surface hydrophilicity
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Materials ◽  
2022 ◽  
Vol 15 (2) ◽  
pp. 418
Author(s):  
Zhao Zhang ◽  
Quan Shu ◽  
Shaolin Ge ◽  
Shouhu Xuan

This paper reports a plasma treatment (PT) method for improving the surface hydrophilicity and mechanical properties of cellulose in reconstituted tobacco paper-base. The absorption and infiltration rates of water droplets on PT-reconstituted tobacco paper-base-15s were significantly accelerated. Notably, the increased content of methylene and alkyl groups enabled the tobacco paper-base to absorb more useful substrates in the tobacco extract after plasma treatment. In addition, the tensile mechanical performance of reconstituted tobacco was significantly improved after plasma treatment, which indicated that the content of organic matter absorbed by the tobacco paper-base sheet was increased. Moreover, tobacco extract infiltrated on the surface of PT-reconstituted tobacco paper-base reached 37.7° within 30 s, while it reached 79.9° on the reconstituted tobacco paper-base. Finally, the mechanism by which the surface hydrophilicity and mechanical properties of the cellulose in the tobacco paper-base were improved is discussed.


Coatings ◽  
2022 ◽  
Vol 12 (1) ◽  
pp. 52
Author(s):  
Biao Jiang ◽  
Yizhou Shen ◽  
Jie Tao ◽  
Yangjiangshan Xu ◽  
Haifeng Chen ◽  
...  

Freezing of liquid water occurs in many natural phenomena and affects countless human activities. The freezing process mainly involves ice nucleation and continuous growth, which are determined by the energy and structure fluctuation in supercooled water. Herein, considering the surface hydrophilicity and crystal structure differences between metal and graphene, we proposed a kind of surface configuration design, which was realized by graphene nanosheets being alternately anchored on a metal substrate. Ice nucleation and growth were investigated by molecular dynamics simulations. The surface configuration could induce ice nucleation to occur preferentially on the metal substrate where the surface hydrophilicity was higher than the lateral graphene nanosheet. However, ice nucleation could be delayed to a certain extent under the hindering effect of the interfacial water layer formed by the high surface hydrophilicity of the metal substrate. Furthermore, the graphene nanosheets restricted lateral expansion of the ice nucleus at the clearance, leading to the formation of a curved surface of the ice nucleus as it grew. As a result, ice growth was suppressed effectively due to the Gibbs–Thomson effect, and the growth rate decreased by 71.08% compared to the pure metal surface. Meanwhile, boundary misorientation between ice crystals was an important issue, which also prejudiced the growth of the ice crystal. The present results reveal the microscopic details of ice nucleation and growth inhibition of the special surface configuration and provide guidelines for the rational design of an anti-icing surface.


2022 ◽  
Vol 571 ◽  
pp. 151253
Author(s):  
Meredith Rose Barr ◽  
Luke Forster ◽  
Carmine D'Agostino ◽  
Roberto Volpe

2021 ◽  
pp. 004051752110639
Author(s):  
Ye Qi ◽  
Huiyuan Zhai ◽  
Yaning Sun ◽  
Hongxing Xu ◽  
Shaohua Wu ◽  
...  

Electrospun nanofibrous scaffolds have gained extensive attention in the fields of soft tissue engineering and regenerative medicine. In this study, a series of biodegradable nanofibrous meshes were fabricated by electrospinning poly(ε-caprolactone) (PCL) and poly( p-dioxanone) (PPDO) blends with various mass ratios. All the as-developed PCL/PPDO nanofibrous meshes possessed smooth and highly aligned fiber morphology. The mean fiber diameter was 521.5 ± 76.6 nm for PCL meshes and 485.8 ± 88.9 nm for PPDO meshes, and the mean fiber diameter seemed to present a decreasing tendency with the increasing of the PPDO component. For pure PCL meshes, the contact angle was about 117.5 ± 1.6°, the weight loss ratio was roughly 0.2% after 10 weeks of degradation, and the tensile strength was 41.2 ± 2.3 MPa in the longitudinal direction and 4.2 ± 0.1 MPa in the transverse direction. It was found that the surface hydrophilicity and in vitro degradation properties of PCL/PPDO meshes apparently increased, but the mechanical properties of PCL/PPDO meshes obviously decreased when more PPDO component was introduced. The biological tests showed that 4:1 PCL/PPDO nanofibrous meshes and 1:1 PCL/PPDO nanofibrous meshes could obviously promote the adhesion and proliferation of human adipose derived mesenchymal stem cells more than pure PCL and PPDO meshes and 1:4 PCL/PPDO meshes. The results demonstrated that it is feasible to adjust the surface hydrophilicity, degradation profile, and mechanical properties as well as biological properties of as-obtained nanofibrous meshes by blending PCL and PPDO components. This study provides meaningful reference and guidance for the design and development of PCL/PPDO hybrid nanofibrous scaffolds for soft tissue engineering research and application.


PLoS ONE ◽  
2021 ◽  
Vol 16 (12) ◽  
pp. e0260438
Author(s):  
Ozden Hatirnaz Ng ◽  
Sezer Akyoney ◽  
Ilayda Sahin ◽  
Huseyin Okan Soykam ◽  
Gunseli Bayram Akcapinar ◽  
...  

The Coronavirus Disease 2019 (COVID-19) was declared a pandemic in March 2020 by the World Health Organization (WHO). As of May 25th, 2021 there were 2.059.941 SARS-COV2 genome sequences that have been submitted to the GISAID database, with numerous variations. Here, we aim to analyze the SARS-CoV-2 genome data submitted to the GISAID database from Turkey and to determine the variant and clade distributions by the end of May 2021, in accordance with their appearance timeline. We compared these findings to USA, Europe, and Asia data as well. We have also evaluated the effects of spike protein variations, detected in a group of genome sequences of 13 patients who applied to our clinic, by using 3D modeling algorithms. For this purpose, we analyzed 4607 SARS-CoV-2 genome sequences submitted by different lab centers from Turkey to the GISAID database between March 2020 and May 2021. Described mutations were also introduced in silico to the spike protein structure to analyze their isolated impacts on the protein structure. The most abundant clade was GR followed by G, GH, and GRY and we did not detect any V clade. The most common variant was B.1, followed by B.1.1, and the UK variant, B.1.1.7. Our results clearly show a concordance between the variant distributions, the number of cases, and the timelines of different variant accumulations in Turkey. The 3D simulations indicate an increase in the surface hydrophilicity of the reference spike protein and the detected mutations. There was less surface hydrophilicity increase in the Asp614Gly mutation, which exhibits a more compact conformation around the ACE-2 receptor binding domain region, rendering the structure in a “down” conformation. Our genomic findings can help to model vaccination programs and protein modeling may lead to different approaches for COVID-19 treatment strategies.


2021 ◽  
Vol MA2021-02 (39) ◽  
pp. 1182-1182
Author(s):  
Victor Miguel Fernandez Alvarez ◽  
Kourosh Malek ◽  
Michael Eikerling ◽  
Alan Young ◽  
Monica Dutta ◽  
...  

Nanomaterials ◽  
2021 ◽  
Vol 11 (10) ◽  
pp. 2470
Author(s):  
Yingfu Lian ◽  
Gang Zhang ◽  
Xiaojun Wang ◽  
Jie Yang

Our current study experimentally evaluates the impacts of surface hydrophilicity of supports on the properties of polyamide (PA) thin-film composite (TFC) nanofiltration (NF) membranes. A series of “carboxylated polyethersulfone” (CPES) copolymers with an increasing “molar ratio” (MR) of carboxyl units were used to prepare supports with diverse surface hydrophilicities by the classical nonsolvent-induced phase separation (NIPS) method. Then, the PA-TFC NF membranes were finely fabricated atop these supports by conventional interfacial polymerization (IP) reactions. The linkages between the surface hydrophilicity of the supports and the characteristics of the interfacially polymerized PA layers as well as the permselectivity of NF membranes were investigated systematically. The morphological details of the NF membranes indicate that the growth of PA layers can be adjusted through increasing the surface hydrophilicity of the supports. Moreover, the separation results reveal that the NF membrane fabricated on the relatively hydrophobic support exhibits lower permeability (7.04 L·m−2·h−1·bar−1) and higher selectivity (89.94%) than those of the ones prepared on the hydrophilic supports (14.64~18.99 L·m−2·h−1·bar−1 and 66.98~73.48%). A three-stage conceptual scenario is proposed to illustrate the formation mechanism of the PA layer in NF membranes, which is due to the variation of surface hydrophilicity of the supports. The overall findings specify how the surface hydrophilicity of the supports influences the formation of PA layers, which ultimately defines the separation performances of the corresponding NF membranes.


2021 ◽  
pp. 3078-3085
Author(s):  
Sung Hyun Park ◽  
Sung Yong Byeon ◽  
Jeong-Hoon Park ◽  
Chanhoon Kim

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