- 姓名: 窦立广
- 性别: 男
- 职称: 副研究员
- 职务:
- 学历: 工学博士
- 电话: 010-82547294
- 传真:
- 电子邮件: douliguang@mail.iee.ac.cn
- 所属部门: 极端电磁环境科学技术研究部
- 通讯地址:
2011年-2013年 北京化工大学获得博士学位
2007年-2022年 中科院电工所助理研究员
2022年-今 中科院电工所副研究员
简 历:
社会任职:
等离子体能源转化;能源材料设计及制备;多相催化理论基础;等离子体零维仿真;反应分子动力学模拟;等离子体消毒学
研究方向:
[1] 国自然青年基金“镍基LDH/rGO衍生类纳米片阵列催化剂的结构调控及其光热CO2加氢应用”,负责
[2] 中石化总部课题“CO2电催化转化值C2-C4含氧化合物技术研究”,负责
[3] 国家重点研发计划子课题“空气绿色消毒技术装备研发及应用”,负责
[4] 强电磁工程与新技术国重实验室课题“放电脉冲等离子体用于高效催化CO2转化性能研究”,负责
[5] 新能源电力系统国重实验室课题“等离子体催化甲烷转化制备高品位能源耦合机制研究”,负责
承担科研项目情况:
[1] Pan J, Li B, Dou L*, et al. Efficient CH3OH formation on H2/Ar plasma‐treated CoO sites for CO2+ H2+ H2O DBD system[J]. Plasma Processes and Polymers, 2024, 21(1): 2300069.
[2] 杜军; 李嘉聪; 高远; 窦立广*; 潘杰; 邵涛 ; 脉冲等离子体驱动CO2加氢制备CH3OH电学参数调控对转化特性的影响, 高电压技术, 2023, 49(8): 3275-3285
[3] Chen G*, He B, Wang Y, He P, Dou L*, et al. Recent applications in dielectric barrier discharge and radio frequency plasmas‐engineered transition metal electrocatalysts for water splitting[J]. High Voltage, 2023, 8(6): 1115-1131.
[4] Li J, Dou L*, Liu Y, et al. One-step plasma reforming of CO2/CH4 into hydrogen and liquid fuels: the roles of Cu and Fe sites on products distribution[J]. Fuel Processing Technology, 2023, 242: 107648.
[5] Zhang T, Zhou R, Zhang S, et al. Sustainable ammonia synthesis from nitrogen and water by one‐step plasma catalysis[J]. Energy & Environmental Materials, 2023, 6(2): e12344.
[6] Dou L, Liu Y, Gao Y, et al. Disentangling metallic cobalt sites and oxygen vacancy effects in synergistic plasma-catalytic CO2/CH4 conversion into oxygenates[J]. Applied Catalysis B: Environmental, 2022, 318: 121830.
[7] Gao Y, Dou L, Zhang S, et al. Coupling bimetallic Ni-Fe catalysts and nanosecond pulsed plasma for synergistic low-temperature CO2 methanation[J]. Chemical Engineering Journal, 2021, 420: 127693.
[8] Li J, Dou L, Gao Y, et al. Revealing the active sites of the structured Ni-based catalysts for one-step CO2/CH4 conversion into oxygenates by plasma-catalysis[J]. Journal of CO2 Utilization, 2021, 52: 101675.
[9] Dou L, Fu M, Gao Y, et al. Efficient sulfur resistance of Fe, La and Ce doped hierarchically structured catalysts for low-temperature methanation integrated with electric internal heating[J]. Fuel, 2021, 283: 118984.
[10] Dou L, Yan C, Zhong L, et al. Enhancing CO2 methanation over a metal foam structured catalyst by electric internal heating[J]. Chemical communications, 2020, 56(2): 205-208.