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电气工程与自动化学院研究生导师介绍-杨佳

姓名

杨佳

学历学位

工学博士/博士研究生

性别

导师类型


职称

讲师

所属学院

电气工程与自动化学院

Email

yangjia1992@email.tjut.edu.cn

学术兼职


招生专业

085400电子信息(控制工程)


研究方向

生物机电融合光电传感,智能视觉感知,微纳检测

代表性学术成果:


代表科研项目:

[1] 国家自然科学基金委员会,青年科学基金项目,62303351,基于光敏生物神经网络的类生命灵敏智能视觉感知成像研究,项目负责人(2024-2026


科研论文:

[1] Yang   Jia, Lipeng Zu, Li Gongxin, et al. Upconversion optogenetics-driven   biohybrid sensor for infrared sensing and imaging [J]. Acta Biomaterialia,   2023, 158: 747-758. (SCI/EI, IF: 10.63, 中科院1Top)

[2] Yang   Jia, Li Gongxin, Wang Wenxue, et al. A bio-syncretic phototransistor   based on optogenetically engineered living cells[J]. Biosensors and   Bioelectronics, 2021, 178: 113050. (SCI/EI, IF: 10.62, 中科院1Top)

[3] Yang   Jia, Li Gongxin, Zu Lipeng, et al. Optogenetically engineered cell-based   graphene transistor for pharmacodynamic evaluation of anticancer drugs[J].   Sensors and Actuators B: Chemical, 2022, 358: 131494. (SCI/EI, IF: 7.46,中科院1Top)

[4] Yang   Jia, Gu Yanyu, Zhang Chuang, et al. Label-free purification and   characterization of optogenetically engineered cells using optically-induced   dielectrophoresis[J]. Lab on a chip, 2022, 22(19): 3687-3698. (SCI/EI, IF:   7.52, 中科院1Top,封面文章)

[5] Yang   Jia, Zhang Chuang, Wang Xiaodong, et al. Development of micro-and nanorobotics:   A review[J]. Science China Technological Sciences, 2019, 62(1): 1-20.   (SCI/EI, IF: 3.57, 中科院2区,2021年度优秀论文、高影响力论文,总计Citations: 59)

[6] Yang   Jia, Wang Wenxue, Li Gongxin, et al. Bio-syncretic light-gated   field-effect transistor: Fabrication and characterization[C]//; IEEE 19th   International Conference on Nanotechnology (IEEE-NANO), 2019: 360-363. (EI)

[7] Yang   Jia, Zu Lipeng, Dang Dan, et al. A pharmacodynamic evaluation method   based on optogenetics and graphene FETs[C]//; IEEE 11th Annual International   Conference on CYBER Technology in Automation, Control, and Intelligent   Systems (CYBER), 2021: 408-413. (Best Conference Paper Award, EI)

[8] Li Gongxin, Yang Jia, Yang Wenguang, et al. 2D normalized iterative hard   thresholding algorithm for fast compressive radar imaging[J]. Remote Sensing,   2017, 9(6): 619. (SCI/EI, IF: 4.89, 中科院2Top)

[9] Li Gongxin, Yang Jia, Yang Wenguang, et al. Label-free multidimensional   information acquisition from optogenetically engineered cells using a   graphene transistor[J]. Nanoscale, 2018, 10(5): 2285-2290. (SCI/EI, IF: 7.79,   中科院2Top)

[10] Li Gongxin, Yang Jia, Wang Yuechao, et al. Development of a novel optogenetic   indicator based on cellular deformations for mapping optogenetic   activities[J]. Nanoscale, 2018, 10(45): 21046-21051. (SCI/EI, IF: 7.79, 中科院2Top)

[11] Zhang Chuang, Yang Jia, Wang Wenxue, et al.   Bio-syncretic robots composed of biological and electromechanical systems[J].   National Science Review, 2022. (SCI/EI, IF: 23.18,中科院1Top)

[12] Li Gongxin, Du Mingao, Yang Jia, et al. Label-free rapid detection of invasive S.   cerevisiae infections with optically induced dielectrophoresis-based   micromanipulation and graphene transistor[J]. IEEE Sensors Journal, 2021,   21(13): 14627-14635. (SCI/EI, IF: 3.30,中科院2)

[13] Zu Lipeng, Shi Huiyao, Yang Jia, et al. Unidirectional diphenylalanine nanotubes for   dynamically guiding neurite outgrowth. Biomedical Materials, 2022, 18(1):   015017. (SCI/EI, IF: 4.10,中科院3)

[14] Zu Lipeng, Shi Huiyao, Yang Jia, et al. Patterned diphenylalanine nanotubes regulate the   behavior of hippocampal neurons[C]//; IEEE International Conference on Manipulation, Manufacturing and   Measurement on the Nanoscale (3M-NANO), 2021: 413-416. (Nomination for Best   Application Paper Award, EI)

[15] Li Gongxin, Wang Feifei, Yang Wenguang, et   al. Development of an image biosensor based on an optogenetically engineered   cell for visual prostheses[J]. Nanoscale, 2019, 11(28): 13213-13218. (SCI/EI,   IF: 7.79, 中科院2Top)

[16] Ge Zhixing, Yu Haibo, Yang Wenguang, et al.   Development of multi-dimensional cell co-culture via a novel microfluidic   chip fabricated by DMD-based optical projection lithography[J]. IEEE   Transactions on NanoBioscience, 2019, 18(4): 679-686. (SCI/EI, IF: 2.94, 中科院4)

[17] Wang Ruiqian, Zhang Chuang, Tan Wenjun, et   al. Electroactive polymer-based soft actuator with integrated functions of   multi-degree-of-freedom motion and perception[J]. Soft Robotics, 2022.   (SCI/EI, IF: 8.07, 中科院1Top)

[18] Li Mengyue, Wu Junfeng, Lin Daojing, et al. A   diatom-based biohybrid microrobot with a high drug-loading capacity and   pH-sensitive drug release for target therapy[J]. Acta Biomaterialia, 2022.   (SCI/EI, IF: 10.63, 中科院1Top)

[19] Ge Zhixing, Yu Haibo, Yang Wenguang, et al.   Customized construction of microscale multi-component biostructures for   cellular applications[J]. Biomaterials Advances, 2022, 133: 112599. (SCI/EI,   IF: 7.33, 中科院2Top)


申请专利:

1. 一种生物光栅晶体管器件及其制造方法和应用,发明专利,202010697805.1,刘连庆,杨佳,王文学,于鹏,张闯,2020.07.20

2. 一种基于工程化肿瘤细胞的抗肿瘤药物药效评估器件及其应用,发明专利,202111597519.9,刘连庆,杨佳,王文学,于鹏,祖立鹏,2021.12.24