ライフサイエンスコーパス: vaporization

1 d to a minor resurgence in interest in laser vaporization.

2 h powers to cause large volumes of prostatic vaporization.

3 the prostate to cause either coagulation or vaporization.

4 , including those not accessible by graphite vaporization.

5 are remarkably similar for the two modes of vaporization.

6 and temperature and to determine the heat of vaporization.

7 ing gas-phase ions that employs direct laser vaporization.

8 esults in material removal via rapid surface vaporization.

9 uality of the SiC substrates influence their vaporization.

10 is crucial as it can interfere with further vaporization.

11 trasound imaging through optically triggered vaporization.

12 her than those that require reagent molecule vaporization.

13 produced in a molecular beam by pulsed laser vaporization.

14 es derived from iridium data, assuming total vaporization and dissolution of osmium in seawater.

15 ns using a combination of UV ultrafast laser vaporization and Fourier-transform microwave (FT-MW) spe

16 The separation of the vaporization and ionization steps allows greater control

17 into a glow discharge source for subsequent vaporization and ionization.

18 um-ceria catalysts of <10 milliseconds.Rapid vaporization and mixing with air with an automotive fuel

19 oviding insight into the limiting factors to vaporization and release of fission products during the

20 ystem, Li3Al4(-), which we produced by laser vaporization and studied with the use of photoelectron s

21 produced in a molecular beam by pulsed laser vaporization and studied with vacuum ultraviolet (VUV) p

22 ) were produced in a molecular beam by laser vaporization and then mass-analyzed and size-selected in

23 s for other aerosol mass spectrometers using vaporization and/or ionization techniques with similar o

24 one that described the supply of analyte by vaporization, and another that described the removal of

25 surgical vaporization of the prostate, laser vaporization, and enucleation of the prostate to provide

26 logy by using electrospray additives, heated vaporization, and separate noncovalent and covalent bond

27 13) W/cm(2)), nonresonant, femtosecond laser vaporization at ambient pressure with electrospray ioniz

28 Critically, the formulation permits vaporization at rarefactional pressures relevant for cli

29 on in the liquid phase and the enthalpies of vaporization, at T = 298.15 K, determined experimentally

30 Femtosecond laser vaporization-based mass spectrometry can be used to meas

31 The results demonstrated a difference in vaporization behavior of the core-shell NPs and solution

32 A new process, Intensification of Vaporization by Decompression to the Vacuum (IVDV), is p

33 re resolved by exploiting differences in the vaporization characteristics of the elements.

34 nalysis and metabolomics for derivatization, vaporization, chromatography, and ionization, especially

35 smallest fullerene by use of a pulsed laser vaporization cluster source.

36 a higher rate, which is evidence of a higher vaporization coefficient for nanosized GeTe.

37 ondensed and vapor phases, we determined the vaporization coefficient of these nanowires to be greate

38 Nonresonant laser vaporization combined with high-resolution electrospray

39 The upper size limit for complete particle vaporization corresponds to a silica particle diameter o

40 Only a commensurate increase in analyte vaporization could account for maintained sensitivity at

41 Enthalpies of vaporization (DeltaH(vap)) accurately corrected K(PE-A)s

42 approximately 10(-7) atm and an enthalpy of vaporization (DeltaHvap,eff) of approximately 70 kJ/mol

43 ss spectrometry (ICPMS), diode laser thermal vaporization (DLTV) is described.

44 st that a shattering mechanism dominates the vaporization dynamics in these situations.

45 concert with factors that may influence the vaporization dynamics of individual aerosol particles, s

46 ested that slower sweep speed might increase vaporization efficiency.

47 een alkyl chains that have been derived from vaporization enthalpies and dispersion-corrected calcula

48 With the inclusion of this adjustment, vaporization enthalpies evaluated by correlation gas chr

49 The vaporization enthalpies of 16 polychlorinated biphenyls

50 s, octanol-water partition coefficients, and vaporization enthalpies of a nearly complete set of dies

51 The vaporization enthalpies of PCBs increased with the numbe

52 The present results are based on the vaporization enthalpies of several standards whose value

53 udy was prompted by the realization that the vaporization enthalpy of the standard compounds used in

54 latility, i.e. saturation vapor pressure and vaporization enthalpy, of the pure succinic and oxalic a

55 The coupling of an electrothermal vaporization (ETV) apparatus to an inductively coupled p

56 Solid sampling electrothermal vaporization (ETV) coupled to inductively coupled plasma

57 port on the interfacing of an electrothermal vaporization (ETV) sample introduction unit with a groun

58 ion on Earth and precursor bodies and report vaporization experiments under conditions of fixed tempe

59 Laser vaporization experiments using M-containing targets and

60 complexity of mass spectra that result from vaporization experiments which include non-fullerene clu

61 are compared to those obtained by CO2 laser vaporization followed by VUV laser ionization.

62 saturation concentrations and enthalpies of vaporization for each compound.

63 ce an exogenous contrast agent that utilizes vaporization for photoacoustic signal generation, provid

64 ows for the optimization of acoustic droplet vaporization for therapeutic applications, in particular

65 A combination of effects that include impact vaporization (from infalling material), volatile evapora

66 l-desorption system programmable-temperature vaporization gas chromatograph (TDS-PTV-GC) with a mu-EC

67 a bubbly dispersion, termed acoustic droplet vaporization, have not been well understood.

68 urgical periodontal therapy due to ablation, vaporization, hemostasis, and field sterilization.

69 ase environment of a molecular beam by laser vaporization in a pulsed nozzle cluster source.

70 During diffusion-controlled vaporization in a sand column, no significant carbon iso

71 CE) and combinations of these effects during vaporization in porous media.

72 hole coal samples by means of electrothermal vaporization inductively coupled plasma optical emission

73 ciation of sulfur in coals by electrothermal vaporization inductively coupled plasma optical emission

74 MAS) for F determination and electrothermal vaporization-inductively coupled plasma mass spectrometr

75 , using a chelation assay and electrothermal vaporization-inductively coupled plasma-mass spectrometr

76 broadening, using a programmable temperature vaporization injector in place of a rotary valve or back

77 ated as nanoscale liquid droplets capable of vaporization into gaseous microbubbles for imaging or th

78 These two techniques were coupled by a laser vaporization/ionization interface.

79 suggests that fiber-based femtosecond laser vaporization is a "soft" desorption source at a laser in

80 Bipolar plasma vaporization is a promising technology, but its use in a

81 Here we show that acoustic droplet vaporization is initiated by a combination of two phenom

82 The use of bipolar plasma vaporization is not well studied in an office setting.

83 gests that the primary mechanism of particle vaporization is related to direct plasma-particle intera

84 s spectrometer through a heated inlet, rapid vaporization leads to the formation of molecular ions.

85 into a specifically designed region, called "vaporization microchannel", before entering the high-vac

86 A fused silica liner, placed inside the vaporization microchannel, acts as an inert vaporization

87 ures, we calculated an effective enthalpy of vaporization of 117-237 kJ mol(-1).

88 s increase in its luminosity, is causing the vaporization of a collection of orbiting icy bodies-a pr

89 tic thermal events that resulted in complete vaporization of a dusty region of the solar nebula (dust

90 The C3 molecules were produced by laser vaporization of a graphite rod and cooled in a supersoni

91 Carbon clusters are produced by laser vaporization of a graphite target followed by supersonic

92 ere generated in the gas phase through laser vaporization of a metal target in the presence of a low

93 and Bi2 B(-) clusters are produced by laser vaporization of a mixed B/Bi target and characterized by

94 n/ionization analysis technique based on the vaporization of a nanostructure-trapped liquid "initiato

95 Cl, Br, I; n = 1-4), were produced by laser vaporization of a solid Fe/S target and electrospray fro

96 he saturation vapor pressure and enthalpy of vaporization of ammonium oxalate and adipate.

97 iii) release of up to 6,500 Pg C as CO2 from vaporization of carbonate rocks, wildfires, and soil car

98 Laser vaporization of dried standard protein samples from a gl

99 exposure in NHBE, and 125 miRNA affected by vaporization of eCig liquid.

100 pped inside an Ih-C80 cage by conducting the vaporization of graphite rods doped with copper(II) nitr

101 d from the raw soot obtained by electric arc vaporization of graphite rods packed with Sc2O3 and grap

102 arbon clusters, which were produced by laser vaporization of graphite, have been measured by direct-a

103 hair removal (LHR) causes heating and often vaporization of hairs, producing both a signature malodo

104 A model relying on the complete vaporization of ice particles in the laser filament and

105 The laser-induced plasma vaporization of individual silica microspheres in an aer

106 ), direct evaporation from the soil (Es) and vaporization of intercepted rainfall from vegetation (Ei

107 Vaporization of materials occurs in the hot nitrogen gas

108 the electrospray plume for nonresonant laser vaporization of oxycodone and atenolol desorbed from ste

109 ding the use of 532-ng laser photo-selective vaporization of prostate are scant but promising.

110 thermotherapy, 532-nm laser photo-selective vaporization of prostate, and bipolar plasma vaporizatio

111 vaporization of prostate, and bipolar plasma vaporization of prostate.

112 is that high CO(2) concentration reduces the vaporization of refractory oxides from combustion.

113 , differently from any previous attempt, the vaporization of solutes and mobile phase takes place at

114 anions in the gas phase, using electrospray vaporization of solutions of, respectively, the croconat

115 totally converted to MoS2 using pulsed laser vaporization of sulfur to form MoSe2/MoS2 heterojunction

116 e-shell NPs and solutions and indicated that vaporization of the Ag shell takes place prior to the Au

117 t of alternative surgical procedures such as vaporization of the prostate and most recently use of bi

118 Early forms of laser vaporization of the prostate are not as effective as eit

119 Vaporization of the prostate can be achieved using eithe

120 We reviewed articles on all forms of vaporization of the prostate published in the 12 months

121 lmium laser enucleation of the prostate, and vaporization of the prostate with bipolar electrosurgica

122 ng bladder outlet procedures, photoselective vaporization of the prostate, Holmium laser enucleation

123 Topics discussed include transurethral vaporization of the prostate, laser prostatectomy, preop

124 Some have found bipolar electrosurgical vaporization of the prostate, laser vaporization, and en

125 Vaporization of the solid amino acid by laser ablation i

126 ueous medium on a similar timescale, causing vaporization of the surrounding water and generation of

127 were used to estimate OA consequences of (i) vaporization of up to 60 x 10(15) mol of sulfur from gyp

128 Vaporization of, and/or the presence of nicotine in, eCi

129 We argue that melting and vaporization on precursor bodies and possibly during the

130 The standard molar enthalpies of vaporization or sublimation (for 4-fluorobenzonitrile),

131 d nanotubes (SWNTs) produced by plasma laser vaporization (PLV) and containing oxidized surface funct

132 Earth is consistent with partial melting and vaporization rather than with simple accretion of a vola

133 where the sample is totally vaporized (total vaporization SPME or TV-SPME) so that analytes partition

134 rd complete elemental spectra throughout the vaporization stage of the ETV temperature cycle; a solut

135 n is greater than that observed with thermal vaporization, suggesting that the internal energy impart

136 doped-boron clusters are produced in a laser-vaporization supersonic molecular beam and characterized

137 vaporization microchannel, acts as an inert vaporization surface speeding up the gas-phase conversio

138 Whether any vaporization technique will stand the test of time is un

139 Vaporization techniques have been around for almost a de

140 Early laser vaporization techniques have high retreatment rates, whi

141 typically require stringent high-temperature vaporization techniques, along with the careful removal

142 Through careful optimization of vaporization temperature and nebulizer gas pressure it w

143 nd has a lower heat capacity and enthalpy of vaporization than water.

144 apid and yields vapor pressures and heats of vaporization that are in good agreement with literature

145 At the final stage of the nanowire vaporization, the material loss occurs at a higher rate,

146 t and affordable laser for femtosecond laser vaporization to deliver biological macromolecules into t

147 developed so far involve arc discharge, and vaporization using laser, pyrolysis and chemical vapour

148 Overall, analyte vaporization was not dramatically improved at reduced wo

149 Heats of vaporization were determined and allow gas-phase heats o

150 vantage of Mo is its higher specific heat of vaporization, which could lead to reduced particle emiss

151 slow ions emission was the result of thermal vaporization while fast ions emission was due to time de

152 ons using nonresonant femtosecond (fs) laser vaporization with electrospray postionization mass spect

153 system clearly results in impressive tissue vaporization with minimal bleeding.

154 Nonthermal sample vaporization with subsequent chemical ionization generat

155 y scanned over the eschar, results in eschar vaporization without significant damage to underlying vi

156 tion with recent measurements of the heat of vaporization yields recommended values for Delta(f)H deg