[1] 主持, 中央高校基本科研业务费-科技创新项目, 2024-2026, 在研. 

[2] 主持, 四川省自然科学基金青年科学基金项目, 2025-2026, 在研.  

[3] 主持, 四川省高校共建与发展专项资金-培育项目, 2024-2026, 在研.  

[4] 主持, 2024年校级大学生创新训练计划(SRTP), 2024-2025, 在研.  

#共同作者，*通讯作者

After join SWJTU

To be continued...

[24] G. Feng, X. Yang, X. Liu, Y. Wang, Y. Xie, P. Dong, X. Jiao, C. Liu*, J. Zhao, Y.S. Hu, W. Yang*. Microbially glycolysis-regulated hard carbons for sodium-ion batteries. Nano Energy, 2025, 136, 110728. (IF:16.8)

[23] Y. Lin, F. Lin, M. Zhang, X. Jiao, P. Dong, W. Yang*. Stress Release of Zincophilic N-Doped Carbon@Sn Composite on High-Curvature Surface of Zinc Foam for Dendrite-Free 3D Zinc Anode. Small Methods, 2025, 2401817. (IF:10.7)

[22] P. Dong*, Y. Cha, X. Zhang, J. Zamora, M.-K. Song*. Poly(ethylene) Oxide Electrolytes for All-Solid-State Lithium Batteries Using Microsized Silicon/Carbon Anodes with Enhanced Rate Capability and Cyclability. ACS Appl. Mater. Inter., 2024, 16, 41018–41026. (IF:8.3) 

[21] T. Duan, H. Cheng*, Y. Liu, Q. Sun, W. Nie, X. Lu*, P. Dong*, M.-K. Song. A Multifunctional Janus Layer for LLZTO/PEO Composite Electrolyte with Enhanced Interfacial Stability in Solid-State Lithium Metal Batteries. Energy Stor. Mater., 2024, 65, 103091. (IF:18.9)

Before join SWJTU

[20] P. Dong#, X. Zhang#, W. Hiscox, J. Liu, J. Zamora, X. Li, M. Su, Q. Zhang, X. Guo, J. McCloy, M.-K. Song*. Towards High-Performance Metal-Organic-Framework-Based Quasi-Solid-State Electrolytes: Tunable Structures and Electrochemical Properties. Adv. Mater., 2023, 35, 2211841. (IF:29.4)

[19] P. Dong, X. Zhang, J. Zamora, J. McCloy, M.-K. Song*. Silk Fibroin-based Biopolymer Composite Binders with Gradient Binding Energy and Strong Adhesion Force for High-Performance Micro-Sized Silicon Anodes. J. Energy Chem., 2023, 80, 442–451. (IF:13.1)

[18] L. Tian, Z. Yang, M. Wang, Y. Guo, K. Liang, B. Niu, Y. Zhang, P. Dong*, D. Long*. Click Chemistry-initiated Highly Uniform Semi-Interpenetrating Polymer Electrolyte with Dual Salts for High Performance lithium Metal Batteries. J. Power Sources, 2023, 565, 232884. (IF:9.794)  

[17] X. Zhang, P. Dong, S. Noh, X. Zhang, Y. Cha, S. Ha, J.-H. Jang, M.-K, Song*. Unravelling the Complex LiOH-Based Cathode Chemistry in Lithium–Oxygen Batteries. Angew. Chem. Int. Ed., 2023, 62, e202212942. (IF:16.82)

[16] S. Yang, X. Tian, Q. Zhang*, J. Jiang, P. Dong, J. Tan, Y. Meng, P. Liu, H. Bai, J. Song. Microorganism Inspired Hydrogels: Optimization by Response Surface Methodology and Genetic Algorithm based on Artificial Neural Network. European Polymer Journal, 2023, 201, 112497. (IF:6.0)

[15] P. Dong, X. Zhang, K.S. Han, Y. Cha, M.-K. Song*. Deep Eutectic Solvent-based Polymer Electrolyte for Solid-State Lithium Metal Batteries. J. Energy Chem., 2022, 70, 363–372. (IF:13.1) 

[14] L. Tian, M. Wang, Y. Liu, Z. Su, B. Niu, Y. Zhang, P. Dong*, D. Long*. Multiple Ionic Conduction Highways and Good Interfacial Stability of Ionic Liquid-Encapsulated Cross-linked Polymer Electrolytes for Lithium Metal Batteries. J. Power Sources, 2022, 543, 231848. (IF:9.794)      

[13] Z. Zhang, L. Tian, H. Zhang, H. Xu, P. Dong*, Y. Zhang*, D. Long*. Hexagonal Rod-like Cu-MOF-74-derived Fillers Reinforced Composite Polymer Electrolyte for High-performance Solid-state Lithium Batteries. ACS Appl. Energy Mater., 2022, 5, 1, 1095–1105. (IF:6.959)  

[12] X. Zhang, P. Dong, M.-K. Song*. Advances in Lithium–Oxygen Batteries Based on LiOH Formation and Decomposition. Frontiers in Chemistry, 10, 923936, 2022. (IF=5.545, Invited Review & Rising stars in Electrochemistry 2021)

[11] L. Tian, Y. Liu, Z. Su, Y. Cao, W. Zhang, S. Yi, B. Niu, Y. Zhang, P. Dong*, D. Long*. A Lithiated Organic Nanofiber-Reinforced Composite Polymer Electrolyte Enabling Li-ion Conduction Highways for Solid-State Lithium Metal Batteries. J. Mater. Chem. A, 2021, 9, 23882–2380. (IF:14.511)    

[10] U.J. Ryu, W.H. Choi, P. Dong, J. Shin*, M.-K. Song*, K.M. Choi*. Comparing Internal and Interparticle Space Effects of Metal–Organic Frameworks on Polysulfide Migration in Lithium–Sulfur Batteries. Nanomaterials, 2021, 11, 10, 2689. (IF=5.719)  

[9] P. Dong, X. Zhang, Y. Cha, J.I. Lee, M.-K. Song*, In Situ Surface Protection of Lithium Metal Anode in Lithium–Selenium Disulfide Batteries with Ionic Liquid-Based Electrolytes, Nano Energy, 2020, 69, 104434. (IF:16.8)  

[8] X. Zhang, P. Dong, J.I. Lee, Y. Cha, M.-K. Song*. Enhanced Cycling Performance of Rechargeable Li–O2 batteries via LiOH Formation and Decomposition Using High-Performance MOF-74@CNTs Hybrid Catalysts. Energy Stor. Mater., 2019, 17, 167–177. (IF=18.9)

[7] X. Zhang#, P. Dong#, M.-K. Song*. Metal–Organic Frameworks for High-Energy Lithium Batteries with Enhanced Safety: Recent Progress and Future Perspectives. Batteries & Supercaps 2019, 2, 591–626. (IF:6.043, Cover Feature)  

[6] P. Dong, K.S. Han, J.I. Lee, X. Zhang, Y. Cha, M.-K. Song*, Controlled Synthesis of Sulfur-rich Polymeric Selenium Sulfides as Promising Electrode Materials for Long-life, High-rate Lithium Metal Batteries. ACS Appl. Mter. Inter., 2018, 35, 10, 29565–29573. (IF:8.3) 

[5] X. Zhang#, C.Y. Chuah#, P. Dong, Y. Cha, T.H. Bae*, M.-K. Song*. Hierarchically Porous Co-MOF-74 Hollow Nanorods for Enhanced Dynamic CO2 Separation. ACS Appl. Mater. Inter., 2018, 10, 50, 43316–43322. (IF=8.3)

[4] Y. Cha, J.I. Lee, P. Dong, X. Zhang, M.-K. Song*. Novel CO2-Thermic Oxidation Process with Mg-Based Intermetallic Compounds and Its Application to Energy Storage Materials. ChemRxiv, 2018, doi: https://doi.org/10.26434/chemrxiv.6838478.v1. 

[3] S. Feng, H. Zhong, J. Song, C. Zhu, P. Dong, Q. Shi, D. Liu, J. Li, Y.C. Chang, S. P. Beckman, M.-K. Song, D. Du, Y. Lin*. Catalytic Activity of Co-X (X= S, P, O) and its Dependency on Nanostructure/Chemical Composition in Lithium-Sulfur Batteries. ACS Appl. Energy Mater., 2018, 1, 12, 7014–7021. (IF=6.959)

[2] J. Song#, S. Feng#, C. Zhu, J.I. Lee, S. Fu, P. Dong, M.-K. Song*, Y. Lin*. Tuning the structure and composition of graphite-phase polymeric carbon nitride/reduced graphene oxide composites towards enhanced lithium–sulfur batteries performance. Electrochimica Acta, 2017, 248, 541–546. (IF=7.336) 

[1] Q. Zhang*, P. Dong, L. Chen, X. Wang, S. Lu. Genipin‐cross‐linked thermosensitive silk sericin/poly(N‐isopropylacrylamide) hydrogels for cell proliferation and rapid detachment. J. Biomedical Mater. Research Part A, 2014, 102, 1, 76-83. (IF:4.854)

[1] 董盼盼*，纳米MOFs复合材料的可控设计及其电化学性能研究，第二十二次全国电化学大会，中国海南，2024年11月，大会报告。

[2] 董盼盼*，多孔金属有机框架的结构设计及其在固态锂电池应用研究，中国化学会第三届能源化学青年论坛，中国重庆，2024年10月，大会报告。

[3] 董盼盼*，基于多孔金属有机框架的复合材料结构设计及其电化学性能研究，中国材料大会2024暨第二届世界材料大会，中国广州，2024年7月，大会报告。

[4] 董盼盼*，耐高压金属有机框架电解质的结构调控与性能研究，第6届锂离子电池检测技术与应用网络会议，2024年5月，邀请报告。

[5] 董盼盼*，Toward High-Performance Metal–Organic-Framework-Based Quasi-Solid-State Electrolytes: Tunable Structures and Electrochemical Properties，第五届储能材料国际研讨会，中国深圳，2024年4月，学术墙报。

[6] 董盼盼*，基于MOF的高性能准固态电解质的合理设计与未来展望，第三届中国固态电池技术创新与产业化应用研讨会，中国苏州，2023年，大会报告。

[7] 董盼盼*，微米级硅负极用生物高分子复合粘结剂的研究，第五届中国锂电正负极材料技术创新与产业化研讨会，中国长沙，2023年，大会报告。

[8] 董盼盼*，聚合物复合电解质及其界面性能研究进展，第二届中国固态电池技术创新与产业化应用研讨会，2022年，大会报告。

[9] P. Dong, et al. Solid-State Electrolytes for Lithium–Selenium Disulfide Batteries with Enhanced Safety. TMS2020年会，美国圣地亚哥，2020年2月。(学术海报)   

[10] P. Dong, et al. High-Energy Lithium/SeS2 Batteries with Hierarchical Nanocomposite Cathode and Ionic Liquid-Based Electrolytes. 第236届国际电化学会议，美国亚特兰大，2019年10月。(学术海报)     

[11] P. Dong*, et al. Polymeric Selenium Sulfides as Promising Cathode Materials for High-Energy Lithium Batteries. 第233届国际电化学会议，美国西雅图，2018年5月。(口头报告) 

[12] P. Dong, et al. Design and Synthesis of Hierarchical SeS2/C Nanocomposite Cathodes for High Performance Lithium Batteries with Ether-Based Electrolytes. 第233届国际电化学会议，美国西雅图，2018年5月。(学术海报) 

[13] P. Dong*, et al. Selenium Sulfide Composites as Promising Electrode Materials for Rechargeable Batteries with Enhanced Electrochemical Performance. 美国材料研究学会秋季会议，美国波士顿，2016年11月。(口头报告) 

[1] P. Dong, M.-K. Song. Aqueous self-crosslinking composite binders of electrodes. 2024, US 2024/0079593 A1.

[2] P. Dong, X. Zhang, M.-K. Song. Metal-Organic-Framework-based Electrolytes for Solid-state Batteries. US provisional patent, 2022, 63/330,842.

[3] 张青松;董盼盼; 王小召; 陈莉; 鲁思. 一种细胞片层智能脱附水凝胶及其应用. 授权公共号：CN102718928B. 

[4] 张青松; 陈莉; 赵义平; 董盼盼; 马静; 李洪春. 含有纳米粘土的高吸附性水凝胶及其制备方法和应用. 授权公告号：CN101942167B. 

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