孙丹丹：

博士，教授，硕士生导师。2009年获河北大学光信息科学技术学士学位，2012年获大连理工大学光学工程硕士学位，2015年在暨南大学获生物医学信息技术专业工科博士学位。2015年入职山西大学物理电子工程学院工作至今。先后承担国家自然科学基金青年项目，山西省自然科学基金，开放课题，山西省高等学校科技创新项目和山西省教改项目等。在光学传感器与光纤生物医学传感技术等方面进行了大量深入的理论、实验以及应用研究工作，对学科发展动态和学术前沿有着较明确的把握和认识，在Sensors & Actuators: B. Chemical，Food Chemistry，Journal of Lightwave Technology，Optics Express，Journal of Colloid And Interface Science，Optics & Laser Technology等国际期刊上发表多篇SCI论文。

科研方向：

(1)光纤传感器件研发

(2)光纤传感实际应用

联系方式：

地址：山西大学物理电子工程学院

Emai：sundd@sxu.edu.cn

科研项目：

近五年主持的项目/课题：

(1) 国家自然科学基金委员会，青年科学基金项目，面向药物装载控释实时监测的微纳光纤传感器研究，起止时间：2021.01-2023.12，批准号：62005147，资助金额：24万元，在研。

(2)山西省青年基金，针对肿瘤标志物免疫检测的微纳光纤光栅传感技术，起止时间：2016.09-2018.12，批准号：201601D021024，资助金额：3万，结题。

(3)山西省高等学校科技创新项目， 面向牛奶中多种抗生素残留高灵敏检测的光纤SPR传感器研究，起止时间：2019-2021，资助金额：2万，结题。

(4)山西省高等学校教学改革创新项目，创新创业教育融入光电信息人才培养的探索与实践，起止时间：2022-2024，资助金额：1万，结题。

(5)山西省研究生教育改革研究课题，光电信息研究生创新创业型人才培养

(6)模式改革研究，起止时间：2022-2024，资助金额：2万，结题。

(7)广东省光纤传感与通信技术重点实验室开放课题，高灵敏度和强特异性的微纳光纤光栅核酸适体传感研究，起止时间：2016-2019，资助金额：5万，结题。

山西省研究生教育改革研究课题，校-企联合培养电子通信类工程硕士研究生的探索与实践，起止时间：2019-2020，资助金额：2万，结题。

论文：

(1)Dandan Sun, Guoquan Wang, Chenfei Ma, Lili Liang, Yukun Yang, Guanjun Wang, Jizhou Wu, Jie Ma.”Differential modulation system with potential for portable field detection: An ultrasensitive gentamicin optical sensor for label-free detection.” Optics & Laser Technology, 2025,180, 111426.

(2)Dandan Sun, Ze Xu, Li Jin, Bowen Yang, Wenwen Wang, Yukun Yang, Jie Ma. “A novel cascaded reflective temperature-independent fiber-optic biosensorfor trace vanillin concentration detection enhanced specificity with molecularly imprinted polymer.” Food Control, 2025, 173, 111217

(3)Yingkuan Guo, Wenwen Wang, Guoxin Shi, Jizhou Wu, Dandan Sun, Jie Ma. “Optical Smart Wearable Sensor: Pulse Waveform and Pulse Rate Monitoring With a Flexible Loop Optic-Microfiber.” Journal of Lightwave Technology, 43(3), 1462-1468.

(4)Ze Xu, Li Jin, Bowen Yang, Wenwen Wang, Yukun Yang, Guanjun Wang, Jizhou Wu, Dandan Sun, Jie Ma. “An advanced optic-fiber differential sensing system enhanced by molecularly imprinted polymer for specific sodium benzoate detection.” Food Chemistry, 2024, 455, 139773.

(5)Li Jin, Bowen Yang, Ze Xu, Wenwen Wang, Jizhou Wu, Dandan Sun, Jie Ma. “High-performance optical fiber differential urea sensing system for trace urea concentration detection with enhanced sensitivity using liquid crystals.” Sensors & Actuators: B. Chemical, 2024, 417, 136077.

(6)Bowen Yang, Li Jin, Ze Xu, Wenwen Wang, Guanjun Wang, Jizhou Wu,Dandan Sun, Jie Ma. “A high performance differential sensing system based on molecularly imprinted polymer for specific propofol concentration monitoring.” Microchemical Journal, 2024, 204, 11112103.

(7)Guoxin Shi, Wenen Wang, Yingkuan Guo, Jingshun Pan, Dandan Sun, Jie Ma. “Flexible wearable fiber optic sensor for real-time human breath monitoring based on Fabry-Perot interferometer with agar film.” Optics Express, 2024, 32(19), 33208-33221.

(8)Kang Sun, Chenfei Ma, Guoquan Wang, Lili Liang, Jizhou Wu, Dandan Sun, Jie Ma. “High-performance detection of trace chromium (VI) concentration by differential modulation fiber sensing system combining methimazole functionalized microfiber and fiber Bragg grating.” Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 681, 132725.

(9)Dandan Sun, Zifan Hou, He Yan, Yukun Yang, Guanjun Wang, Jizhou Wu, Jie Ma.“An all-fiber system biosensor for trace β-lactam antibiotics detection enhanced by functionalized microfiber and fiber bragg grating.” Journal of Colloid And Interface Science, 2024, 658, 903-912.

(10)Dandan Sun, Chenfei Ma, Guoquan Wang, Lili Liang, Guanjun Wang, Jizhou Wu, Jie Ma. “Ion imprinted differential modulation system based on enhanced optic-fiber evanescent wave for sensitive and label-free detection of trace nickel ions.” Analytica Chimica Acta, 2024, 1296, 342340.

(11)Guoquan Wang, Dandan Sun, Lili Liang, Guanjun Wang, Jie Ma. “Highly sensitive detection of trace lead ions concentration based on a functional film-enhanced optical microfiber sensor.” Optics and Laser Technology, 2023, 161: 109171.

(12)Zifan Hou, Dandan Sun, Guanjun Wang, Jie Ma. “Highly sensitive cholesterol concentration trace detection based on a microfiber optic-biosensor enhanced specificity with beta-cyclodextrin film.” Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2023, 300, 122881.

(13)He Yan, Dandan Sun, Zifan Hou, Guanjun Wang. Miniature and high-performance optical fiber relative humidity sensor based on Fabry-Perot structure interacting with hydroxyethyl cellulose. Optical Materials, 2023, 141, 113962.

(14)Chenfei Ma, Kang Sun, Guoquan Wang, Guanjun Wang,Dandan Sun, Jie Ma. “A nonenzymic microfiber optic-biosensor modified phenylboric acid for sensitively and specifically detecting low glucose concentration.” Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2023, 303, 123197.

(15)Dandan Sun, Jiguang Chen, Yongming Fu, Jie Ma. “A real-time response relative humidity sensor based on a loop microfiber coated with polyvinyl alcohol film.” Measurement, 2022, 187, 110359.

(16)Dandan Sun, Shanmin Xu, Shan Liu, Yongmin Fu, Yunkun Yang, Jie Ma. “Real-time drug delivery system tracked through an optical microfiber: supporting interface of metal-organic-framework.” Particle and Particle Systems Characterization, 2022, 39(2), 2100221.

(17)Run Yang, Yongming Fu, Dandan Sun, Jie Ma. “Temperature sensing properties of a Fabry-Perot fiber probe based on agar film.” Materials Letters, 2022, 321,132401.

(18)Jiguang Chen, Dandan Sun, Shaomin Xu, Yongming Fu, Yukun Yang, Jie Ma. “A Microfiber Sensor for the Trace Copper Ions Detection Based on Ternary Sensitive film.” Advanced Materials Interfaces, 2022, 9, 2200491.

(19)Dandan Sun, Shan Liu, Shaomin Xu, Yongming Fu, Tiecheng Wang, Chongke Ji, Jie Ma. “A U-shaped microfiber interferometer coated with MoS2 film for simultaneous measuring relative humidity and temperature.” Optical Fiber Technology, 2022, 73, 103009.

(20)Dandan Sun, Yaohui Hao, Yongmin Fu, Yukun Yang, Jie Ma. “High-performance detection of trace Hg2+ concentration enhanced by a functionalized optic-microfiber sensor.” Results in Physics, 2022, 42, 106009.

(21)Dandan Sun, Yaohui Hao, Yongmin Fu, Jie Ma. “Organic dye concentration monitoring through an optical microfiber enabled by multiwalled carbon nanotubes.” Journal of the Optical Society of America B, 2021, 38(12), F178-F185.

(22)Dandan Sun, Shaomin Xu, Shan Liu, Yongming Fu, Jie Ma. “Simultaneous measurement of temperature and relative humidity based on a twist microfiber coated with nanomaterials.” Applied Optics, 2021, 60(13), 3849-3855.

(23)Dandan Sun, Shaomin Xu, Shan Liu, Yongming Fu, Jie Ma. “A fiber-optic ultraviolet sensor based on the evanescent field: Enhanced effects of black phosphorous film.” Optical Fiber Technology, 2021, 67, 102747.

(24)Dandan Sun, Yongming Fu, Yukun Yang. “Label-free detection of breast cancer biomarker using silica microfiber interferometry.” Optics Communications, 2020, 463,125375.

(25)Dandan Sun, Shaomin Xu, Yongming Fu, Jie Ma. “Fast response microfiber-optic pH sensor based on a polyaniline sensing layer.” Applied Optics, 2020, 59(36), 11261-11265.

(26)Dandan Sun, Li-Peng Sun, Tuan Guo, Bai-Ou Guan. “Label-free Thrombin Detection Using a Tapered Fiber-optic Interferometric Aptasensor.”

Journal of Lightwave Technology, 2019, 37(11), 2756-2761.

(27)Dandan Sun, Tuan Guo, Bai-Ou Guan. “Label-free Detection of DNA Hybridization Using a Reflective Microfiber Bragg Grating Biosensor with Self-assembly Technique.” Journal of Lightwave Technology, 2017, 35(16), 3354-3359.

(28)Dandan Sun, Yunkun Yang, Guanjun Wang. “Label-Free Detection of Cancer Biomarkers Using an In-Line Taper Fiber-Optic Interferometer and a Fiber Bragg Grating.” Sensors, 2017, 17(11), 2559.

(29)Dandan Sun, Tuan Guo, Yang Ran, Yunyun Huang, Bai-Ou Guan. “In-situ DNA hybridization detection with a reflective microfiber grating biosensor.” Biosensors and Bioelectronics, 2014, 61, 541-546.

专利：

(1)孙丹丹; 徐少敏; 一种药物原位装载和释放的微纳光纤传感器及其制备方法, ZL202110662312.9, 2023-05-30.

(2)陈继广; 孙丹丹; 基于聚乙烯醇薄膜和环形微纳光纤的相对湿度传感器, ZL202121131360.7, 2022-1-28.

(3)郝耀辉; 孙丹丹; 一种用于检测染料浓度的锥形结构光纤传感器, ZL202121133812.5, 2021-12-31.

(4)杨润; 孙丹丹; 一种基于纳米材料封装的微纳光纤干涉仪温度传感器, ZL202121 222426.3, 2021-12-31.

(5)徐少敏; 孙丹丹; 基于氮化硼纳米薄膜和扭转微纳光纤的温湿度传感器, ZL202022 552353.6, 2021-7-2.

(6)刘珊; 孙丹丹; 李昊璇; 一种MOF纳米材料的干涉型微纳光纤传感器, ZL20202093 7554.5, 2021-3-30.

(7)徐少敏; 孙丹丹; 一种扭转微纳光纤干涉仪的pH传感器, ZL202021564719.5, 2021-3-30.

教学情况：

讲授本科生课程-《大学物理》、《研究性实验》和《光波导理论与器件》及研究生课程《研究生基础实验》等。

教改课程及项目

(1)获批山西省教育厅2022 年山西省一流课程——“虚拟仿真实验教学课程:微纳光纤pH值实时监测传感系统虚拟实验”

(2)获批2022 年山西省高等学校教学改革创新项目——“创新创业教育融入光电信息人才培养的探索与实践”

(3)获批山西省教育厅2022年度研究生教改项目——“光电信息研究生创新创业型人才培养模式改革研究”

(4)获批山西省教育厅2019年度研究生教改项目——“校-企联合培养电子通信类工程硕士研究生的探索与实践”

教改论文

(1)孙丹丹, 李玉清, 武寄洲. “光电信息硕士的创新人才培养策略分析”, 创新创业理论研究与实践, 2023, (24):130-132.

(2)孙丹丹，卫霞，王贺. “面向电子通信类工程硕士的双轨联合式创新人才培养模式探索和实践”, 创新创业理论研究与实践, 2022, (21):9-11.