陈辉 - 河南大学 - 作物逆境适应与改良国家重点实验室

个人简介

陈辉，男，博士，教授，硕士生导师。2011年在华南理工大学获工学博士学位（硕博连读）。2011年7月至2019年2月在中国科学院水生生物研究所从事藻类生物学与光合逆境响应的研究工作。2019年3月，入选河南大学“黄河学者”特聘教授。在Mol Plant, Biotechnol Biofuel, Appl Energ, Environ Sci Technol等国际著名学术期刊发表论文10余篇，承担国家、省部级科研项目10余项。

研究领域

研究方向：微藻光合逆境响应、合成生物学及环境应用。光合逆境响应研究方面，关注环境胁迫条件下微藻基于光合作用的能量、物质与信号的交互机制与适应策略；合成生物学研究方面，聚焦在光合模式蓝藻等底盘细胞中实现基于合成生物学的从CO2到目标天然产物的绿色生物制造；环境应用方面，涉及能源微藻用于环境污染物生物减排、污染物资源化和微藻生物转化的基础理论与生产工艺。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1.Chen, H., Wang, X., and Wang, Q. (2020). Microalgal biofuels in China: The past, progress and prospects. Global Change Biology Bioenergy. 12: 1044-1065; 2.Chen, H., and Wang, Q. (2020). Microalgae-based nitrogen bioremediation. Algal Research, 46:101775; 3.Zhang, X., Chen, H., Wang, H., Wang, Q. Time-course effects of Tris(1,3-dichloro-2-propyl) phosphate (TDCPP) onChlorella pyrenoidosa: Growth inhibition and adaptability mechanisms. Journal of Hazardous Materials, 2021, 402: 123784. 4.Chen, H., Li, T., and Wang, Q. (2019). Ten years of algal biofuel and bioproducts: gains and pains. Planta 249:195-219； 5.Chen, H., Wang, J., Zheng, Y., Zhan, J., He, C., and Wang, Q. (2018). Algal biofuel production coupled bioremediation of biomass power plant wastes based onChlorellasp. C2 cultivation. Applied Energy 211, 296-305； 6.Chen, H., and Wang, Q. (2018). Ten years of microalgal biofuels in environmental applications. Science Foundation in China 26(3), 69-80； 7.Chen, H., Zheng, Y., Zhan, J., He, C., and Wang, Q. (2017). Comparative metabolic profiling of the lipid-producing green microalgaChlorellareveals that nitrogen and carbon metabolic pathways contribute to lipid metabolism. Biotechnol Biofuels 10(1), 153； 8.Chen, H., Zhou, W., Chen, W., Xie, W., Jiang, L., Liang, Q., Huang, M., Wu, Z. and Wang, Q. (2017). Simplified, rapid, and inexpensive estimation of water primary productivity based on chlorophyll fluorescence parameter Fo. J Plant Physiol 211, 128-135； 9.Chen, H., Qiu, T., Rong, J.F., He, C.L., and Wang, Q. (2015). Microalgal biofuel revisited: An informatics-based analysis of developments to date and future prospects. Applied Energy 155, 585-598； 10.Chen, H., Hu, J., Qiao, Y., Chen, W., Rong, J., Zhang, Y., He, C. and Wang, Q. (2015). Ca2+-regulated cyclic electron flow supplies ATP for nitrogen starvation-induced lipid biosynthesis in green alga. Sci Rep 5,15117； 11.Chen, H., Zhang, Y., He, C., and Wang, Q. (2014). Ca2+signal transduction related to neutral lipid synthesis in an oil-producing green algaChlorellasp. C2. Plant Cell Physiol 55(3), 634-644； 12.Zhang, Y.M., Chen, H., He, C.L., and Wang, Q. (2013). Nitrogen starvation induced oxidative stress in an oil-producing green algaChlorella sorokinianaC3. PLoS One 8(7),e69225； 13.Ma, F., Zhang, X., Zhu, X., Li, T., Zhan, J., Chen, H., He, C. and Wang, Q. (2017). Dynamic Changes of IsiA-Containing Complexes during Long-Term Iron Deficiency inSynechocystissp. PCC 6803. Mol Plant 10(1), 143-154； 14.Chen, W., Zhang, S., Rong, J., Li, X., Chen, H., He, C., and Wang, Q. (2016). Effective Biological DeNOx of Industrial Flue Gas by the Mixotrophic Cultivation of an Oil-Producing Green AlgaChlorellasp. C2. Environ Sci Technol 50(3), 1620-1627； 15.Zhang, X., Chen, H., Chen, W., Qiao, Y., He, C., and Wang, Q. (2014). Evaluation of an oil-producing green algaChlorellasp. C2 for biological DeNOx of industrial flue gases. Environ Sci Technol 48(17), 10497-10504。