龚鹏剑博士，副教授，博士生导师，高分子材料工程国家重点实验室（公司）固定成员。2007年获得上海交通大学学士学位，2010年获得华东理工大学硕士学位，2013年获得日本京都大学博士学位，2014至2016年在加拿大多伦多大学从事博士后研究（合作导师：中国工程院外籍院士ChulB. Park教授），2016年作为引进人才入职澳门新浦新京8455com(中国)有限公司，2018年获高分子材料工程国家重点实验室优秀青年人才，2020年获四川省海外高层次留学人才，2021年获全国石油和化工教育优秀教学团队奖。

作为项目负责人主持国家自然科学基金（面上和青年）、省科技厅国际合作、校企合作等 10 余项纵/横向项目，作为骨干研发人员参研多项国家自然科学基金重点/重大、国防军工、重大校企合作等项目；承担《高分子物理》和《材料表征方法》等本/硕教学工作；在GreenChemistry,Carbon,Prog.Org. Coat.,Polymer,Ind. Eng. Chem. Res., Chem. Eng. Sci.等材料和工程领域杂志发表论文30 余篇，作为第一发明人申请发明专利20 余项（其中已授权8项），授权实用新型专利5项。

2016年回国后一直致力于多孔材料结构性能研究与通信透波材料产业化应用开发，采用绿色环保的超临界发泡新方法，结合数值模拟设计材料结构，发展了新型高性能化和多功能化发泡新材料，尤其在5G通信方面有效提升新一代毫米波通讯效率。基于现有研发成果，与华为、陶氏、中石化、集萃等企业联合开展了多项信息通讯和绿色制造的产业化开发，自主设计并投产了5G高通量透波新材料生产线，用于中继天线、卫星天线、5G基站等。

为贯彻国家在“加快壮大新一代信息技术等产业”的战略部署，和相应《中国制造2025》提出的制造业绿色改造升级，我们以高分子材料为基材利用超临界发泡加工新技术创制满足新一代信息技术的新型高通量透波材料。正从以下三个方面推动相关领域研究：

（1）5G通讯材料（新材料结构设计）。在材料中引入大量空气，推动超临界发泡制备毫米波高通量透波新材料的加工制备，助力新型5G基础设施开发，在新一代信息通讯建设方向发挥高分子微孔材料的高透波性能优势；

（2）基础理论（实验和数值模拟）。高性能多孔功能材料的工程应用（透波、隔热、电磁屏蔽、导电、轻量化）、多孔介质能量传导的理论研究（热能、电磁能）、聚合物纳米复合材料的加工（石墨烯、碳纳米管）、微孔发泡的技术与理论（泡孔成核、泡孔生长）；

（3）国际合作（CIAMP）。与中国工程院外籍院士Park教授展开紧密合作，将其在北美的轻量化材料产业应用中心(CIAMP)的成功经验应用于国内发泡产业，推动国内绿色环保超临界发泡升级。

代表性研究成果：

1.Xutao Zhang, Pengzhi Li, Zhenghui Xie, Bihui Jin,Pengjian Gong*, Chul B. Park, and Guangxian Li*, “Ultra-low Dielectric Loss, Environment Resistant and Flame Retardant PTFE in-situ Nanofibril Modified FEP Foam Using Supercritical CO₂Foaming”,Journal ofCO2 Utilization,2022, 65: 102226

2.Pengzhi Li, Bin Lan, Xutao Zhang, Siyuan Lei, Qi Yang*,Pengjian Gong*, Chul B. Park and Guangxian Li, “Facile In-Situ Construction of Covalent Adaptable Network in Polyester Vitrimer for Advanced Performance in Repairability, Foamability and Recyclability”,Green Chemistry,2022, 24(14): 5490-5501 and selected asFRONT COVER

3.Yanting Li, Yunjie Liu,Pengjian Gong*, Yanhua Niu, Chul B. Park, and Guangxian Li*, “Graphene Embedded Hybrid Network Structure to Render Olefin Block Copolymer Foams with High Compression Performance”,Industrial & Engineering Chemistry Research,2022, 61(27): 9735-9744

4.Qiang Zhang, Feiran Meng, Yanting Li, Haoyu Ma,Pengjian Gong*, Junlong Yang, Chul B. Park and Guangxian Li*, “Construction of Two-Dimension Response Network in Three-Dimension Composite to Dramatically Enhance Sensor Sensitivity: A Simple, Feasible and Green Regulating Strategy”,Industrial & Engineering Chemistry Research,2022,61(23), 8069-8080

5.Pengzhi Li, Bin Lan, Qiang Zhang, Qi Yang*,Pengjian Gong*, Chul B. Park and Guangxian Li, “Microcellular Foams Simultaneous Reinforcing and Toughening Strategy of Combining Nano-fibrillation Network and Supercritical Solid-State Foaming”,Polymer,2022,252: 124928.

6.Yunjie Liu, Yanting Li,Pengjian Gong*, Yanhua Niu, Chul B. Park, Guangxian Li*, “Three-Dimension Polymer Nanofiber Structures for Liquid Contamination Adsorption”,ACS Applied Nano Materials,2022, 5(4): 5640-5651.

7.Haoyu Ma, Bihui Jin,Pengjian Gong*, Bin Lan, Chao Qin, Yajiang Huang, Chul B. Park and Guangxian Li*,“Using a Supercritical Fluid-Assisted Thin Cell Wall Stretching–Defoaming Method to Enhance the Nanofiller Dispersion, EMI Shielding, and Thermal Conduction Property of CNF/PVDF Nanocomposites”,Industrial & Engineering Chemistry Research,2022, 61(10): 3647-3659 and selected asCOVER IMAGE

8.Yanting Li, Ziyan Zhang, Weimiao Wang,Pengjian Gong*, Qi Yang, Chul B. Park, Guangxian Li*, “Ultra-Fast Degradable PBAT/PBS Foams of High Performance in Compression and Thermal Insulation made from Environment-Friendly Supercritical Foaming”,The Journal of Supercritical Fluids,2022,181: 105512.

9.Qiang Zhang, Haoyu Ma,Pengjian Gong*, Yajiang Huang, Chul B. Park and Guangxian Li*, “Fluorescence Assisted Visualization and Destruction of Particles Embedded Thin Cell Walls in Polymeric Foams via Supercritical Foaming”,The Journal of Supercritical Fluids,2022,181: 105511.

10.Bihui Jin, Feiran Meng, Haoyu Ma, Bowen Zhang,Pengjian Gong*, Chul B. Park, and Guangxian Li*, “Synergistic Manipulation of Zero-Dimension and One-Dimension Hybrid Nanofillers in Multi-Layer Two-Dimension Thin Films to Construct Light Weight Electromagnetic Interference Material”,Polymers,2021, 13(19): 3278.

11.Yanting Li,Pengjian Gong*, Yunjie Liu, Yanhua Niu, Chul B. Park, Guangxian Li*, “Environmentally-Friendly and Zero-Formamide EVA/LDPE Microcellular Foams via Supercritical Carbon Dioxide Solid Foaming”,ACS Applied Polymer Materials,2021, 3(8): 4213-4222.

12.Haoyu Ma,Pengjian Gong*, Yunjiao Qiao, Yajiang Huang, Chul B. Park, Hong Jiang and Guangxian Li*, “Nanofiber Fluorescence Coating for Evaluation of Complex Solid-/Gas-Multi-Phase and Nano-/Micro-Multi-Scale Nanocomposite Foam Structure”,Progress in Organic Coatings,2021, 154: 106183.

13.Bin Lan, Pengzhi Li,XiehuaiLuo, Heng Luo, Qi Yang*andPengjian Gong*, “Hydrogen Bonding and Topological Network Effects on Optimizing Thermoplastic Polyurethane/Organic Montmorillonite Nanocomposite Foam”,Polymer,2021, 212: 123159.

14.Bin Lan, Pengzhi Li, Qi Yang*andPengjian Gong*, “Dynamic Self Generation of Hydrogen Bonding and Relaxation of Polymer Chain Segment in Stabilizing Thermoplastic Polyurethane Microcellular Foams”,Materials Today Communications,2020, 24: 101056.

15.Haoyu Ma,Pengjian Gong*, Shuo Zhai, Yajiang Huang, Yanhua Niu, Chul B. Park and Guangxian Li, “Multi-Dimensional Analysis of Micro-/Nano-Polymeric Foams by Confocal Laser Scanning Microscopy and Foam Simulations”,Chemical Engineering Science,2019, 207: 892-902.

16.Pengjian Gong*, Shuo Zhai, Richard Lee, Chongxiang Zhao, Piyapong Buahom, Guangxian Li and Chul B. Park*,“Environmentally Friendly Polylactic Acid-Based Thermal Insulation Foams Blown with Supercritical CO₂”,Industrial & Engineering Chemistry Research,2018, 57, 5464-5471.

17.PengjianGong*,GuilongWang,Minh-Phuong Tran, Piyapong Buahom, Shuo Zhai, Guangxian Li, and Chul B. Park*, “Advanced Bimodal Polystyrene/Multi-walled Carbon Nanotube Nanocomposite Foams for Thermal Insulation”,Carbon,2017, 120: 1-10.

欢迎对5G材料、信息通讯、数值模拟、绿色环保方向感兴趣的有志青年加入！

联系方式：

地址：澳门新浦新京8455com(中国)有限公司科教楼202室，邮编610065

电话：028-8540 1841

邮箱：pgong@scu.edu.cn

研究生招生：

1.每年计划招收博士研究生1~2 名，招生专业：080503 材料加工工程

2.每年计划招收硕士研究生 2~3 名（全日制）和2~3 名（非全日制），招生专业：080503 材料加工工程 或085600 材料与化工[02塑料工程]