暂无

（1）国家自然科学基金青年科学基金项目，静电纺丝串并联结构提升聚合物电介质材料储能性能的机制研究，

   主持，2022.01-2024.12

（2）电力设备电气绝缘国家重点实验室开放课题，新型变刚度介电弹性体材料及其柔性电驱动的应用验证，

   主持，2023.04-2024.12

（3）电力系统国家重点实验室自主课题（面上）项目：新型变刚度介电弹性体材料及其柔性电驱动应用验证  

   主持，2022.07-2023.12

（4）2023国家科技重大专项子课题：直流电容器高能量密度与热管理协同设计及研制，主持，2028.08-2029.07

（5）科技部“储能与智能电网技术”专项国家重点研发计划，干式直流电容器用电介质薄膜材料，

   参与，2021.12-2025.11

（6）企业横向课题（东方电机），极端服役条件下绝缘结构的破坏机制模拟及先进表征分析，

   参与，2024.06-2025.12

（7）企业横向课题（东方电机），高海拔水轮发电机防晕系统失效过程的精细化仿真及关键特征的测试技术，

   参与，2024.06-2025.06。

[1]Kun Xing; Yanan Hao; Xin-Jie Wang; Lei Huang; Yi Gao; Tong Liang; Yan Meng; Ke Bi; ShaoLong Zhong; Zhi-Min Dang ; Enhanced energy storage performance of nano-submicron structural dielectric films by suppressed ferroelectric phase aggregation, Nature communications, 2025, 16: 2006

[2] Qi-Kun Feng; Shao-Long Zhong; Jia-Yao Pei; Yu Zhao; Dong-Li Zhang; Di-Fan Liu; Yong-Xin,Zhang; Zhi-Min Dang ; Recent Progress and Future Prospects on All-Organic Polymer Dielectrics for Energy Storage Capacitors, Chemical Reviews, 2022, 122(3): 3820-3878

[3]Fan Zhang; Guangheng Wang; Na Lin; Juanjuan Zhou; Shaolong Zhong; Mengxue Yuan; Bo Li; Wenying Zhou ; Synergistic promotion of inter-particle and intra-particle polarizations in BST@TiO2/PVDF nanocomposites towards elevated dielectric properties, Composites Science and Technology, 2024, 251: 110547

[4]Xiaolong Chen; Wenying Zhou; Fang Wang; Hongju Wu; Shaolong Zhong; Bo Li ; Meliorative dielectric properties in core@double-shell structured Al@Al2O3@PDA/PVDF nanocomposites via decoupling the intra-particle polarization and inter-particle polarization, Materials Today Energy, 2024, 41: 101543

[5]Shao-Long Zhong; Di-Fan Liu; Lei Huang; Yong-Xin Zhang; Qi Dong; Zhi-Min Dang ; Prediction on the relative permittivity of energy storage composite dielectrics using convolutional neural networks: A fast and accurate alternative to finite-element method, iEnergy, 2022, 1(4): 463-470

[6]Yongzhi Yang; Xiaoqian Liu; Yuchao Li; Minghui Lu; Ziyu Zhang; Yanhu Zhan; Yankai Li; Zhi-Min Dang; Shao-Long Zhong; Dongxin He; Zhicheng Shi ; Facile construction of copper nanoparticles decorated 3D calcium titanate toward tunable high dielectric and energy storage epoxy composites, Ceramics International, 2024

[7]Yan-Hui Song; Li-Juan Yin; Shao-Long Zhong; Qi-Kun Feng; Haidong Wang; Pinjia Zhang; HaiPing Xu; Tong Liang; Zhi-Min Dang ; A processab e high thermal conductivity epoxy composites with multi-scale particles for high-frequency electrical insulation, Advanced Composites and Hybrid Materials, 2024, 7(4): 115

[8]Shao-Long Zhong; Ziming Cai; Jun-Wei Zha; Yu Zhao; Zhi-Min Dang ; Effect of interparticle electrostatic interactions on the dielectric response of 0–3 connectivity particle/polymer composites for high energy density storage, Journal of Applied Physics, 2020, 127: 184106

[9]Liu, Xiaoxu; Chen, Dongyang; Li, Jialong; Zhong, Shao-Long; Feng, Yu; Yue, Dong; Sheng, Dawei; Chen, Haonan; Hao, Xiaodong; Dang, Zhi-Min ; Atomic-Level Matching Metal-Ion Organic Hybrid Interface to Enhance Energy Storage of Polymer-Based Composite Dielectrics, ADVANCED MATERIALS, 2024, 36(28): 2402239

[10]Yin, Li-Juan; Du, Boyuan; Hu, Hui-Yi; Dong, Wen-Zhuo; Zhao, Yu; Zhang, Zili; Zhao, Huichan; Zhong, Shao-Long; Yi, Chenyi; Qu, Liangti; Dang, Zhi-Min; Yin, Li-Juan; Du, Boyuan; Hu, Hui-Yi; Dong, Wen-Zhuo; Zhao, Yu; Zhang, Zili; Zhao, Huichan; Zhong, Shao-Long; Yi, Chenyi; Qu, Liangti; Dang, Zhi-Min ; A high-response-frequency bimodal network polyacrylate elastomer with ultrahigh power density under low electric field, Nature Communications, 2024, 15(1): 9819

[11]Xue-Jie Liu; Shao-Long Zhong; Ming-Sheng Zheng; Zhi-Min Dang; George Chen; Jun-Wei Zha ;Enhanced High-Temperature Capacitive Perform nce of a Bilayer-Structured Composite Film Employing a Charge Blocking Layer, ACS Applied Materials&Interfaces, 2022, 15: 1105-1114

[12]Jia-Yao Pei; Shao-Long Zhong; Yu Zhao; Li-Juan Yin; Qi-Kun Feng; Lei Huang; Di-Fan Liu; Yong-Xin Zhang; Zhi-Min Dang ; All-organic dielectric polymer films exhibiting superior electric breakdown strength and discharged energy density by adjusting electrode-dielectric interface withorganic nano-interlayer, Energy & Environmental Science, 2021, 14: 5513-5522

[13]Zhou, Wenying; Cao, Guozheng; Yuan, Mengxue; Zhong, Shaolong; Wang, Yandong; Liu, Xiangrong; Cao, Dan; Peng, Weiwei; Liu, Jing; Wang, Guangheng; Dang, Zhi-Min; Li, Bo ; Core-Shell Engineering of Conductive Fillers toward Enhanced Dielectric Properties: A Universal Polarization Mechanism in Polymer Conductor Composites, Advanced Materials, 2023, 35(2): 2207829

[14]Wenying Zhou; Ting Li; Mengxue Yuan; Bo Li; Shaolong Zhong; Zhen Li; Xiangrong Liu; Juanjuan Zhou; Yun Wang; Huiwu Cai; Zhi-Min Dang ; Decoupling of inter-particle polarization and intra-particle polarization in core-shell structured nanocomposites towards improved dielectric performance, Energy Storage Materials, 2021, 42: 1-11

[15]Liu, Di-Fan; Feng, Qi-Kun; Zhang, Yong-Xin; Zhong, Shao-Long; Dang, Zhi-Min ; Prediction of high-temperature polymer dielectrics using a Bayesian molecular design model, Journal of Applied Physics, 2022, 132(1): 014901

（1）中国复合材料学会介电高分子复合材料及应用专委会,委员

（2）《电力电容器与无功补偿》期刊青年编委

（3）《iEnergy》期刊青年编委