田召燕

一、基本情况

田召燕，女，东南大学博士，讲师，硕士生导师，2024年荣获聊城大学“光岳新秀”人才称号。

通讯地址：山东省聊城市东昌府区湖南路1号

Email: tianzhaoyan@lcu.edu.cn

二、研究领域

1. 双极电极耦合电致荧光技术的生物传感器构建；

2. 生物纳米探针的制备及生物分析检测研究；

3. 功能化微纳通道的设计及生物分析应用。

欢迎优秀学子加入本团队，开展研究生阶段的学习！

三、工作及学习经历

2022.10-至今 聊城大学药学院 讲师

2017.03-2022.05 东南大学 博士

2011.09-2015.06 聊城大学 本科

四、科研项目

1. “双极电极耦合电致荧光技术用于乳腺癌标志物的可视化检测方法研究”，国家自然科学基金青年基金，2024.01-2026.12，30万，主持；

2. “肝癌细胞多标志物的同时检测及分析研究”，山东省自然科学基金青年基金，2024.01-2026.12，15万，主持

3. “肿瘤细胞多标志物生物传感器的构建”，聊城大学博士启动基金，20万，主持。

五、代表性文章

[1]. Zhaoyan Tian, Xiang Qin, Yafeng Wu*, Fengying Shao, Xiuxiu Li, Songqin Liu*. Electrofluorochromic imaging analysis of dopamine release from living PC12 cells with bipolar nanoelectrode arrays. Chinese Chemical Letter, 2023, 34, 107656. (一区，IF= 9.4)

[2]. Zhaoyan Tian, Yafeng Wu*, Fengying Shao, Dezhi Tang, Xiang Qin, Chenchen Wang, Songqin Liu*. Electrofluorochromic imaging analysis of glycan expression on living single cell with bipolar electrode arrays. Analytical Chemistry, 2021, 93, 5114−5122. (一区，IF = 7.4)

[3]. Zhaoyan Tian, Li Mi, Yafeng Wu, etal. Songqin Liu*. Visual electrofluorochromic detection of cancer cell surface glycoprotein on a closed bipolar electrode chip. Analytical Chemistry, 2019, 91, 7902−7910. (一区，IF = 7.4)

[4]. Zhaoyan Tian, Shiqiang Cui, Chunhong Zheng, Shouzhi Pu*. A multi-state fluorescent switch based on a diarylethene with a acridine unit. Spectrochimica Acta Part A. 2017, 173: 75–81. (一区，IF= 4.831).

[5]. Zhaoyan Tian, Shiqiang Cui*, Shouzhi Pu*. A highly selective fluorescent sensor for dual detection of Zn2+ and F- based on a new diarylethene. Tetrahedron Letters, 2016, 57(25): 2703–2707. (三区，IF = 2.032)

[6]. Zhaoyan Tian, etal. Shouzhi Pu*. A new fluorescent sensor for Zn2+ based on diarylethene with a 4-diethylamino-salicylaldehyde schiff base unit. Journal of Physical Organic Chemistry, 2016, 29(8): 421–429. (三区，IF = 2.155)

[7] Zixuan Chen, Zhaoyan Tian, Zhi Wang, Zhaohan Wang, Weiwei Liu, Qinglin Gu, Songqin Liu, Yafeng Wu. A portable device for in situ noninvasive monitoring of cell secretions and communications with fluorescence and nanochannel electrochemistry. Analytical Chemistry, 2024, 96, 9218−9227. (一区，IF = 7.4)

[8] Yafeng Wu, Qinglin Gu, Zhi Wang, Zhaoyan Tian, Zhaohan Wang, Weiwei Liu, Jianyu Han, Songqin Liu. Electrochemiluminescence analysis of multiple glycans on single living cell with a closed bipolar electrode array chip. Analytical Chemistry, 2024, 96, 2165−2172. (IF = 7.4)

[9] Fengying Shao, Jianyu Han, Zhaoyan Tian, Zhi Wang, Songqin Liu, Yafeng Wu. Synergistic ROS generation and directional overloading of endogenous calcium induce mitochondrial dysfunction in living cells. Biomaterials, 2023, 301, 122284. (IF = 14)

[10] Fengying Shao, Yafeng, Wu, Zhaoyan Tian, Songqin Liu. Biomimetic nanoreactor for targeted cancer starvation therapy and cascade amplificated chemotherapy. Biomaterials, 2021, 274, 120869. (IF = 14)

[11] Xiuxiu Li, Xiang Qin, Zhaoyan Tian, Kang Wang, Xinghua Xia, Yafeng Wu, Gold nanowires array-based closed bipolar nanoelectrode system for electrochemiluminescence detection of α‑fetoprotein on cell surface. Analytical Chemistry, 2022, 94, 7350−7357. (IF = 7.4)

[12] Fengying Shao, Li Mi, Zhaoyan Tian, Cheng Zheng, Yuanjian Zhang, Quan Li, Songqin Liu. Promoting photodegradation efficiency via a heterojunction photocatalyst combining with oxygen direct and fast diffusion from the gas phase to active catalytic sites. Acs Applied Materials & Interfaces, 2019, 11, 44922−44930. (IF = 9.5)

[13] Jing Wan, Li Mi, Zhaoyan Tian, Quan Li, Songqin Liu. A single-liquid miniature biofuel cell with boosting power density via gas diffusion bioelectrodes. Journal of Materials Chemistry B, 2020, 8, 3550—3556. (IF = 7.0)