林建平
博士 教授
个人简介
林建平,男,博士,厦门理工学院教授,巴黎中央理工大学(Ecole Centrale Paris)访问学者。2013年获得西安交通大学博士学位,随后进入中国科学院福建物质结构研究所从事助理研究员工作,2014年6月进入厦门理工学院材料科学与工程学院电子封装技术系工作。
近年来主要从事新能源材料与器件研究,在热电材料,计算机相变存储材料,测试仪器与器件设计开发上有较深入的研究。作为主要研究人员主持和参与国家自然科学基金项目等10余项课题的研究。在《Journal of the American Chemical Society》、《Applied Physics Letters》等期刊发表SCI论文20余篇,申请和授权专利14项,出版教材1部,指导国家级省级创新创业项目6项。指导学生获得优秀毕业设计10次。主要授课课程包含《材料性能学》、《封装热管理》、《电子封装可靠性》、《有限元仿真技术》。
主要招生方向: [1]. 新能源材料与器件及其测试仪器的研究与开发 [2]. 新型计算机存储技术及其半导体器件的封装与开发 [3]. 多尺度计算机模拟,第一性原理、分子动力学及有限元仿真
近年来承担的主要科研项目: [1]. 国家自然科学基金面上项目(52073240),2021.01~2024.12,主持。 [2]. 国家自然科学基金青年项目(51602272),2017.01~2019.12,主持。 [3]. 国家自然科学基金面上项目(21573184),2016.01~2018.12,排名第四。 [4]. 福建省自然科学基金面上项目(2016J01745),2016.04~2019.04,主持。 [5]. 福建省中青年教育科研项目(JA15366),2015.06~2018.06,主持。 [6]. 国家重点实验室开放基金(5027205),2016.06~2018.05,主持。 [7]. 企业委托(横向)项目(HX15062),2015.09~2017.09,主持。
近年来获专利情况: [1].国家发明专利:高稳定性Zn4Sb3热电复合材料及其制备方法,201710098786.9 [2].国家发明专利:一种电场驱动原位梯度热电材料的制备方法,201310254444.3 [3].国家发明专利:一种能够对不同形状物体表面进行温控的装置,201710247897.1 [4].国家发明专利:一种智能风扇,201710284472.8 [5].国家发明专利:一种圆片试样的自动打磨装置,201710399788.1 [6].国家发明专利:高稳定性Cu2-xSe复合热电材料及其制备方法,201710098778.4 [7].国家发明专利:一种打磨条形试样的机械装置,201710400732.3 [8].国家发明专利:一种高损伤容限陶瓷金属复合材料及其制备方法,201910571167.6 [9].国家发明专利:一种电动车起火快速应对装置及系统,201911393086.8 [10].国家发明专利:一种汽车起火隔离装置,201911265559.6 [11].国家发明专利:一种车载电池温度调节装置和方法,202010575863.7 [12].国家发明专利:一种热电材料悬浮方法及应用,202010401500.1 [13].国家发明专利:一种原位生成的核壳结构热电材料及其制备方法,202010727221.4 [14].国家发明专利:一种快速制备均质热电材料的方法及模具,202011334854.5
研究领域
新能源材料与器件、新型计算机存储技术及其半导体器件的封装与开发
近期论文
[1] Jianping Lin, Xudong Li, Guanjun Qiao*, Zhao Wang* ,Jesus Carrete, Yang Ren, Lingzhi Ma, Youjian Fei, Baifeng Yang, Lei Lei, and Ju Li*. Unexpected High-Temperature Stability of β-Zn4Sb3 Opens the Door to Enhanced Thermoelectric Performance[J]. Journal of the American Chemical Society, 2014, 136: 1497-1504.
[2] Jianping Lin*, Yahui Hu, Lijun Pan, Ke Xie, Lingzhi Ma, Shulin Zhang, Zhao Wang, Mi Lu, and Guanjun Qiao. Repairable Characteristic of Zn4Sb3 and Its Influence on Thermoelectric Performance[J]. ACS Applied Energy Materials, 2021, 4(5): 5332-5338.
[3] Jianping Lin*, Lingzhi Ma, Quan Liu, Ke Xie, Yahui Hu, Luping Zhang, Shunxu Li, Mi Lu, Guanjun Qiao. Continuous phase transition in thermoelectric Zn4Sb3[J]. Materials Today Energy, 2021, 21: 100787.
[4] Ke Xie, Yahui Hu, Lingzhi Ma, HongYan Xia, Jianping Lin*, Guanjun Qiao. Preparation and performance analysis of more homogeneous Zn4Sb3[J]. Journal of Alloys and Compounds, 2021, 878: 160405
[5] Quan Liu, Shunxu Li, Yifan Wu, Jianping Lin*. Effects of protective materials on the sintering properties of Zn4Sb3[J]. Materials and Manufacturing Processes, 2023,38(2): 180-187.
[6] Quan Liu, Ke Xie, Hongyan Xia, Yifan Wu, Weiguo Xu, Minkun Jian, Jianping Lin*, Mi Lu, Guanjun Qiao. Influence of metallic properties on the fracture characteristics of Al2O3/Ti/Ni‐laminated composites[J]. International Journal of Applied Ceramic Technology, 2022, 19(6): 3279-3287.
[7] Luping Zhang, Quan Liu, Dazhao Yu, Mi Lu, Jianping Lin*. Effect of sintering process on the properties of transparent Al2O3[J]. Materials Science and Technology, 2023, 39(8): 926-932.
[8] Jianping Lin, Guanjun Qiao, Lingzhi Ma, Yang Ren, Baifeng Yang, Youjian Fei,and Lei Lei. Heterogeneous in-situ nanostructure contributes to the thermoelectric performance of Zn4Sb3[J]. Applied Physics Letters, 2013, 102(16):163902.
[9] Xiaolong Yang, Jianping Lin*, Guanjun Qiao and Zhao Wang*. Atomistic mechanisms governing structural stability change of zinc antimony thermoelectrics[J]. Applied Physics Letters, 2015, 106(1): 013904.
[10] Jianping Lin*, Lingzhi Ma, Zhonghua Zheng, Chongjian Zhou, Minshu Zhang, An Xie, Guanjun Qiao, Metallic Zn decorated β-Zn4Sb3 with enhanced thermoelectric performance[J]. Materials Letters, 2017, 203: 5-8.
[11] Jianping Lin, Lingzhi Ma, Zhonghua Zheng, Yilong Chen, Zhichao Cui, Jiping Wang and Guanjun Qiao, Thermoelectric Properties of Zn4Sb3 Composites with Incomplete Reaction[J]. Journal of Electronic Materials, 2019, 48:1159-1163
[12] Zhonghua Zheng, Jianping Lin⁎, Xiaohui Song, Zhonghai Lin,Optical properties of ZnO nanorod films prepared by CBD method[J]. Chemical Physics Letters, 2018, 712: 155-159.
[13] Jiamin Wu, Yixin Ma, Ying Chen∗, Lijin Cheng, Annan Chen, Rongzhen Liu, Chenhui Li, Yusheng Shi, Jianping Lin∗. Preparation of Si3N4 ceramics by aqueous gelcasting using non-toxic agar powder as gelling agent without cooling crosslink process[J]. Ceramics International, 2019, 45: 20961–20966
[14] Xiaofeng Guo, Yixin Ma, Zhenghua Wei, Shuang Chen, Jiamin Wu*, Jianping Lin*, Preparation of Porous Si3N4 Ceramics by Ca2+ Agar Coating and Controlled-release Curing Technology[J]. Journal of the Chinese Ceramic Society, 2019, 47(12):1-7
[15] Zhonghua Zheng, Jianping Lin∗, Zhi Yang, Rapid growth mechanism and field emission properties of ZnO nanowire[J]. Chinese Journal of Liquid Crystals and Display. 2018, 33(9):758-763
[16] Xudong Li, Jesus Carrete, Jianping Lin, Guanjun Qiao, and Zhao Wang*. Atomistic origin of glass-like Zn4Sb3 thermal conductivity[J]. Applied Physics Letters, 2013, 103(10): 103902.
[17] Hongyan Xia, Jiping Wang*, Jianping Lin, Guiwu Liu, Guanjun Qiao*. Thermal conductivity of SiC ceramic fabricated by liquid infiltrating molten Si into mesocarbon microbeads-based preform[J]. Materials Characterization, 2013, 82:1-8.
[18] Jianping Lin, Guanjun Qiao, Haiyun Jin, et al. Ti/Al2O3 and Ni/Al2O3 Laminates prepared by plasma activated sintering (PAS)[J]. Key Engineering Materials, 2008, 368: 1831-1834.
[19] Yajie Guo, Jianping Lin, Guanjun Qiao, et al. Investigation of Cu/Al Metal Laminates Prepared by Plasma Activated Sintering (PAS)[J]: Materials Science Forum, 2008, 569: 113-116.