戴子忆 (助理研究员)

助理研究员

性别:女

毕业院校:澳门大学

学历:博士研究生毕业

学位:哲学博士学位

在职信息:在职

所在单位:微电子学院

入职时间:2023-08-31

职务:助理研究员

联系方式:ziyidai@sdu.edu.cn

   
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个人简介



戴子忆,山东大学微电子学院,助理研究员,从事新一代半导体材料与器件方向研究,主要包括具有智能界面的柔性电子器件等。

在本领域权威期刊发表多篇SCI研究论文,包括Advanced Functional Materials, Nano Energy, Journal of Materials Chemistry A, 

Chemical Engineering Journal 等期刊。担任Microstructures期刊青年编委及十余个相关领域期刊审稿人。

谷歌学术主页:https://scholar.google.com.hk/citations?user=OlIJJigAAAAJ&hl=zh-CN


研究方向:


(1)新一代半导体材料与器件

(2)具有超疏界面的柔性可穿戴器件


教育经历:


2019.8-2023.8:博士,应用物理与材料工程研究院,澳门大学,导师:Prof. Bingpu Zhou


2018.9-2019.7:硕士,电子与计算机工程系,新加坡国立大学,导师:Prof. Minghui HONG


2014.9-2018.6:本科,电子工程学院,电子科技大学



工作经历


2023.8-至今:助理研究员,山东大学微电子学院


2021.12-2022.9:访问学生,基础与前沿研究院,电子科技大学,合作教授:邓旭教授


代表性论文(#共同第一作者)


  1. Dai, Z., Chen, G., Ding, S., Lin, J., Li, S., Xu, Y., & Zhou, B. (2021). Facile formation of hierarchical textures for flexible, translucent, and durable superhydrophobic film. Advanced Functional Materials, 31(7), 2008574.

  2. Dai, Z., Ding, S., Lei, M., Li, S., Xu, Y., Zhou, Y., & Zhou, B. (2021). A superhydrophobic and anti-corrosion strain sensor for robust underwater applications. Journal of Materials Chemistry A, 9(27), 15282-15293.

  3. Dai, Z., Feng, K., Wang, M., Lei, M., Ding, S., Luo, J., ... & Zhou, B. (2022). Optimization of bidirectional bending sensor as flexible ternary terminal for high-capacity human-machine interaction. Nano Energy, 97, 107173.

  4. Dai, Z., Guo, H., Huang, Q., Ding, S., Liu, Y., Gao, Y., ... & Zhou, B. (2022). Mechanically robust and superhydrophobic concrete based on sacrificial template approach. Cement and Concrete Composites, 134, 104796.

  5. Dai, Z., Lei, M., Ding, S.,  Zhou, Q., Ji, B.., Wang, M., & Zhou, B. (2023). Durable superhydrophobic surface in wearable sensors: From nature to application. Exploration, 20230046.

  6.  Chen, G.#, Dai, Z.#, Ding, S., Lei, M., Lin, J., Wang, S., ... & Zhou, B. (2022). Realization of integrative hierarchy by in-situ solidification of ‘semi-cured’microcilia array in candle flame for robust and flexible superhydrophobicity. Chemical Engineering Journal, 432, 134400.

  7. Ou, H.#, Dai, Z.#, Gao, Y., & Zhou, B. (2023). Breathable Fabrics with Robust Superhydrophobicity via In Situ Formation of Hierarchical Surface Morphologies. ACS Applied Materials & Interfaces.

  8. Chen, G., Dai, Z., Ji, B., Li, S., Chen, X., Gao, Y., ... & Zhou, B. (2020). Dynamic enrichment of plasmonic hot-spots and analytes on superhydrophobic and magnetically functionalized platform for surface-enhanced Raman scattering. Sensors and Actuators B: Chemical, 319, 128297.

  9. Chen, G., Dai, Z., Li, S., Huang, Y., Xu, Y., She, J., & Zhou, B. (2021). Magnetically responsive film decorated with microcilia for robust and controllable manipulation of droplets. ACS Applied Materials & Interfaces, 13(1), 1754-1765.

  10. Ding, S., Dai, Z., Chen, G., Lei, M., Song, Q., Gao, Y., ... & Zhou, B. (2022). Regulation of Droplet Rebound Behavior with Contact Time Control on a Flexible and Superhydrophobic Film. Langmuir, 38(9), 2942-2953.

  11. Song, Q., Sun, X., Dai, Z., Gao, Y., Gong, X., Zhou, B., ... & Wen, W. (2021). Point-of-care testing detection methods for COVID-19. Lab on a Chip, 21(9), 1634-1660.