[1]Fu X., Yan B., Li J.*, Wang Y., Cui X., Chen G., Wu W., Hou L., Insight into transformation of phosphorus species in biomass gasification at different stages, Bioresource Technology, 434, 132853 (2025).

[2]Che Y., Yan B., Li J.*, Zhao Z., Gao X., Chen G., Cravotto G., Sun Y., Zhao J., Microwave applied to the thermochemical conversion of biomass: A review, Renewable and Sustainable Energy Reviews, 216, 115674 (2025).

[3]Rajput M. I., Li J.*, Yan B., Chen G. Sun Y. Zhao J. A comparative Study of Steam Gasification and Combustion Methods for Landfill Stale Waste (LSW) Treatment. Journal of Environmental Management, 380, 124816 (2025).

[4]Wang Z., Chen X., , Zhao J., Li J.*, Liu H., Yan B., Chen G., Comprehensive evaluation of microwave pretreatment and anaerobic co-digestion for antibiotic fermentation residue and corn stalk: methanogenic performance and antibiotic degradation. Journal of Environmental Chemical Engineering, 13(2), 115599 (2025).

[5]Yan B., Chen X., Wang Z., Li J.*, Li T., Mu L., Chen G., Anaerobic co-digestion of antibiotic fermentation residues and corn stalks for biogas production and elimination of antibiotic resistance genes. Fuel, 387, 134442 (2025).

[6]Rajput M. I., Li J.*, Yan B., Chen G. Sun Y. Zhao J., Kinetic analysis of Landfill Stale Garbage (LSG) pyrolysis and combusiton behaviour using thermogravimetry coupled MS and FTIR technique. Journal of Analytical and Applied Pyrolysis, 183, 106794 (2024).

[7]Li J., X. Yang, L. Hou, B. Yan, Z. Cheng, J. Zhao, G. Chen, Pyrolysis-combustion of rural solid waste: Self-sustaining operation and pollutants emission. Fuel, 368, 131575 (2024).

[8]Fu, X., Li J.*, Yan, B., Chen, G., an Hou, L., Tao, J., Insights into biomass mild gasification based on mass-energy balance: Establishing condition, thermodynamic mechanisms and product properties. Chemical Engineering Journal, 148716 (2024).

[9]Yan, B., Jia, X., Li J.*, Li, Z., Che, Y., Zhou, Z., Zhao, J., Zhou, S., Chen, G., In-situ elimination of biomass gasification tar based on the understanding of tar formation process: A review. Journal of the Energy Institute, 101477 (2023).

[10]Jia, X., Che, Y., Li J.*, Yan, B., Cheng, Z., Chen, G., Zhao, J., From cellulose to tar: Analysis of tar formation pathway with distinguishing the primary and secondary reactions. Bioresource technology, 390, 129846 (2023).

[11]Yan, B., Yu, T., Li, J.*, Jia, X., Li, Z., Che, Y., Chen, G., Zhao, J., The mechanism of photothermal catalytic reforming of biomass tar: An exploratory study based on density functional theory. Fuel, 357, 129838 (2024).

[12]Chen, G., Cao, X., Che, Y., Zeng, D., Li J.*, Li, S., Zhao, J., Yan, B., Synergistic effect on low-pressure pyrolysis of biomass-plastic mixture as representative of Tibetan tourism solid waste. Journal of Analytical and Applied Pyrolysis, 175, 106181 (2023).

[13]Yan, B., Li, S., Cao, X., Zhu, X., Li J.*, Zhou, S., Zhao, J., Sun, Y., Chen, G., Flue gas torrefaction integrated with gasification based on the circulation of Mg-additive. Applied Energy, 333, 120612 (2023).

[14]Dong, X., Zhu, X., Lin, F., Yan, B., Li J.*, Chen, G., UV-vis-enhanced photothermal catalytic reforming of biomass model tar via LaMnxNi1-xO3 perovskite catalyst. Chemical Engineering Journal, 141112 (2022).

[15]Fu, Z., Xue, Y., Li J.*, Yan, B., Han, Z., Chen, G., Steam gasification of yak manure: Kinetic modeling by a sequential and coupling method. Fuel, 329, 125464 (2022).

[16]Yan, B., Che, Y., Wang, X., Zhang, Y., Li J.*, Dan, Z., Chang, K. Sewage sludge–highland barley straw composting in the Tibetan plateau: an experimental and simulative study. Biomass Conversion and Biorefinery (2022).

[17]Jiao, L., Li J.*, Yan, B., Chen, G., Ahmed, S. Microwave torrefaction integrated with gasification: Energy and exergy analyses based on Aspen Plus modeling. Applied Energy 319, 119255 (2022).

[18]Zhao, J., Wang, Z., Li J.*, Yan, B., Chen, G. Pyrolysis of food waste and food waste solid digestate: a comparative investigation. Bioresource Technology, 127191 (2022).

[19]Wang, Z., Sun, Y., Qu, J., Yang, F., Li J.*, Yan, B. Effects on mesophilic anaerobic digestion performance of corn stalk with the addition/ pretreatment of depolymerization wastewater. Fuel 322, 124234 (2022).

[20]Li, Z., Dong, X., Yan, B., Li J.*, Wang, J., Jiao, L., Chen, G., Ahmed, S., Cao, Y., Chemical looping gasification of digestate: Investigation on the surface and lattice oxygen of perovskite oxygen carrier. Fuel, 318, 123663 (2022).

[21]Zhu, X., Zhou, S., Zhang, Z., Zhang, Y., Li J., Ahmed, S., Yan, B., Chen, G., Li, N., Flue gas torrefaction of distilled spirit lees and the effects on the combustion and nitrogen oxide emission. Bioresource Technology, 125975 (2021).

[22]Li J., Jiao, L., Li, Z., Yan, B. *, Chen, G., Ahmed, S., Investigation of coke deposition during catalytic cracking of different biomass model tar: effect of microwave. Applied Catalysis A, General, 118325 (2021).

[23]Chen, G., Dong, X., Yan, B., Li J.*, Yoshikawa, K., Jiao, L., Photothermal steam reforming: A novel method for tar elimination in biomass gasification. Applied Energy, 305, 117917 (2022).

[24]Li J., Liu, H., Jiao, L., Yan, B., Li, Z., Dong, X., Chen, G., Microwave pyrolysis of herb residue for syngas production with in-situ tar elimination and nitrous oxides controlling. Fuel Processing Technology, 221, 106955 (2021).

[25]Li J., Tao, J., Yan, B., Jiao, L., Chen, G., Hu, J., Review of microwave-based treatments of biomass gasification tar. Renewable and Sustainable Energy Reviews, 150, 111510 (2021).

[26]Yan, B., Jiao, L., Li J.*, Zhu, X., Ahmed, S., Chen, G., Investigation on microwave torrefaction: Parametric influence, TG-MS-FTIR analysis, and gasification performance. Energy, 220, 119794 (2021).

[27]Yan, B., Li, Z., Jiao, L., Li J.*, Chen, G., Yang, G., Chemical looping gasification of Chlorella: Parametric optimization, reaction mechanisms, and nitrogen-containing pollutants emission. Fuel, 289, 119987 (2021).

[28]Li J., Wang, Q., Tao, J., Yan, B., Chen, G., Experimental and Comprehensive Evaluation of Vegetable Oils for Biomass Tar Absorption. ACS Omega, 5(31), 19579-19588 (2020).

[29]Li J., Jiao, L., Tao, J., Chen, G., Hu, J., Yan, B., Mansour, M., Guo, Y., Ye, P., Ding, Z., Yu, T., Can microwave treat biomass tar? A comprehensive study based on experimental and net energy analysis. Applied Energy, 272, 115194 (2020).

[30]Li J., Tao, J., Yan, B., Cheng, K., Chen, G., Hu, J., Microwave reforming with char-supported Nickel-Cerium catalysts: A potential approach for thorough conversion of biomass tar model compound. Applied Energy, 261, 114375 (2020).