Cover Art – Featuring Multilayered Nanofilms, Endothelial Cells and Virus Filtration

by | Jul 22, 2017

This week’s Advanced Healthcare Materials covers.

Advanced Healthcare Materials celebrates its 5th birthday this year! Since 2012 we have been bringing you the latest breakthroughs in biomedical materials science with a strong focus on improving human health, and we will continue to do so in 2017. Read more about this in our latest editorial.

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In this biweekly feature, we highlight the artwork on the covers of the most recent issue of Advanced Healthcare Materials, and of course the research behind it. You can find this week’s issue here. Click on the titles or cover images below to get to the corresponding papers. Also check out our monthly Most Read here.

Multilayer Nanofilms via Inkjet Printing for Stabilizing Growth Factor and Designing Desired Cell Developments

Moonhyun Choi, Hee Ho Park, Daheui Choi, Uiyoung Han, Tai Hyun Park, Hwankyu Lee, Juhyun Park, and Jinkee Hong

A system to fabricate multilayered nanofilms with inkjet printing has been developed by Jinkee Hong from Chung-Ang University in Seoul and co-workers from this and other universities in Korea. These inkjet-printed nanofilms are composed of both polymeric and bioactive materials, and for instance can be used to enhance the structural stability of the basic fibroblast growth factor. Such nanofilms containing growth factors are effective for undifferentiated pluripotent stem cells by promoting proliferation and expansion.

Mechanical Adaptability of the MMP-Responsive Film Improves the Functionality of Endothelial Cell Monolayer

Mi Hu, Hao Chang, He Zhang, Jing Wang, Wen-xi Lei, Bo-chao Li, Ke-feng Ren, and Jian Ji

Endothelial cells play key roles in physiology and pathology. Ke-feng Ren and co-workers from Zhejiang University in Hangzhou, China report on a surface with mechanical adaptability, which is based on a thin polyelectrolyte film that can respond to cell-secreted matrix metalloproteinases. The results demonstrate that such a system is superior compared to the state of art in promoting endothelial cell growth and functionality.

Highly Efficient Virus Rejection with Self-Organized Membranes Based on a Crosslinked Bicontinuous Cubic Liquid Crystal

Nicolas Marets, Daniel Kuo, Jason R. Torrey, Takeshi Sakamoto, Masahiro Henmi, Hiroyuki Katayama, and Takashi Kato

For the first time, a liquid-crystalline composite membrane for the filtration of viruses during water treatment is reported by Takashi Kato, Hiroyuki Katayama, and co-workers from the University of Tokyo in Japan. The self-assembling liquid crystals can form a uniform nanostructured bicontinuous cubic separation layer, which minimizes the number of defects and thereby shows more than 99.9999% removal of the virus. This development may spark more innovative designs for future membranes for water treatment.

 

Interested in more news about Advanced Healthcare Materials? Also check out our monthly Most Read here.

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