

44 can detect a multitude of explosives in the vapor phase at the parts-per-trillion (ppt) level.

45 We analyzed the vapor phase atmospheric concentrations of representative

46 The vapor phase between the melittin dimers occupies a much

47 as a CO2-rich liquid in equilibrium with the vapor phase, but condensed on the column wall, can act a

48 (2)(GaMes)](+) can be identified only in the vapor phase by electrospray mass spectrometry experiment

49 ly effective vehicle for the low-temperature vapor-phase carbonylation of methanol by insertion of CO

50 Each rat was exposed to 106 mug/m(3) vapor-phase CB11 for 2 h and received an estimated dose

51 Recent developments of liquid-vapor phase change systems have substantially advanced t

52 inspired by new insights gained from liquid-vapor phase change systems.

53 ilar dynamic behaviors to them in the liquid-vapor phase change.

54 arch examines the feasibility of identifying vapor-phase chemicals using a field-portable ATR-FT-IR s

55 er with SPME sampling to detect and identify vapor-phase chemicals.

56 e is a thermodynamic correlation between the vapor phase chemistry and carbon potential at grain boun

57 In general, the loss rates of vapor phase chlorinated pesticides have slowed by about

58 Spontaneous assembly of amino acids into vapor-phase clusters occurs on heating the solid compoun

59 as preconcentration technique, injecting the vapor phase collected in a GC/FID.

60 processes while minimizing interference from vapor-phase collisions.

61 achieved through thermal evaporation onto a vapor-phase compatible ionic liquid based on deep eutect

62 wo ETS components on plaque development: the vapor phase component, 1,3 butadiene, and the tar compon

63 ct in vivo support, tar fraction rather than vapor phase compounds are considered largely responsible

64 oethylene (PCE) at and below its equilibrium vapor-phase concentration, 168 000 microg/L (25 degrees

65 um partitioning models that may overestimate vapor phase concentrations up to 2 orders of magnitude.

66 For example, BDE-47 vapor phase concentrations were increasing with doubling

67 copy is further used to correlate the global vapor phase conditions and the boundary defect types.

68 ccurring at the interface between liquid and vapor phases contributes significantly to the dynamics a

69 silica (mostly cristobalite) was produced by vapor-phase crystallization and devitrification in the a

70 PLGA microparticles to semi-solvents in the vapor phase demonstrated significant advantages over usi

71 GaSe crystals on SiO2/Si substrates using a vapor phase deposition method.

72 how that an AP-mica surface can be formed by vapor phase deposition of silane and that this surface c

73 (P-HFDS) using a highly scalable atmospheric vapor phase deposition technique.

74 cursors for generating films of heptacene by vapor phase deposition that can be studied below or at r

75 film deposition (atomic layer deposition and vapor phase deposition), and medicinal applications.

76 own to be appropriate for either solution or vapor phase deposition.

77 Organic vapor-phase deposition (OVPD) is used to grow tetrapheny

78 ed to be a direct product of impact-induced, vapor-phase deposition in the lunar soil, all part of sp

79 Through a controllable vapor-phase deposition method, bilayer GaSe crystals wer

80 A vapor-phase deposition polymerization technique was adap

81 Organic-inorganic films grown entirely via a vapor-phase deposition process and composed of highly po

82 d easily accessible compared to conventional vapor-phase deposition, and the particle size and struct

83 eries of experiments demonstrating real-time vapor phase detection of cocaine molecules.

84 dified muCF electrodes allow straightforward vapor-phase detection and discrimination of multiple nit

85 pb, we prepared easy test strips for on-site vapor-phase detection of nerve agents.

86 ochemical biosensors have been developed for vapor-phase detection of organophosphorus (OP) nerve age

87 osols is a significant challenge for current vapor phase detectors.

88 was crystallized in detergent micelles using vapor-phase diffusion.

89 lk liquid and the solid substrate across the vapor phase drives film collapse.

90 differentiation and exsolution of a magmatic vapor phase during their crystallization in a ligand-ric

91 MIEC polymers are prepared through chemical, vapor-phase, electrochemical, or enzymatic polymerizatio

92 Co, Ni, Cu, Zn, and H(2)) chemiresistors to vapor phase electron donors were examined using 50 nm MP

93 Particulate and vapor phase emissions in the diluted exhaust of a light-

94 A binary vapor phase enriched in helium can act as the mobile pha

95 centration of carbon in GaN grown by hydride vapor phase epitaxy (HVPE).

96 High-temperature vapor phase epitaxy (VPE) has been proved ubiquitously p

97 s in high-purity GaN layers grown by hydride vapor phase epitaxy are studied by steady-state and time

98 PL intensity in undoped GaN grown by hydride vapor phase epitaxy increases linearly with the concentr

99 We demonstrate this for organo-metallic vapor phase epitaxy of (0001) GaN.

100 exceeding 300 um h(-1) using dynamic hydride vapor phase epitaxy.

101 However, the established principles of vapor-phase epitaxy cannot be directly applied to soluti

102 ct with a reservoir (for example, liquid- or vapor-phase epitaxy).

103 Specific differences in vapor phase equilibrium behavior in NOM above and below

104 es, given the lack of a supercritical liquid-vapor phase equilibrium in pure fluids.

105 to ethanol by distinguishing liquid-phase or vapor-phase ethanol (C2H6O) from water (H2O) intelligent

106 the GN/BCN sensor has 12400% sensitivity for vapor-phase ethanol compared to the pure GN sensor, whic

107 xamined over Ga/H-MFI catalysts prepared via vapor-phase exchange of H-MFI with GaCl(3).

108 n contrast, free-OH groups sticking into the vapor phase exhibit substantially slower vibrational dyn

109 e now provide a detailed description of this vapor phase extraction technique and use pathogen infect

110 oducible quantification of both compounds by vapor-phase extraction and gas chromatography-positive i

111 report a scalable stabilization method using vapor-phase fluoride treatment, which achieves 18.1%-eff

112 Devices are readily fabricated from single vapor-phase grown crystals and exhibit reversible 8-fold

113 ercome and future research directions in the vapor-phase growth of 2D TMDs for heterojunction devices

114 verview of recent developments in controlled vapor-phase growth of 2D transition metal dichalcogenide

115 orthosilicate within the NU-1000 pores via a vapor-phase HCl treatment, a silica layer is created on

116 Chemically linking the films with vapor-phase hexanedithiol greatly improves their stabili

117 ividual CNTs can locally enhance the rate of vapor-phase HF etching of SiO2 to produce a SiO2 trench

118 BFD as well as to investigate the release of vapor phase Hg from storing and processing BFD-added cem

119 In this review, we focus on the vapor phase, highlighting the most influential achieveme

120 To reactivate spent CaO, vapor phase hydration is typically performed.

121 Here, we show that the vapor phase hydration of CaO formed after calcination of

122 the deposition of a carbonaceous film from a vapor-phase hydrocarbon precursor.

123 ZrO2 nanoparticles were synthesized by a vapor-phase hydrolysis process, and characterized in ter

124 apacitance of well-prepared RuO2 .xH2 O by a vapor-phase hydrothermal method as the active material.

125 in sublimating alpha-H2CO3 and trapping the vapor phase in a noble gas matrix, which was analyzed by

126 gano EOs and carvacrol were effective in the vapor phase in inhibiting the growth of L. grayi as well

127 essure refers to the pressure exerted by the vapor phase in thermodynamic equilibrium with either its

128 old electrodes using polymerization from the vapor-phase in which the surface is first covered with a

129 udy was performed in both direct contact and vapor phase, in order to check the use of BITC as active

130 a unique ALD precursor, and multiple pulsed vapor phase infiltration (MPI) using DEZ and water as pr

131 sites on metal-organic frameworks (MOFs) by vapor-phase infiltration (VPI) was developed.

132 templating of DNA frameworks by liquid- and vapor-phase infiltrations, we demonstrate successful nan

133 ospray ionization is widely used to generate vapor phase ions for analysis by mass spectrometry in pr

134 e presence of the droplet as compared to the vapor phase is rationalized in terms of specific interac

135 itions, and do not consider chemicals in the vapor phase, known to elicit adverse effects.

136 , a new approach is implemented to limit the vapor phase lateral expansion over the heat transfer sur

137 We demonstrate vapor-phase, layer-by-layer heteroepitaxial growth exemp

138 Vapor phase ligand treatment (VPLT) of 2-aminobenzimidaz

139 mponent column breakthrough measurements and vapor-phase/liquid-phase adsorption experiments have dem

140 xide employing two different ALD approaches: vapor phase metalation (VPM) using diethylzinc (Zn(C(2)H

141 ymerization of polyethylene terephthalate by vapor phase methanolysis at relatively low temperatures.

142 ome this limitation, we used a solvent-free, vapor-phase modification strategy to generate hydrophobi

143 Soluble and/or vapor-phase molecules have been proposed.

144 Using the enantiomeric excess (ee %) of the vapor-phase monomer as the input, the model output match

145 Through vapor-phase monomer introduction onto polydopamine-modif

146 CVD) polymerization utilizes the delivery of vapor-phase monomers to form chemically well-defined pol

147 re, we present a broad review of progress in vapor-phase nanomaterial synthesis.

148 ted the transport process and mechanism of a vapor-phase nerve agent simulant, dimethyl methyl phosph

149 ater only passes through the membrane in the vapor phase, nonvolatile sulfate and heavy metals are re

150 ecrease in total PCB mass accumulated in the vapor phase of bioaugmented treatments relative to non-b

151 lthough TAG was not designed to quantify the vapor phase of semivolatile organics, TAG measurements d

152 effects are due to volatile compounds in the vapor phase of smoke.

153 ully wettable substrates in contact with the vapor phase of the liquid.

154 e, below which it is possible to sustain the vapor phase of water and/or trapped gases in roughness v

155 evidence that heat flows through liquid and vapor phases of cryogenic helium from the constantly hea

156 methods - ethanol-based, methanol-based, and vapor-phase - on an Optical Cavity-based Biosensor (OCB)

157 ll was used to deposit benzenethiol from the vapor phase onto SERS-active Ag thin films, as the contr

158 Consideration of indoor air quality and vapor-phase PAHs could inform public health recommendati

159 and noncancer inhalation risk estimates from vapor-phase PAHs were higher indoors than outdoors, rega

160 ter wildfires to determine diffusive flux of vapor-phase parent (p-PAH) and alkylated (a-PAH) PAHs in

161 etrical log-normal distribution, typical for vapor-phase particle growth.

162 gue-Dawley rats were concurrently exposed to vapor-phase PCBs (533 +/- 93 mug/m(3)) generated from PC

163 hese observations suggest that inhalation of vapor-phase PCBs is an important route of exposure.

164 The loss rates of vapor phase polychlorinated biphenyls became more rapid

165 Vapor-phase polycyclic aromatic hydrocarbons (PAHs) are

166 We investigated vapor-phase polycyclic aromatic hydrocarbons (PAHs) in i

167 In addition, the vapor phase polymerization process is substrate independ

168 Here, we use a vapor phase polymerization process to sequentially depos

169 scribed 'stuffing' method to entrap RFN into vapor phase polymerized poly(3,4-ethylenedioxythiophene)

170 , we significantly expand upon the number of vapor-phase postmodification processes reported to date

171 This vapor-phase process produced conjugated clusters and cha

172 Vapor-phase propylene (C(3)H(6)) epoxidation kinetics wi

173 The observed IRMPD spectrum of vapor-phase protonated parent matches well with that com

174 sizes organic thin films on a substrate from vapor phase reactants.

175 iCVD supplies vapor-phase reactants continuously, avoiding the critica

176 r centers in air-suspended nanotubes using a vapor-phase reaction.

177 This approach combines sol-gel coating with vapor-phase reactions and ligand insertion, enabling the

178 t the influence of the nanotube structure on vapor-phase reactivity and emission properties, providin

179 subtractive or additive approaches utilizing vapor-phase reagents.

180 e median of 35 +/- 3, which is more than for vapor-phase samples (27 +/- 3) or particle-phase samples

181 omobenzene flame retardants were measured in vapor-phase samples collected at five sites, all near th

182 I, CI, and traditional (63)Ni ionization) of vapor-phase samples, two modes of sample volatilization

183 module permits selection of liquid-phase or vapor-phase sampling by setting the valve-cylinder orien

184 Vapor-phase saturation of HGO with nine selected organic

185 esolved DRIFTS/MS/XAS cycling studies of the vapor-phase selective aerobic oxidation of crotyl alcoho

186 Two isomers of the vapor-phase serine octamer are generated, the minor one

187 guard cell and partly by the existence of a vapor-phase signal that originates in the mesophyll and

188 This vapor-phase single Fe atom transport mechanism is verifi

189 Our approach collects and maintains vapor-phase smoke in a gas sampling bag, where it is hom

190 nt nonflammable fuel, (b) generate flammable vapor phase species electrochemically by applying a dire

191 r, a brief exposure in vivo to an odorant in vapor phase stimulated CRE-mediated gene transcription i

192 Vapor phase sum PAH and OPAH concentrations ranged betwe

193 Vapor phase sum PAH and OPAH concentrations ranged betwe

194 0 degrees C in air; and (2) high temperature vapor phase synthesis (atom trapping-AT) with calcinatio

195 We use a controllable vapor phase synthesis method using MoSe(2) powder as the

196 rmal plasma processing; and chemically-based vapor-phase synthesis methods including chemical vapor c

197 We describe physically-based vapor-phase synthesis methods including inert gas conden

198 Vapor-phase synthesis of nanomaterials has numerous adva

199 In contrast to vapor-phase synthetic routes, the supercritical solvent

200 Vapor phase TDI was found to react with human albumin in

201 This developer-free, all-vapor phase technique will facilitate the incorporation

202 e the selective detection of ammonia using a vapor phase thermodynamic sensing platform capable of be

203 ed probe molecules, rather than those in the vapor phase, this "NMR-relaxorption" technique provides

204 Experimental transfer data (vapor phase to aqueous) for amides give the enthalpy of

205 med under conditions that allowed an H2-rich vapor phase to form, suggesting that shallow serpentiniz

206 the glycine and alanine side chains from the vapor phase to water so that the unfolded alanine- and g

207 , dielectric- or electrolyte-free, bias-free vapor-phase top-gate that can efficiently modulate carri

208 ) to study computationally flows with liquid-vapor phase transformations.

209 copic manifestation of the underlying liquid-vapor phase transition can be readily manipulated by bio

210 We demonstrate our approach on the liquid-vapor phase transition in superheated water, the unfoldi

211 ratio and latent heat released during liquid/vapor phase transition.

212 emimetal has been grown successfully using a vapor phase transport method.

213 The thermal stabilities and vapor phase transport properties of these new complexes

214 of such large nanographene molecules using a vapor-phase transport (VPT) technique based on molecule

215 ilization of VOCs, but also demonstrate that vapor-phase transport in wetland plants is significant,

216 urface passivation layers on silicon using a vapor-phase treatment is demonstrated.

217 Vapor-phase treatment of ZIF-8 membranes with manganese(

218 equilibrium sorption/desorption behaviors of vapor phase trichloroethylene (TCE) is presented.

219 tively detect trace levels of ammonia in the vapor phase using a single catalyst.

220 mophores, designed to self-organize from the vapor phase via directed hydrogen-bond networks, into ac

221 c headspace (HS) system was used to generate vapor-phase volatile organic compounds (VOCs) from a pig

222 ns (benzene, cyclohexane) both in liquid and vapor phases was thoroughly investigated for all compoun

223 e moving interface between the condensed and vapor phases, we determined the vaporization coefficient

224 rine monomer as the principal species in the vapor phase, with a significant enantiomeric enrichment