ライフサイエンスコーパス: wick

1 e assay for seminal plasma than for cervical wicks.

2 old larger than those generated in synthetic wicks.

3 y, rectum, cervix, and vagina with absorbent wicks.

4 not detect any emissions from electrostatic wicks.

5 luid delivery to the transistor via vertical wicking.

6 d by the solution movement mediated by paper wicking.

7 measurements by sessile drop and thin layer wicking.

8 ers) do not permit passive WBC transport via wicking.

9 nal pump and passive fluid flow by capillary wicking.

10 e fenestrations without wicks (70%) and with wicks (22%), with one 10-0 Nylon being the most used wic

11 arly IOP lowering were fenestrations without wicks (70%) and with wicks (22%), with one 10-0 Nylon be

12 The devices exploit the wicking ability of cellulose paper to perform passive pr

13 The intrinsic wicking ability of the paper matrix facilitated rapid sa

14 found that using a mydriatic cocktail-soaked wick - an alternative way to achieve intraoperative mydr

15 d least in specimens from endocervical canal wick and most in cervicovaginal lavage samples.

16 phy paper with wax-printed four channels for wicking and capillary flow-based detection.

17 for 8 weeks from the endocervical canal with wicks and cytobrushes and from the ectocervix and vagina

18 ydrophilic group-tethered nanotubular porous wicks and enhanced fluidity are the main causes for prom

19 vels in e-liquids (bottles, cartridges, open wick, and tank), 12 studies reported metal/metalloid lev

20 adsorbed over a DEAE cellulose-treated paper wick assembled in the syringe hose.

21 of a pod e-cigarette with innovative ceramic wick-based technology and two flavoured e-liquids contai

22 eir through-pores remove air bubbles through wicking before they are sealed on one side by adhesion t

23 more, these Cu aerosponges exhibit excellent wicking behavior, suggesting their potential for heat-ex

24 but closed rapidly when water was allowed to wick between epidermis and the mesophyll.

25 vantage of their high surface area and fluid wicking capabilities, SiNWs were used to perform chromat

26 FC-72 and water with fundamentally different wicking characteristics.

27 ich accelerated PFAS penetration through the wick effect.

28 ted specific surface coatings to counter the wicking effect of wood.

29 The model is validated with wicking experiments on different hemiwicking surfaces in

30 Capillary wicking facilitates a gravity-driven flow of buffer solu

31 In particular, 3D paper-based devices wick fluids and distribute microliter volumes of samples

32 for analyte multiplexing using a two-plexed wick for the detection of mouse IgG and ovalbumin.

33 oration by engineering the fluidic flow in a wick-free confined water layer.

34 cooling efficiency, not merely liquid sweat wicking function.

35 ased on a uricase-enzyme electrode and sweat wicking hydrogel.

36 ressure measurements with both the classical wick-in-needle method (to estimate free-fluid pressure)

37 The IFP (wick-in-needle technique) and pO(2) (Eppendorf) were mea

38 buffer washes away PCR inhibitors, which get wicked into the absorbent blotter pad.

39 on lubricant-infused surfaces is due to oil wicking into the porous dendritic network because of the

40 rs: the drying time scale of the liquid film wicking into the surface structures (taud), the heating

41 tration based on surface treatment selective wicking is demonstrated.

42 A microfluidic channel for sample wicking is embedded on the electrodes to bifurcate the b

43 The capacity of micropillar arrays to induce wicking is used to distribute and confine capture probes

44 Replacement of kerosene-fueled wick lamps deserves strong consideration for programs th

45 % of kerosene consumed by widely used simple wick lamps is converted to carbonaceous particulate matt

46 Kerosene-fueled wick lamps used in millions of developing-country househ

47 D GO) stalk that operates near the capillary wicking limit to achieve an evaporation flux of 34.7 kg

48 Use of microporous ceramic as a wicking material improves heating efficiency, but how it

49 plant, and into the air-occurs by a passive, wicking mechanism.

50 t) with an ultrathin microbial nanocellulose wicking membrane (sample handling component).

51 To this end, we first developed a chronic wick method for the direct measurement of oncotic pressu

52 gside an ethanol pre-wetting step to enhance wicking of milk.

53 The cuvette is spontaneously filled by wicking of the liquid sample into the micropillar array.

54 Wick outflow was analyzed for Eu concentrations, supplem

55 k snowmelt events) caused peaks of Eu in the wick outflow.

56 clearly visible trace of RBCs in the buffer wicking path.

57 the spot, with no visual trace in the buffer wicking path.

58 Here, we report the wicking performances for porous copper inverse opals hav

59 gement is thus more realistically seen as a "wicked problem" that has no clear-cut solution.

60 Management of invasive plants is a 'wicked problem', and local outcomes to wicked problems h

61 stacles that make its societal acceptance a 'wicked' problem without straightforward solutions.

62 is a 'wicked problem', and local outcomes to wicked problems have both positive and negative conseque

63 factors, vector-borne diseases are complex 'wicked problems'.

64 Here, we address such wicked problems, taking advantage of simpler plant organ

65 ks and organ shape, one needs to address two wicked problems: i) Gene expression is often variable lo

66 eynman diagrams can be used to compute the q-Wick products and usual operator products in terms of ea

67 resulting in large dynamic range), excellent wicking properties (naturally microfluidic), mechanical

68 characterizing the transplanar and in-plane wicking properties of fabrics based on gravimetric and i

69 d to have excellent transplanar and in-plane wicking properties.

70 characterising the transplanar and in-plane wicking property of fabrics.

71 timers and paper-based assays depend on the wicking rate of the sample, the fluidic timers automatic

72 ll having sufficient air permeability, water-wicking rate, and mechanical strength for wearability.

73 meter copper particles with exceedingly high wicking rates compared to non-salt-templated sintered co

74 to the assay) to account for differences in wicking rates that are caused by variations in humidity.

75 tack of two paper membranes having different wicking rates-the top layer acting as a fluid distributi

76 A wicking reagent containing immunoliposomes and the test

77 During the capillary migration of the wicking reagent, E. coli, with surface-bound immunolipos

78 d imaginary-frequency point of view based on Wick rotations.

79 colloids (<1%) were detected in the deepest wick sampler (2.14 m depth) 2.5 months after application

80 ds through the sediments was monitored using wick samplers.

81 rmined from 100% of paired cervical swab and wick samples from 20 culture-positive women from Baltimo

82 While useful for spontaneously wicking samples, the capillary flow inherently limits pe

83 Endocervical canal wicks should be considered as an adjunct to cervicovagin

84 g one layer relative to the other, solutions wick simultaneously into a large array of sensing reserv

85 al' phosphate (Pi) supply using a 'pouch and wick' system, and had been screened previously in an aga

86 2%), with one 10-0 Nylon being the most used wick technique (22%).

87 hat which drives fluid through the synthetic wicks that are key elements in technologies for heat tra

88 pecific time required for a liquid sample to wick through predefined regions in the device.

89 dryout time scale are measured as the liquid wicks through surface structures and evaporates.

90 The blood wicks through the SPE to the waste pad, and the sample i

91 recise time delays (e.g., +/-6% of the total wicking time).

92 late to create a microfluidic channel with a wicking tip protruding from the end.

93 o transport the aqueous sample via capillary wicking to a 5 mm-long detection area, where the recogni

94 rature gradient promotes continuous melting, wicking, vaporization and reaction of the plastic as it

95 om blood plasma, seminal plasma, or cervical wicks was quantified at baseline and at weeks 48 and 96

96 els in e-liquid from cartridges or tank/open wicks were higher than those from bottles, possibly due

97 efficient supply of e-liquid by the ceramic wick without overheating, but also the potential of the