个人简介
教育及工作经历:
2016-至今 皇冠APP下载官网 皇冠APP下载官网 副教授
2012年1月-2016年1月 乌普萨拉大学(瑞典) 纳米技术与功能材料 博士
2008年9月-2011年7月 皇冠APP下载官网 生物化学与分子生物学 硕士
2004年9月-2008年7月 西北农林科技大学 生物技术 学士
通信地址:皇冠APP下载官网,西安市太白北路229号,邮编:710069
主要研究方向:磁性纳米颗粒在临床免疫诊断中的应用;纤维素纳米材料在生物医学领域的应用
邮箱:kaihua@nwu.edu.cn
承担的科研项目
The Swedish Research Council Formas(瑞典研究理事会)资助,项目名称:Skogsbiomassa blir till hållbara nanocellulosa- baserade material(2014-2016)
主要研究成果
代表性论文:
1.Kai Hua, Igor Rocha, Peng Zhang, Simon Gustafsson, Yi Ning, Maria Strømme,
Albert Mihranyan and Natalia Ferraz. Transition from bioinert to bioactive
material by tailoring the biological cell response to
carboxylatednanocellulose.(2016) Biomacromolecules.
2. Kai Hua, Eva Ålander, Tom Lindström,Albert Mihranyan, Maria Strømme and Natalia Ferraz. Surface chemistry of
nanocellulose fibers direct monocyte/macrophage response. (2015)
Biomacromolecules 16: 2787-2795.
3. Kai Hua, Maria Strømme, Albert Mihranyan and Natalia Ferraz. Nanocellulose from green algae modulates the in
vitro inflammatory response of monocytes/macrophages. (2015) Cellulose 22: 1-16
4. Zhaohui Wang, Daniel O. Carlsson, PetterTammela, Kai
Hua, Peng Zhang, Leif Nyholm and Maria Strømme. Surface modified
nanocellulose fibers yield conducting polymer-based flexible supercapacitors with
enhanced capacitances. (2015) ACS nano 9: 7563-7571.
5. Kai Hua, Daniel O. Carlsson, Eva Ålander, Tom Lindström, Maria Strømme, Albert Mihranyan and Natalia Ferraz.
Translational study between structure and biological response of nanocellulose
from wood and green algae. (2014) RSC Advances 4: 2892-2903.
6. Daniel O. Carlsson, Kai Hua, Johan Forsgren, Albert
Mihranyan. Aspirin degradation in surface-charged TEMPO-oxidized mesoporous
crystalline nanocellulose.(2013) International Journal of Pharmaceutics. 461:
74-81
7. Kai Hua, Daniel O. Carlsson, Maria Strømme, Albert Mihranyan and Natalia Ferraz. In vitro cytocompatibility of
Cladophorananocellulose. (2013) Eur. Cell. Mater. 26(suppl.2): 13.
8. Xu Chao, LiliGuo, Yingyong Zhao, Kai Hua, MingliPeng, Chao Chen,andYali Cui. PEG-modified GoldMag
nanoparticles (PGMNs) combined with the magnetic field for local drug delivery.
(2010) Journal of Drug Targeting 19:161-170
获得的教学和科研表彰
2012:国家建设高水平大学公派博士研究生项目奖学金
2013:Graduate School on Advanced Materials奖学金
2014:Småland Nation奖学金
2014:Ångpanneföreningens基金会奖学金