（1）科研论文：

[1] P. Li^*, D. Wang, L. Zhang, C. Liu, F. Wu, Y. Wang, Z. Wang, Z. Zhao, W. Wu, Y. Liang, Z. Li, W. Wang, Y. Zheng^*, An in situ coupling strategy toward porous carbon liquid with permanent porosity. Small, 2021, 17, 2006687-2006692.

[2] Y. Wu, D. Wang, P. Li^*, X. Li^*, C. Wang, Z. He, Y. Xin, Y. Zheng^*, Zeolitic imidazolate frameworks based porous liquids for promising fluid selective gas sorbents. J. Mol. Liq., 2021, 342, 117522-117527.

[3] P. Li^#, R. Thankamony^#, X. Li, Z. Li, X. Liu, Z. Lai^*, Nanoporous polyethersulfone membranes prepared by mixed solvent phase separation method for protein separation. J. Membrane. Sci., 2021, 635, 119507-119515.

[4] P. Li^*, D. Qu, L. Zhang, C. Su, J. Ma, Q. Wang, C. Liu^*, Y. Wang, H. Feng, C. Li, W. Wu^*, A carbon nanosphere nanofluid for improving the toughness and thermal properties of epoxy composites. Nanotechnology, 2022, 33, 375704-375714.

[5] J. Ma, L. He, R. Yang, D. Wang, D. Qu, C. Su, H. Pang, W. Wu, P. Li^*, L. Zhang^*, X. Liu^*, Porous liquid metal-organic frameworks with selectively high gas solubility. Fuel, 2023, 344, 128051-128057.

[6] P. Li, J. Ma, L. He, S. Wu, P. Yang, L. Zhao, Y. Zhang^*, Y. Zhu^*, H. Tan^*, Pultrusion preparation and properties of continuous glass fiber reinforced polylactic acid thermoplastic composites. J. Appl. Polym. Sci., 2023, 140, 54292-54301.

[7] B. Cheng^#, J. Ma^#, X. Ju, F. Wei, W. Cheng, P. Li^*, X. Liu^*, Metal-organic framework-based porous liquids via surface functionalization engineering for selective gas adsorption. Sep. Purif. Technol., 2024, 18, 127994-127999.

[8] J. Yu^#, D. Qu^#, X. Wang^*, J. Ma, Y. Zheng, P. Zhang, X. Zhao, Y. Wang, P. Li^*, J. Zhang^*, A supercapacitor driven by MXene nanofluid gel electrolyte induced the synergistic high ionic migration rate and excellent mechanical properties. Adv. Funct. Mater., 2024, 35, 2414934-2414941.

[9] C. Su, Y. Wang, S. Zhang, M. Li, W. Wu^*, P. Li^*, L. Zhang^*, Hierarchical heterojunction microrods of MgO/Co₃O₄/ZnO for enhanced conductometric detection of ethylene glycol. ACS. Applied. Nano. Materials., 2024, 18, 21983-21992.

[10] B. Cheng^#, J. Ma^#, G. Zhang, L. He, S. Wang, S. Song, W. Cheng, P. Li^*, X. Liu^*, Electrostatic-assisted fabrication of hollow carbon sphere-based porous liquids for gas selective adsorption. Fuel, 2025, 380, 133260-133264.

[11] D. Wang, Y. Xin, X. Li, H. Ning, Y. Wang, D. Yao^*, Y. Zheng^*, Z. Meng, Z. Yang^*, Y. Pan, P. Li, H. Wang, Z. He, W. Fan, Transforming metal-organic frameworks into porous liquids via a covalent linkage strategy for CO₂ capture. ACS. Appl. Mater. Interfaces., 2021, 13, 2600-2609.

[12] D. Wang, H. Ning, Y. Xin, Y. Wang, X. Li, D. Yao^*, Y. Zheng^*, Y. Pan, H. Zhang, Z. He, C. Liu, M. Qin, Z. Wang, R. Yang, P. Li, Z. Yang, Transforming Ti₃C₂T_x MXenes into nanoscale ionic materials via an electronic interaction strategy. J. Mater. Chem. A., 2021, 9, 15441-15451.

[13] D. Wang, Y. Xin, D. Yao^*, X. Li, H. Ning, H. Zhang, Y. Wang, X. Ju, Z. He, Z. Yang^*, W. Fan, P. Li, Y. Zheng^*, Shining light on porous liquids: from fundamentals to syntheses, applications and future challenges. Adv. Funct. Mater., 2022, 32, 2414934-2414978.

[14] D. Wang^*, Y. Ying, Y. Xin, P. Li, Z. Yang^*, Y. Zheng^*, Porous liquids open new horizons: synthesis, applications and prospects. Acc. Mater. Res., 2023, 4, 854-866.

[15] K. Huang, L. Guo, L. Liu, X. Chen, C. Su, P. Li, Z. Deng^*, W. Wu^*, L. Zhang^*, Liquid metal-based printing synthesis of bismuth-doped gallium oxide and its application for a photodetector. J. Mater. Chem. C., 2023, 11, 12156-12162.

[16] T. Liu, Y. Rong, G. Zhou, G. Zhang, C. Su, P. Li, X. Yin, G. Wang, W. Wu^*, L. Zhang^*, Direct-writing MXene/polypropylene composites for wearable humidity sensors with multiple applications. IEEE. Sens. J., 2024, 24, 15241-15251.

[17] D. Wang, X. Xin, W. Fan, P. Li, W. Zhou, J. Liu, L. Qian^*, H. Ning, Y. Zhang, Y. Ying, D. Yao, Z. Zhang^*, Y. Zheng^*, Type I porous liquids with super‐low viscosities: the construction through a rather simple one‐step covalent linkage strategy and its facile regulation by a mixed‐ligand strategy. Small, 2025, 21, 2408466-2408474.

（2）申请/授权发明专利：

[1] 李沛沛，马杰，何立波，一种MOF基多孔液体制备方法，CN202211717974.2，已授权。

[2] 李沛沛，吴巍炜，何立波，马杰，张璐，苏晨，一种亲水氢氧化钆纳米片及其制备方法，CN202310516576.2，已授权。

[3] 李沛沛，吴巍炜，马杰，何立波，张璐，苏晨，一种无溶剂钆基流体及其制备方法，CN202310516577.7，已授权。

[4] 李沛沛，陈芳，吴巍炜，张璐，何立波，一种无溶剂钨基流体及其制备方法和应用，CN202410454386.7，实审中。

[5] 李沛沛，马杰，何立波，张璐，苏晨，一种双组份环氧树脂胶粘剂及其制备方法，CN202310734730.3，实审中。

[6] 陈建，吴巍炜，张兴武，李沛沛，潘多强，何立波，张璐，姚志猛，徐浩，阮晨杰，李振龙，一种纳米氧化钆粉体的制备方法，CN202410228844.5，实审中。

[7] 苏晨，张璐，吴巍炜，王元璋，李沛沛，一种MgO-Co₃O₄-ZnO异质结构微米线复合敏感材料、乙二醇传感器、制备方法及应用，CN202410531738.4，实审中。

[8] 张璐，吴巍炜，黄鹍，郭立豪，苏晨，李沛沛，一种可控掺杂铋原子的氧化镓薄膜、制备方法及应用，CN202311045981.7，实审中。

[9] 张璐，苏晨，刘伟庆，吴巍炜，黄鹍，李博润，李沛沛，一种液-液界面原位生长的异质结及其制备方法，CN202411374761.3，实审中。