职称:讲师
研究方向:热电转换器件结构设计优化;多物理场仿真与系统优化;先进电子封装技术;智能制造与生产管理;
隶属机构:工业工程系,智能制造及生产优化研究所
一、个人简介
张景双,女,郑州大学工学博士,现任郑州大学管理学院初聘副教授,主要从事热电转换器件结构设计;多物理场仿真与系统优化;先进电子封装技术;智能制造生产管理等研究。重点参与郑州市协同创新重大专项、河南省重点研发专项、科技创新领军人才项目。在Chemical Engineering Journal, Energy Conversion and Management, Energy, International Journal of Heat and Mass Transfer等期刊发表SCI论文十余篇。
二、教育背景
1. 2011年9月~2015年6月,郑州大学化工与能源学院,本科,学士
2. 2015年9月~2018年6月,天津大学化工学院,研究生,硕士
3. 2020年9月~2024年12月,郑州大学机械与动力工程学院,研究生,博士
三、科研项目
1. 超微型高性能半导体热电器件关键技术研发,河南省重点研发专项(项目编号:231111210100),参与,2023.01~2025.12;
2.高性能半导体制冷材料及组件产业化项目,郑州市协同创新重大专项(项目编号:18XTZX12005),参与,2018.11~2024.12;
3.热电器件微互连封装集成技术及服役可靠性研究,科技创新领军人才(项目编号:214200510014),参与,2020.12-2022.10;
四、发表论文
1.Zhang Jingshuang, Song Xiaohui, Tie Ying, et al. A novel sandwich-structural cooling and heating system with high power, high COP and small size based on thermoelectric cooler[J]. Energy Conversion and Management, 2024,322,119126
2.Zhang Jingshuang, Song Xiaohui, Lei Junfeng, et al. Performance and regression analysis of air-cooled thermoelectric cooling system using response surface methodology and numerical simulation [J]. International Journal of Heat and Mass Transfer, 2024, 228:125617.
3.Zhang Jingshuang, Song Xiaohui, Zhang Xiang, et al . Performance analysis and optimization of the rough-contact Bi2Te3-based thermoelectric cooler via metallized layers [J]. Case Studies in Thermal Engineering , 2022, 40
4. Zhang Jingshuang, Zhao Huadong, Feng Bo, et al. Numerical simulations and optimized design on the performance and thermal stress of a thermoelectric cooler [J]. International Journal of Refrigeration, 2023, 146(314-326.
5.Zhang Jingshuang, Ding He, Zhang Yixiao, et al. An efficient one-pot strategy for synthesizing hierarchical aluminosilicate zeolites using single structure directing agent [J]. Chemical Engineering Journal, 2018, 335:822-830.
6. Wang Zhuangfei,Zhang Jingshuang, Tie Ying, et al. Multi-parameter matching optimization of cooling performance and thermal stress in variable cross-section thermoelectric legs[J]. Energy, 2025: 138530.
7. Yang Haonan,Zhang Jingshuang, Xia Gaoju, et al. Analysis of air-cooling module with multi-TEC [J]. International Communications in Heat and Mass Transfer, 2022, 134
8.. Song Xiaohui, Chen Mingxiang, Zhang Jingshuang, et al. Study on Nanoporous Graphene-Based Hybrid Architecture for Surface Bonding [J]. Nanomaterials (Basel), 2022, 12(14).
9.XiaoZixing,Zhang Jingshuang, Ding He, et al.C22H45N+(CH3)2CH2(CH2)4CH2N(CH3)2Br−: A new effective one-step structure directing agent to synthesize hierarchical MFI zeolite with ordered hexagonal mesopores [J]. Microporous and Mesoporous Materials, 2019, 273(142-147.
10. Xie Xinren, Zhang Xiang,Zhang Jingshuang, et al. Performance analysis and optimal design of a water-cooled thermoelectric component for air cooling based on simulation and experiments [J]. International Communications in Heat and Mass Transfer, 2023, 141(
11. Zhou Fan,Zhang Jingshuang, Fu Tianyi, et al. Theoretical study on complexes and reactions of boron isotopic exchange separation with fluorinated anisoles as novel donors [J]. Journal of Radioanalytical and Nuclear Chemistry, 2018, 316(2): 587-594.
12.Zhou Fan, Zhang Jingshuang, Bai Peng, et al. Theoretical Calculation of Boron Isotopic Separation Factors in Ion-Exchange Chromatography [J]. Journal of Chemical & Engineering Data, 2016, 62(1): 525-531.
13. Ding He, Xiao Zixing,Zhang Jingshuang, et al. Hierarchical Hexagonal Zeolites: Intrinsic Transformation Directed by Precise Control of Synthetic Conditions [J]. Industrial & Engineering Chemistry Research, 2018, 57(15): 5282-5290.
14.Lyu Jiafei, Liu Hongxu,Zhang Jingshuang, et al. Metal–organic frameworks (MOFs) as highly efficient agents for boron removal and boron isotope separation [J]. RSC Advances, 2017, 7(26): 16022-16026.
15. Xia Gaoju, Zhao Huadong, Zhang Jingshuang, et al. Study on Performance of the Thermoelectric Cooling Device with Novel Subchannel Finned Heat Sink [J]. Energies, 2021, 15(1)
发明专利:
1.张景双,冯波,张瑞,等.一种热电材料碲化铋表面微孔道调节方法及表面镀镍的方法.发明专利号: ZL202110280955.7,已授权.
2.张景双,宋晓辉,赵晓刚,等.一种基于MOFs的复合热界面材料及其制备方法.发明专利号: ZL202111513158.5,已授权.
五、联系方式
办公地点:管理学院2号楼(化学馆办公楼)523室
邮箱:zhangjs@zzu.edu.cn
