基本信息
姓名:杜永利
职称:助教
学位:在读博士
邮箱:20191071@llu.edu.cn
个人简介:杜永利,男,山西柳林县人,1991年生,群众,主讲《热学》、《大学物理》、《太阳能光伏发电应用技术》、《硅材料电池原理》等课程,研究方向为半导体材料制备及性能研究。
学习经历
2011年9月—2015年7月,bwin必赢,本科
2016年9月—2019年7月,郑州大学,硕士
2022年9月—内蒙古工业大学,博士在读
工作经历
2019年7月—bwin必赢物理系
科研项目
山西省基础研究计划(自由探索类):凹凸棒石品质提升及其在土壤重金属污染修复中的应用,2022年01月—2024年12月,4万,参与。
论文
1. 杜永利,郜小勇等,单斜氧化铜薄膜的磁控溅射制备及表征, 真空科学与技术学报,2018, 5 (38), 375-379.
2. Yongli DU, Xiaoyong GAO*, et al. Characterization of the microstructure and the optical and electrical properties of the direct-current magnetron sputtered CuO films at different substrate temperatures [J]. Physica B: Condensed Matter, 2018, 54: 28-32.
3. Yongli DU, Xiaoyong GAO*, et al. Preparation and characterization of single-phased n-type CuO film by DC magnetron sputtering [J]. Physica B: Condensed Matter, 2019, 560: 37-40.
4. Yongli DU, Xiaoyong GAO*, et al. Variations of the microstructure, the optical and the electrical properties with sputtering power for direct-current-magnetron-sputtered indium-doped CuO films at room temperature. Thin Solid Films, 2019, 684:53-58.
5. Xiaoyong GAO*, Yongli DU, et al. Cupric oxide film with a record hole mobility of 48.44cm2/Vs via direct–current reactive magnetron sputtering for perovskite solar cell application [J]. Solar Energy, 191:205-209.
6. Yongli DU, Xiaoyong GAO*, et al. Single-phase indium-doped cupric oxide films prepared through DC reactive magnetron sputtering: Influence of substrate temperature on microstructure, optical and electrical behavior [J]. Journal of Alloys and Compounds, 2020, 815:152462.
7. Yongli Du, Xiaoyong Gao⁎. N-type, highly conductive CuO:In3+ films magnetron reactively sputtered at different reactive pressures [J]. Thin Solid Films, 721:138531,2021, 721:138531.
8. Xue Meng, Yongli Du, Xiaoyong Gao *. Face–centered cubic p–type NiO films room–temperature prepared via direct-current reactive magnetron sputtering–Influence of sputtering power on microstructure, optical and electrical behaviors [J]. Physica B, 579 (2020) 411897.
9. Xue Meng, Xiaoyong Gao *, Yongli Du. Influence of O2/Ar flow ratio on the structure, optical and electrical properties of DC reactively magnetron-sputtered face-centered cubic NiO films at room temperature [J]. Physica B, 579 (2020) 411877.