陈斌，女，汉族，博士，西南大学 副研究员、硕士生导师。

工作及学习经历

2003/09-2007/06 西北农林科技大学 电子信息工程学院 本科

2007/09-2010/06 西北农林科技大学 电子信息工程学院 硕士 (保送)

2010/10-2014/09九州大学 工学部 系统情报工程学院 博士 （CSC奖学金）

2015/01-2017/06 西南大学 电子信息工程学院 讲师

2017/07-至今 西南大学 电子信息工程学院 副研究员 硕士生导师

2018/11-2020/11 JSPS日本学术振兴委员会 外国人特别研究员

科研项目

1. 国家自然科学基金委员会，青年基金项目，基于碳点/分子印迹溶胶-凝胶传感膜的有机酸气体传感阵列的研究，2019-2021，主持。

2. 国家自然科学基金委员会, 面上项目,全喷墨打印多模态仿生嗅觉感知-传导-识别系统构 建与协同优化及其中药气味指纹鉴别研究, 2026-2029, 参与。

3. JSPS 外国人特别研究项目，JP18F18392，2018-2020，主持。

4. 重庆市人力资源与社会保障局, 重庆市留创计划创新类项目,面向小麦仓储虫害监控的光学气体传感系统及检测机理研究, 2023-2025，主持。

5. 中国博士后特别资助项目，检测硝基爆炸物的颜色传感器件的研发，2016-2017，主持。

6. 重庆市博士后特别资助项目，便携式器件及仪器的研发用于水环境中重金属离子的检测，2017-2018, 主持。

7. 西南大学基本科研业务费专项基金项目，基于碳点气凝胶的NO₂、SO₂气体检测及监控系统的研究，2018-2019, 主持。

学术研究

在Biosensors & Bioelectronics、ACS Sensor、Sensors and Actuators B: Chemical、Chemical Engineering Journal、Nano Energy及Knowledge-based Systems等国际权威期刊上，以第一及通讯作者身份共发表SCI论文50余篇，H因子29，单篇最高他引130余次；近五年(2021-2026)以第一及通讯作者SCI论文31篇，他引550余次。

代表性期刊论文 （中科院一区17篇，二区12篇）

[1] Xu Ran, Chuanjun Liu, Bin Chen*, Synergistic radiative-evaporative cooling film for high-efficiency daytime passive cooling and photovoltaic thermal management, Journal of Materials Science & Technology 249 (2026) 189–195 (中科院分区：1区, 影响因子：14.3).

[2] Xu Ran, Chuanjun Liu, Bin Chen*, Surface tension-mediated assembly of MXene films for high-performance electromagnetic interference shielding and thermal management applications, Carbon, 2026, 247:121028 (中科院分区：2区, 影响因子：11.6).

[3] Han Gu, Zelong Zhou, Changtian Li, Wenqiang Chen, Bin Chen*, Inductive spatial temporal graph convolutional neural network for granary temperature field reconstruction, Journal of Stored Products Research 115 (2026) 102835 (中科院分区：2区, 影响因子：2.8).

[4] Qirui Mou, Bingbing Qu, Chao Wang, Lingtai Zeng, Chuanjun Liu, Bin Chen*, A deep learning-assisted interface-free and real-time decoupling multimodal sensor for tactile sensing,  Chemical Engineering Journal 2025, 526:171385. (中科院分区：1区, 影响因子：13.2).

[5] Hongfu Liu, Youbin Yao, Chuanjun Liu, Qirui Mou, Changtian Li, Bin Chen*, Gas Open-Set Recognition and Drift Compensation via Weighted Adversarial Fusion-Domain Adaptation Network, Knowledge-Based Systems, 2025, 331:114767 (中科院分区：1区, 影响因子：7.6).

[6] Youbin Yao, Hongfu Liu, Chuanjun Liu, Changhao Feng, B. Chen*, Gas classification and concentration prediction in open environments using class anchor clustering-initialized temporal convolutional network, Sensors and Actuators: B. Chemical 423 (2025) 136793 (中科院分区：1区, 影响因子：7.7).

[7] Bingbing Qu, Qirui Mou, Zelong Zhou, Yiyuan Xie, Yudong Li, Bin Chen*, Triboelectric Sensors Based on Glycerol/PVA Hydrogel and Deep Learning Algorithms for Neck Movement Monitoring, ACS applied materials & interfaces, 17, 12862-12874, 2025 (中科院分区：2区, 影响因子：8.2).

[8] Bin Chen*, Qirui Mou, Chuanjun Liu, Kenshi Hayashi, Au NUs@SiO₂ sensors for sensitive and selective optical sensing of volatile compounds, Talanta, 294, 128207, 2025 (中科院分区：2区, 影响因子：6.1).

[9] Y. Yao, B. Chen*, C. Liu, C. Feng, X. Gao, Y. Gu, Open-set adversarial domain match for electronic nose drift compensation and unknown gas recognition, Expert Systems With Applications 250 (2024) 123757 (中科院分区：1区, 影响因子：7.5).

[10] W. Ouyang, F. Luo, Y. Yao, B. Qu, C. Feng, Y. Xie, and B. Chen*, A Triboelectric Sensor with Double Bubble Structure Applied in a High Security Double Lock System, ACS Sensors, 8 (2023),4615-4624 (中科院分区：1区, 影响因子：9.1).

[11] F. Luo, B. Chen*, X. Ran, W. Ouyang, Y. Yao, L. Shang, Wearable and self-powered triboelectric sensors based on NaCl/PVA hydrogel for driver multidimensional information monitoring, Nano Energy 118 (2023) 109035 (中科院分区：1区, 影响因子：17.1).

[12] Y. Yao, B. Chen*, C. Liu , C. Qu, Investigation on the combined model of sensor drift compensation and open-set gas recognition based on electronic nose datasets, Chemometrics and Intelligent Laboratory Systems 242 (2023) 105003 (中科院分区：2区, 影响因子：3.8).

[13] Y. Gu,  X. Y. Zhong, C. Qu, C. J. Liu, B. Chen*, A Domain Generative Graph Network for EEG-Based Emotion Recognition, IEEE Journal of Biomedical and Health Informatics, 27 (2023) 2377-2386 (中科院分区：1区, 影响因子：6.8).  

[14] F. Luo, B. Chen*, X. Ran, W. Ouyang, L. Shang, PEO-PDMS-based triboelectric nanogenerators as self-powered sensors for driver status monitoring, Chemical Engineering Journal 451 (2023) 138961 (中科院分区：1区, 影响因子：13.2).

[15] X. Gao, Y. Sun, Y. Xiao, Y. Gu, S. Chai, B. Chen*, Adaptive random down-sampling data augmentation and area attention pooling for low resolution face recognition, Expert Systems With Applications 209 (2022) 118275 (中科院分区：1区, 影响因子：7.5).

[16] J. Qin, C. Wang, X. Ran, S. Yang, B. Chen*, A robust framework combined saliency detection and image recognition for garbage classification, Waste Management 140 (2022) 193–203 (中科院分区：2区, 影响因子：7.1).

[17] X. Ran, F. Luo, Z. Lin, Z. Zhu, C. Liu, and B. Chen*, Blood pressure monitoring via double sandwich-structured triboelectric sensors and deep learning models, Nano research, 6, 15, 2022 (中科院分区：1区, 影响因子：9).

[18] C. Qu, C. Liu, Y. Gu, S. Chai, C. Feng, B. Chen*, Open-set gas recognition: A case-study based on an electronic nose dataset, Sensors and Actuators: B. Chemical 360 (2022) 131652 (中科院分区：1区, 影响因子：7.7).  

[19] C. Wang, J. Qin, C. Qu, X. Ran, C. Liu, B. Chen*, A smart municipal waste management system based on deep-learning and Internet of Things, Waste Management, 135, 20-29, 2021 (中科院分区：2区, 影响因子：7.2).

[20] J. Qin, C. Wang, Q. Zou, Y. Sun, B. Chen*, Active learning with extreme learning machine for online imbalanced multiclass classification, Knowledge based System, 231, 107385, 2021 (中科院分区：1区, 影响因子：7.6).

[21] B. Chen*, H. Guo, C. Liu, L. Shang, X.Ye, L. Chen, C. Feng, K. Hayashi*, Molecularly imprinted sol-gel/Au@Ag core-shell nano-urchin localized surface plasmon resonance sensor designed in reflection mode for detection of organic acid vapors, Biosensors & Bioelectronics,169, 112639, 2020 (中科院分区：1区, 影响因子：10.5).

[22] B. Chen*, C. Liu, L. Shang, H. Guo, J. Qin, L. Ge, C. Jing, C. Feng, and K. Hayashi*, Electric-field enhancement of molecularly imprinted sol-gel-coated Au nano-urchin sensors for vapor detection of plant biomarker, Journal of Materials Chemistry C, 8, 262-269, 2020. (中科院分区：2区, 影响因子：5.2).

[23] B. Chen*, S. Chai, J. Liu, C. Liu, Y. Li, J. He, Z. Yu, T. Yang, C. Feng, C. Huang*, 2, 4, 6-trinitrophenol detection by the developed portable sensing gadget using carbon dots as fluorescence probe, 2,4,6-Trinitrophenol detection by a new portable sensing gadget using carbon dots as a fluorescent probe, Analytical and Bioanalytical Chemistry, 411, 2291-2300, 2019 (中科院分区：2区, 影响因子：3.8, 封面文章).

[24] B. Chen*, C. Liu, L. Shang, Y. Huang, S. Yang, X. Sun, C. Feng, K. Hayashi*, Electron transfer during binding processes between thiolate molecules and Au nano-islands, Applied Surface Science 473 (2019) 49–54 (中科院分区：2区, 影响因子：6.9).

[25] B. Chen*, J. Liu, T. Yang, L. Chen, J. Hou, C. Feng, C. Z. Huang*, Development of a portable device for Ag⁺ sensing using CdTe QDs as fluorescence probe via an electron transfer process, Talanta, 191, 357-363, 2019 (中科院分区：2区, 影响因子：6.1).

[26] B. Chen*, J. Ma, T. Yang, L. Chen, P. F. Gao, C. Z. Huang*, A portable RGB sensing gadget for sensitive detection of Hg²⁺ using cysteamine-capped QDs as fluorescence probe, Biosensors and Bioelectronics, 98, 36-40, 2017 (中科院分区：1区, 影响因子：10.5).

[27] B. Chen*, C. Liu, L. Ge, K. Hayashi*, Electrical Conduction and Gas Sensing Characteristics of P3HT/Au Nano-islands Composite, Sensors and Actuators: B. Chemical, 24, 1099-1105, 2017 (中科院分区：1区, 影响因子：7.7).

[28] B. Chen*, C. Liu, L. Ge, K. Hayashi*, Localized surface plasmon resonance gas sensor of Au nano-islands coated with molecularly imprinted polymer: Influence of polymer thickness on sensitivity and selectivity, Sensors and Actuators: B. Chemical, 231, 787-792, 2016 (中科院分区：1区, 影响因子：7.7).

[29] B. Chen, M. Mokume, C. Liu, K. Hayashi*, Structure and localized surface plasmon tuning of sputtered Au nano-islands through thermal annealing, Vacuum, 110, 94-101, 2014 (中科院分区：2区, 影响因子：3.9).

[30] B. Chen, C. Liu, K. Hayashi*, Selective Terpene Vapor Detection Using Molecularly Imprinted Polymer Coated Au Nanoparticle LSPR Sensor, IEEE Sensors Journal, 14, 10, 3458-3464, 2014. (The Best Paper at IEEE Sensors 2013 conference) (中科院分区：3区, 影响因子：4.5).