生物炼制、木质素高值化、环境固废转化

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主持项目

[1] 木质素衍生物辅助人工混菌降解多环芳烃及过程强化机制研究。国家自然科学基金委员会-青年科学基金项目，2024-01至2026-12，30 万元，在研。

[2] 可溶性木质素辅助人工混菌降解多环芳烃机制研究。天津大学自主创新基金，2023-01至2023-12，10 万元，已结题。

[3] 人工混合菌群转化木质素合成PHA过程强化。天津大学自主创新基金，2022-01至2022-12，10 万元，已结题。

[4] 酿酒酵母（Saccharomyces cerevisiae）产纤维素乙醇促进因

[1] Cui JQ#, He ZQ#, Chen K, Ntakirutimana S, Liu ZH, Bai H*, Li BZ*, Yuan YJ., 2024. Lignin-derived compounds assisted with Kocuria marina H-2 and Pseudomonas putida B6-2 co-culture enhanced naphthalene biodegradation. Bioresource Technology, 413: 131512.

[2] Cui JQ#, Li YQ#, Ntakirutimana S, Liu ZH, Li BZ*, Yuan YJ., 2023. Surfactant-assisted ethylenediamine for the deconstruction and conversion of corn stover biomass. Bioresource Technology, 382: 129174.

[3] Cui JQ#, He ZQ#, Ntakirutimana S, Liu ZH, Li BZ*, Yuan YJ., 2023. Artificial mixed microbial system for polycyclic aromatic hydrocarbons degradation. Frontiers in Microbiology, 14: 1207196.

[4] Cui JQ#, Li YQ#, He Q S, Li BZ, Yuan YJ, Wen JP*., 2021. Effects of different surfactants on the degradation of petroleum hydrocarbons by mixed-bacteria. Journal of Chemical Technology and Biotechnology, 97(1): 208-217.

[5] Cui JQ, Liu MH, He QS, Chen H, Sun MB, Wen JP*., 2020. Microbial community dynamics and functional responses that contribute to tolerance of high concentrations of petroleum hydrocarbon. Journal of Chemical Technology and Biotechnology, 95(5): 1361-1371.

[6] Cui JQ, Chen H, Sun MB, Wen JP*., 2020. Comparison of bacterial community structure and function under different petroleum hydrocarbon degradation conditions. Bioprocess and Biosystems Engineering, 43(2): 303-313.

[7] Cui JQ, Chen H, Sun MB, Wen JP*., 2020. Comparative study on different remediation strategies applied in petroleum-contaminated soils [J], International Journal of Environmental Research and Public Health, 17: 5.

[8] Chen H#, Cui JQ#, Wang P, Wang X, Wen JP*., 2020. Enhancement of bleomycin production in Streptomyces verticillus through global metabolic regulation of N-acetylglucosamine and assisted metabolic profiling analysis [J]. Microbial Cell Factories, 19: 1-17.

[9] Cui JQ, Sun HB, Sun MB, Liang RT, Jie WG, Cai BY*., 2018. Effects of Funneliformis mosseae on root metabolites and rhizosphere soil properties to continuously-cropped soybean in the potted-experiments. International Journal of Molecular Sciences, 19(8): 2160.

[10] Cui JQ, Bai L, Liu XR, Cai BY*., 2018. Arbuscular mycorrhizal fungal communities in the rhizosphere of a continuous cropping soybean system at the seedling stage. Brazilian Journal of Microbiology, 49(2): 240-247.

[11] Cui JQ, Wang Y, Han J, Cai BY*., 2016. Analyses of the community compositions of root rot pathogenic fungi in the soybean rhizosphere soil. Chilean Journal of Agricultural Research, 76(2): 179-187.