ライフサイエンスコーパス: atomization

1 re (a process referred to as nebulization or atomization).

2 of analyte atoms in graphite furnaces during atomization.

3 ere eluted using diisopropyl ketone prior to atomization.

4 into the FAAS flame, ensuring complete metal atomization.

5 spray composition via primary and secondary atomization.

6 h of which through electrostatic rotary bell atomization, a highly complex process involving the flui

7 However, shear and thermal tensions during atomization and dehydration, as well as physicochemical

8 d cold-spraying the suspension produces fine atomization and even deposition of materials that could

9 , Fe, Mn, Zn) to the solution on the in situ atomization and excitation processes occurred during ope

10 The dual role of air as the atomization and excitation source during the laser-parti

11 e and, as a result, determines the extent of atomization and fragmentation that has proved to directl

12 d a better understanding of the influence of atomization and heat treatment (during the dehydration s

13 characteristics, precision, and kinetics of atomization and ionization were investigated with optica

14 the complex coacervation method, followed by atomization and lyophilization.

15 ingle atoms to Co(2)N(5) dual atoms using an atomization and sintering strategy via an N-stripping an

16 oking, were constantly produced via collison atomization and subsequent drying processes.

17 Hydride atomization and the fate of free analyte atoms in an ext

18 microelectrode system, followed by ablation, atomization, and excitation of the particulate matter us

19 ne oxide (GO) at the same time by ultrasonic atomization-assisted spray pyrolysis.

20 d a threshold for rotation speeds for radial atomization between 80,000 and 100,000 rpm.

21 using two techniques: dripping-extrusion and atomization, both by means of a double emulsion (HE/raps

22 ctrospraying) is a versatile tool for liquid atomization by means of electrical forces.

23 edes drop evaporation (suppressing secondary atomization by the usual sequence of many Coulomb explos

24 The atomization cell, a single lens, and a hand-held charge

25 may be absorbed by any metals present in the atomization cloud produced by the sample.

26 In the case of selane under typical atomization conditions, the efficiency of the decay of f

27 d was optimized by building up pyrolysis and atomization curves in sample medium and by evaluating th

28 sing the laryngeal mask airway (LMA) mucosal atomization device (MAD).

29 ur data suggest that mRNA administered by an atomization device eliminates the need for chemical tran

30 ome thermal desorption was observed, sputter atomization dominated when samples were not subjected to

31 algorithmic framework to analyze rotary bell atomization dynamics at industrially relevant conditions

32 as an atomizer reflects both effects, i.e., atomization efficiency and free atom decay, was estimate

33 Moreover, the lower atomization efficiency and/or faster decay of free atoms

34 Atomization efficiency in DBD was estimated to be 100% o

35 ed at reduced working pressures, and maximum atomization efficiency was found to occur near atmospher

36 Optimal atomization efficiency was predicted to occur at a press

37 ed by the sample or the buffer volatility or atomization efficiency.

38 Atomization energies at 0 K and heats of formation at 0

39 )A' states, and larger bond dissociation and atomization energies in the ground state.

40 lobal hybrid gives excellent predictions for atomization energies, reaction barriers, and weak intera

41 entials for N3, N3-, N5+, and N5- from total atomization energies.

42 icity of Cu(4)Li(2) also is indicated by its atomization energy, 243.2 kcal/mol, which is larger than

43 ucing agent as its nitrides have the highest atomization energy, the shortest M-N bond distance, and

44 ion of solid, liquid, or gas analytes, clean atomization environment, and minimum background noise.

45 Dry, coated particles were generated by atomization followed by drying.

46 f this study was to dissociate the effect of atomization from that of heating during the spray-drying

47 Both the dripping-extrusion and the atomization have shown to be feasible techniques.

48 Multiple modes of atomization in electrosprays are affected by viscosity,

49 ellation of a hard, continuous surface - its atomization into discrete elements connected by a softer

50 The atomization-ionization efficiencies for different elemen

51 ticle trajectory, lead to rapid vaporization/atomization/ionization of particles with minimized atom/

52 Atomization is performed as a two-step process in order

53 f arsenic in diluted serum by electrothermal atomization laser-excited atomic fluorescence spectromet

54 cant reduction in small droplets, but radial atomization may still occur and is modified by burr-to-t

55 Atomization mechanisms for the plastic samples were stud

56 It was found that free As atoms formed by atomization of arsane decay to different species than to

57 Atomization of arsane in a 17 W planar quartz dielectric

58 Atomization of bismuth hydride in a 17 W planar quartz d

59 Atomization of bismuthane in a planar dielectric barrier

60 directly from a solid nickel alloy, and the atomization of cobalt from an aqueous solution, no chang

61 Multiple mechanisms for atomization of fluids from rotatory instrumentation exis

62 The possibility of secondary atomization of high-momentum cough droplets by hydrodyna

63 generator which employs electro-hydrodynamic atomization of IMI solution in ethanol.

64 include the preparation of cotton candy, the atomization of metals, the manufacture of glass fibers,

65 l (FHSO) using a novel green method based on atomization of supercritical carbon dioxide (SC-CO2)-exp

66 For the atomization of tellurium directly from a solid nickel al

67 iven by technological advances in electronic atomization of the e-liquid.

68 The effect of thermal treatment (after atomization) on crosslinking and bioactivity of microsph

69 the impact of nonuniform film thicknesses on atomization performance; and iii) an understanding of sp

70 In fact, the application of atomization resulted in the dissociation of caseinate/pe

71 the other reaction types and far superior to atomization routes.

72 Flow-blurring (FB) is a twin-fluid atomization technique that generates fine sprays through

73 f pyrolysis temperature of 640 degrees C and atomization temperature of 2000 degrees C, the direct me

74 The effects of sample amount, pyrolysis/atomization temperatures on the determination of lead in

75 degrees C of pyrolysis and 1800 degrees C of atomization temperatures without modifier.

76 dent charge transfer between droplets during atomization, this process generates an alternating volta

77 on was used to measure Se and electrothermal atomization to measure Cu, Cr and Mn.

78 ted nanocapsules, generated using dispersion atomization, to direct genes to liver sinusoidal endothe

79 Complete analyte release and atomization was reached as soon as oxygen was switched o