2005年在中科院大连化学物理研究所获得工学博士学位

主持国家自然科学基金面上项目，上海市农委科技兴农项目等

1) Dujia Cheng, Dengjin Li, Yizhong Yuan, Lin Zhou, Xuyang Li, Tong Wu, Liang Wang, Quanyu Zhao*, Wei Wei, Yuhan Sun. Improving carbohydrate and starch accumulation product of Chlorella sp. AE10 by a novel two stage process with cell dilution. Biotechnology for Biofuels, 2017，10:75.

2) Wenqiang Qi, Taojing Chen, Liang Wang*, Minghong Wu, Quanyu Zhao, Wei Wei. High-strength fermentable wastewater reclamation through a sequential process of anaerobic fermentation followed by microalgae cultivation. Biotechnology Technology, 227, 317-323, 2017

3)Lin Zhou, Dujia Cheng, Liang Wang, Juan Gao, Quanyu Zhao*, Wei Wei, Yuhan Sun. Comparative transcriptomic analysis reveals phenol tolerance mechanism of evolved Chlorella strain. Biotechnology Technology, 227,266-272, 2017.

4)Chuizhao Xue, Libo Wang, Tong Wu, Shiping Zhang, Tao Tang, Liang Wang, Quanyu Zhao*, and Yuhan Sun*. Characterization of Co-cultivation of Cyanobacteria on Growth, Productions of Polysaccharides and Extracellular Proteins, Nitrogenase Activity and Photosynthetic Activity. Applied Biochemistry and Biotechnology, 181, 340-349, 2017.

5)Liang Wang, Jinli Liu, Quanyu Zhao, Wei Wei , Yuhan Sun*, Comparative Study of Wastewater Treatment and Nutrient Recycle via Activated Sludge, Microalgae and Combination Systems.Bioresource Technology, 2016, 211,1-5.

6)Libo Wang, Chuizhao Xue, Liang Wang, Quanyu Zhao*, Wei Wei, Yuhan Sun. Strain improvement of Chlorella sp. for phenol biodegradation by adaptive laboratory evolution. Bioresource Technology, 205,264-268, 2016

7)Dengjin Li, Liang Wang, Quanyu Zhao*, Wei Wei, Yuhan Sun. Improving high carbon dioxide tolerance and carbon dioxide fixation capability of Chlorella sp. by adaptive laboratory evolution. Bioresource Technology, 185,269-275, 2015

8)Shuiyan Yu, Quanyu Zhao*, Xiaoling Miao, Jiping Shi. Enhancement of lipid production in low-starch mutants Chlamydomonas reinhardtii by adaptive laboratory evolution. Bioresource Technology, 147, 499–507, 2013

9)Quanyu Zhao, Hiroyuki Kurata*. Use of maximum entropy principle with Lagrange multipliers extends the feasibility of elementary mode analysis. Journal of Bioscience and Bioengineering, 110(2): 254-261, 2010

10)Quanyu Zhao, Hiroyuki Kurata*. Genetic modification of flux for flux prediction of mutants. Bioinformatics, 25(13): 1702-1708, 2009

11)Quanyu Zhao, Hiroyuki Kurata*. Maximum entropy decomposition of flux distribution at steady state to elementary modes. Journal of Bioscience and Bioengineering, 107(1): 84-89, 2009

12)Hiroyuki Kurata*, Kentaro Inoue, Kazuhiro Maeda, Koichi Masaki, Yuki Shimokawa, Quanyu Zhao. Extended CADLIVE: a novel graphical notation for design of biochemical network maps and computational pathway analysis. Nucleic Acids Research, 35(20):e134, 2007

13)Hiroyuki Kurata*, Quanyu Zhao, Ryuichi Okuda, Kazuyuki Shimizu. Integration of enzyme activities into metabolic flux distributions by elementary mode analysis. BMC Systems Biology, 1:31, 2007.

14)赵权宇*，于水燕，史吉平. 基元模式分析在生物网络与途径分析中的应用.生物工程学报，29(6),701-715, 2013.