Our project can hardly work out without the support of professors and students from Tianjin University and Glasgow University. To all these people, we want to express the heartfelt gratitude here.
First and foremost, I would like to acknowledge and extend my gratitude to our instructors—Professor Yuan Yingjin and Professor. Lu Wenyu, for their vital encouragement and patient guidance, and generous assistance on equipment and funding, all of which have been of inestimable worth to our project.
Secondly, our special thanks go to Glasgow University. The collaboration between Glasgow and our university has provided the initial inspiration for our project. Professor Chiara Martino, Professor Jonathan M. Cooper, and Miss Louise Horsfall have done extremely important work on microfluidics technology, the construction of gene expression kit, and so on. We wouldn’t obtain so much achievement without their support.
The last but not least, our thanks would also go to Professor Fan Xiaobin, Professor Liu Fufeng …… They have given us great guidance on nanometer materials and protein simulation, which enormously contributed to the data obtain and collection. We have benefited a great deal from their advice.
Chiara Martino
PhD student
Biomedical Engineering Research Division
School of Engineering
University of Glasgow
Louise Horsfall
The Institute of Molecular Cell and Systems Biology, College of Medical and Veterinary and Life Sciences,
The University of Glasgow
Professor Jonathan M. Cooper,
FREng, FRSE
The Wolfson Chair of Bioengineering
Head of Division of Biomedical Engineering
School of Engineering
Prof. Yingjin Yuan
Biopharmaceutical engineering
Biological energy
System biology and synthetic biology
Cell culture project
School of chemical engineering and technology
Tianjin University
Assoc.Prof. Wenyu Lu
Researching and developing microbial medicine.
Researching bio-based chemicals by industrial biotechnology.
School of chemical engineering and technology
Tianjin University
Xiaobin Fan,
The preparation and application of nanometer materials