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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。