排序方式: 共有43条查询结果,搜索用时 78 毫秒
41.
Zhou Nicolette A. Fagnant-Sperati Christine S. Komen Evans Mwangi Benlick Mukubi Johnstone Nyangao James Hassan Joanne Chepkurui Agnes Maina Caroline van Zyl Walda B. Matsapola Peter N. Wolfaardt Marianne Ngwana Fhatuwani B. Jeffries-Miles Stacey Coulliette-Salmond Angela Peñaranda Silvia Shirai Jeffry H. Kossik Alexandra L. Beck Nicola K. Wilmouth Robyn Boyle David S. Burns Cara C. Taylor Maureen B. Borus Peter Meschke John Scott 《Food and environmental virology》2020,12(1):35-47
42.
43.
Ruhul A. Khan Stephane Salmieri Dominic Dussault Nathalie Tufenkji Jorge Uribe-Calderon Musa R. Kamal Agnes Safrany Monique Lacroix 《Journal of Polymers and the Environment》2012,20(1):43-52
Chitosan (0.1–1%, w/w), dissolved in 2% acetic acid solution, was added into 1% methylcellulose (MC)-based formulation containing
0.5% vegetable oil, 0.25% glycerol and 0.025% Tween?80. Films were prepared by casting. Puncture strength (PS), puncture deformation (PD), viscoelasticity coefficient and water
vapour permeability (WVP) of the films were measured. The PS value of 312 N/mm was observed for MC-based films containing
0.25% chitosan. Values of PD, viscoelasticity coefficient and WVP of these films were 5.0 mm, 44.1%, and 6.0 g mm/m2 day kPa, respectively. The MC-based films containing 0.25% chitosan were also exposed to gamma radiation (0.5–50 kGy). The
PS of the treated films decreased significantly from 312 at 0 kGy to 201 N/mm when treated at a dose of 50 kGy. However, WVP
values were not affected by increasing irradiation the dose used. The Fourier Transform Infrared spectroscopy supported the
molecular interactions due to addition of chitosan in MC-based films. Thermo gravimetric analysis and differential scanning
calorimetric experiments showed that thermal properties of the films were significantly improved by chitosan loading. Surface
topography of the films was studied by scanning electron microscopy and found rougher due to chitosan addition. 相似文献