Identifying infectiousness of SARS-CoV-2 by ultra-sensitive SnS2 SERS biosensors with capillary effect

We investigated the enhancement of the capillary effect in a plastic capillary tube using only a nanostructured surface. Since plastic is a hydrophobic material, the capillary effect does not emerge without an additional coating or plasma treatment process. Therefore, capillary effect enhancement by the nanostructure fabrication method is expected to reduce the cost and minimise the contamination produced in the human body. By combining a hydrophilic nylon resin and a nanostructure at the tip of the plastic pipette, we could confirm that the capillary effect was produced solely by the tube fabrication process. The produced capillary effect increased linearly with increasing nanostructure height when a standard solution with a surface tension of 70 mN·m−1 was used. Thus, we can conclude that including the plastic part with nanostructure can be useful for biomedical applications. In addition, we suggest that the proposed method is highly effective in controlling the wetting properties of plastic surfaces, compared to the typical coating or plasma treatment processes.

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Thermo-capillary effect on the linear temporal and spatial instability of viscous liquid jets falling under gravity

Results in Physics ◽

10.1016/j.rinp.2017.12.045 ◽

2018 ◽

Vol 8 ◽

pp. 709-715

Author(s):

Abdullah M. Alsharif ◽

Shadiah A. Althubaiti

Keyword(s):

Viscous Liquid ◽

Liquid Jets ◽

Capillary Effect ◽

Spatial Instability ◽

Temporal And Spatial

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Investigation on refrigerant transport by capillary effect with fleeces in an evaporator for a high temperature cooling machine

International Journal of Refrigeration ◽

10.1016/j.ijrefrig.2018.05.036 ◽

2018 ◽

Vol 93 ◽

pp. 18-28

Author(s):

Benedict Holbein ◽

Thomas Schulenberg

Keyword(s):

High Temperature ◽

Capillary Effect

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Investigation of the influence of capillary effect on operation of the loop heat pipe

Archives of Thermodynamics ◽

10.2478/aoter-2014-0021 ◽

2014 ◽

Vol 35 (3) ◽

pp. 59-80 ◽

Cited By ~ 1

Author(s):

Dariusz Mikielewicz ◽

Krzysztof Błauciak

Keyword(s):

Porous Structure ◽

Heat Pipe ◽

Potential Application ◽

Preliminary Analysis ◽

Capillary Forces ◽

Loop Heat Pipe ◽

Capillary Effect ◽

Pumping Power

Abstract In the paper presented are studies on the investigation of the capillary forces effect induced in the porous structure of a loop heat pipe using water and ethanol ad test fluids. The potential application of such effect is for example in the evaporator of the domestic micro-CHP unit, where the reduction of pumping power could be obtained. Preliminary analysis of the results indicates water as having the best potential for developing the capillary effect.

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A micromechanical interpretation of the capillary effect of unsaturated granular material in a pendular state

Computer Methods and Recent Advances in Geomechanics ◽

10.1201/b17435-276 ◽

2014 ◽

pp. 1563-1568

Author(s):

Ji-Peng Wang ◽

Xia Li ◽

Hai-Sui Yu

Keyword(s):

Granular Material ◽

Capillary Effect ◽

Pendular State

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Preparation of Cross-Linked Cellulase Aggregate and Application to Cool Finishing of Cotton Fabric

AATCC Journal of Research ◽

10.14504/ajr.8.3.1 ◽

2021 ◽

Vol 8 (3) ◽

pp. 1-7

Author(s):

Gang Bai ◽

Bingbing Feng ◽

Yanchun Liu ◽

Shujiao Dai

Keyword(s):

Water Vapor ◽

Cotton Fabric ◽

Silicone Oil ◽

Air Permeability ◽

Kinetic Friction ◽

Capillary Effect ◽

Bending Rigidity ◽

Moisture Permeability ◽

Treated Sample ◽

The Stability

Cellulase was immobilized by cross-linked enzyme aggregation to improve the stability of cellulase. The prepared cross-linked cellulase aggregates (CLCAs) and ice silicone oil were used for the cool finishing of cotton fabric. The results showed that the CLCAs extended the cellulase stability compared to free cellulase. The surface softness, smoothness, moisture permeability, and air permeability of the cotton fabric increased after CLCAs and ice silicone oil treatment. Shearing rigidity of the treated sample was 0.44 cN/(cm·deg), bending rigidity was 0.0069 cN cm, and the drape coefficient was 29.3%. Coefficient of kinetic friction of the treated sample was 0.186. The capillary effect of the treated fabric was 12.1 cm/(30 min). Air permeability was 354.3 L/(m2·s). Moisture penetrability was 3.912 g/(m2·d). The thermal and water-vapor resistance were 0.0194 m2·°C/W and 4.691 Pa·m2/W, respectively.

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Electromechanics of the liquid water vapour interface

Physical Chemistry Chemical Physics ◽

10.1039/c9cp06901a ◽

2020 ◽

Vol 22 (19) ◽

pp. 10676-10686 ◽

Cited By ~ 3

Author(s):

Chao Zhang ◽

Michiel Sprik

Keyword(s):

Water Vapor ◽

Stress Tensor ◽

Water Vapour ◽

Surface Potential ◽

Liquid Water ◽

Maxwell Stress ◽

Capillary Effect ◽

Vapor Interface ◽

Maxwell Stress Tensor ◽

Anisotropic Stress

The response of the anisotropic stress at the liquid water vapor interface to a finite electric suggests that the surface potential of water can be seen as an electro-capillary effect coupled to the Maxwell stress tensor.

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