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余璇新

2025年04月08日 10:22 点击：[]

余璇

姓名：余璇

职称：副研究员

导师身份：浙江海洋大学硕导

学科方向：电子科学与技术

Email：yuxuan@zjou.edu.cn

学习与工作简历：

1）2007.07-2010.07：南开大学物理学院，光子学与技术，硕士

2）2011.07-2014.07：南开大学电光学院，电子科学与技术，博士

3）2014.07-2018.07：浙江海洋大学，助理研究员

4）2020.01-今：浙江海洋大学海洋工程装备学院，副研究员

研究方向：

1）光电薄膜材料

2）光伏器件

主持科研项目：

1）基于陷光ZnO电子传输层的倒结构有机太阳电池的研究，国家自然科学基金（青年项目），起止时间2017-2019，项目负责人

2）基于镁铝共掺ZnO的光电管理双功能层的体异质结太阳电池研究，浙江省自然科学基金一般项目，起止时间2019-2021，项目负责人

3）界面工程对基于ZnO纳米阵列的聚合物光伏器件的影响，浙江省属高校基本科研业务费项目，起止时间2019-2020，项目负责人

4）基于MgZnO的低成本、高效柔性聚合物太阳电池研究，舟山市科技局（一般项目），起止时间2019-2021，项目负责人

5）甲壳素/壳聚糖及其衍生物在有机光电探测器中载流子陷阱效应及应用研究，起止时间2023-2025，项目负责人

个人代表性论文与论著：

[1] X. Yu, X. Yu*, M. Yan, et al. Lowering oxygen vacancies of ZnO nanorods via Mg-doping and their effect on polymeric diode behavior, Sensors and Actuators A 312, 2020, 112163.

[2] X. Yu, X. Yu*, J Zhang, D Zhang, L Chen, Y Long, Light-trapping Al-doped ZnO thin films for organic solar cells. Solar Energy 2017, 153, 96–103

[3] X. Yu, X. Yu*, J. Zhang, D. Zhang, L. Chen, H. Pan, Improve the near-UV/blue light scattering of ZnO nanorods via Mg-doping. Superlattices & Microstructures, 2016, 100:38-44.

[4] X. Yu, X. Yu, J. Zhang*, et al. Interfacial modification for improving inverted organic solar cells by poly(N-vinylpyrrolidone). Rsc Advances, 2015, 5, 58966-58972.

[5] X. Yu, X. Yu, J. Zhang*, et al. Effective light trapping enhanced near-UV/blue light absorption in inverted polymer solar cells via sol–gel textured Al-doped ZnO buffer layer. Solar Energy Materials & Solar Cells, 2014, 121:28–34.

指导学生论文：

[1] M. Yan, T. Weng, X. Yu*, et al. Light absorption enhancement by incorporating nanostructured diatomite for improving performance of polymeric photodetector. Optical Materials, 2021,120,111403

[2] T. Weng, M. Yan, X. Yu*, et al. Light scattering enhancement of ZnO nanorods via Mg–Al co-doping and their influence on polymeric photodetector, Optical Materials 121(2021)111516

[3] C. Wu, X. Luo, X. Yu*, X. Yu*, K. Lin, M. Li, Z. Li, Y. Cao, Y. Zhou*, Improving performance of ZnO Schottky photodetector by inserting MXenes modified-layer, Chin. Chem. Lett., 2022, 34 (2023) 107881.

[4] K. Lin, C. Wu, M. Li, H. Zhang*, X. Yu*, Z. Li, X. Yu, Y. Cao, Q. Qiao, Y. Zhou, Large area AZO/Ag NWs/AZO transparent conductive film based on the Dip-coating method Materials Letters 337 (2023) 133951

[5] Q. Zhong, C. Wu, X. Yu*, X. Yu*, Z. Li, Q. Qiao, Y. Zhou, Y. Cao, Mg content regulating built-in electric field for self-powered ZnO/Mg_xZn_1-xO Schottky UV photodetector. Optical Materials 146 (2023) 114572

[6] J. Li, X. Yu*, X. Yu*, Q. Qiao, Y. Zhou, H. Zhang, Z. Li, Improving performance of organic photodetector by incorporating Kaolinite. Materials Letters 355 (2024) 135471.

[7] Z. Luo, C. Wu, M. Yan, X. Yu*, X. Yu*, Q. Qian, Y. Zhou, H. zhang, Z. Li, G. Long*, Enhancing detectivity of organic photodetectors through the biomass carbon quantum dots from sugarcane bagasse. Materials Chemistry and Physics, 2024, 129056

[8] M. Li, C. Wu, M. Chen, T. Weng, X. Yu*, K. Lin, Y. Cao, X. Yu*, Z. Li, Q. Qiao, H. Zhang, Y. Zhou*, Dipole Field-driven Organic-inorganic Heterojunction for Highly Sensitive Ultraviolet Photodetector, ACS Applied Materials & Interfaces, 2024, 16, 10, 12754–12764

[9] Z. Chen, J. Liu, Y. Lu, C. Wu, X. Yu*, X. Yu*, Y. Cao*, Z. Li, Q. Qiao, H. Zhang, Y. Zhou, Performance boosting of Sb₂Se₃ photodetectors by a sol–gel auto-combustion ZnO overlayer, Materials Letters 364 (2024) 136390

[10] Y. Lu, Z. Chen, C. Wu, X. Yu*, X. Yu*, Y. Cao*, Z. Li, Q. Qiao, H.Zhang, Y. Zhou, P(VDF-TrFE) interlayer enables high performance of Sb₂Se₃ photodetectors, Materials Letters 364 (2024) 136402

[11] X. Sun, C. Wu, X. Yu^⁎, X. Yu^⁎, Y. Cao, Z. Li, Q. Qiao, H. Zhang, Y. Zhou, H. Tao. Improving ZnO ultraviolet Schottky photodetectors by inserting a MoS₂ layer. Materials Letters 367 (2024) 136594

[12] J. Li, Z. Chen, X. Yu*, X. Yu*, Q. Qiao, H. Zhang, Z. Li, Y. Zhou, High-on/off ratio organic photodetectors via incorporating Kaolinite, Micro and Nanostructures, 193 (2024) 207914

[13] Y. Zhang, Z. Luo, J. Li, X. Yu*, X. Yu, Q. Qian, H. zhang, Z. Li, Y. Zhou, Effect of CCQDs on the performance of near ultraviolet photodetectors Optical Materials 151 (2024) 115371

[14] J. Liu, Z. Chen, C. Wu, X. Yu*, X. Yu*, C. Chen*, Z. Li, Q. Qiao, Y. Cao, Y. Zhou*, Recent advances in Antimony selenide photodetectors, Advanced Materials, 2024, 36, 2406028

[15] J. Liu, Y. Wu, Z. Chen, X. Yu *, X. Yu *, Z. Li, H. Zhang, Y. Zhou, Jing Zhou, Yu Cao Modulation of Sb₂Se₃ longitudinal growth by CdCl₂ treatment for high-performance photodetectors, Materials Letters 381 (2025) 137764

软件版权登记及专利：

[1] 一种适用于聚合物太阳能电池的活性层制备方法，2016 1 3030653.6，余璇，于晓明，陈立桥，潘洪军

[2] 一种聚合物太阳能电池的退火处理方法, 2016 1 0302451.X, 余璇，于晓明，陈立桥，潘洪军

[3]一种基板的表面处理工艺, 2016 1 0301332.2, 余璇，于晓明，陈立桥，潘洪军

[4]一种用于倒结构聚合物太阳能电池的ZnO薄膜的制备方法, 2016 1 0304027.9，余璇，于晓明，陈立桥，潘洪军

[5]一种梯度掺杂AZO薄膜的制备方法及其应用，2016 1 0300455.4，余璇，于晓明，陈立桥，潘洪军

[6]一种ZnMgO纳米柱及其制备方法，201711272769.9，余璇，于晓明

[7]一种基于光子结构种子层的ZnO纳米柱及制备方法，2018 1 1314233.3，余璇，于晓明，谢声旺，李宁，周英棠，陈立桥

[8]一种ZnMgO纳米柱氧化铝纳米颗粒复合薄膜作为电子传输层的倒结构有机太阳电池，2017 1 1352248.4，余璇，于晓明，陈立桥，冷哲，胡金飞，王亚宁

[9]一种基于多层掺杂镁铝的氧化锌复合薄膜作为电子传输层的有机太阳能电池，2017 1 1345605.4，余璇，于晓明，陈立桥，冷哲，胡金飞，王亚宁

[10]一种基于ZnMgO纳米柱薄膜作为电子传输层的有机太阳能电池，2017 1 1345788.X，余璇，于晓明，陈立桥，冷哲，胡金飞，王亚宁

[11]一种基于海藻酸钠修饰的有机太阳电池及制备方法，2018 1 1314232.9，余璇，于晓明，谢声旺，李宁，周英棠，陈立桥

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