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师资力量

师资力量

宋小霞

职 称: 科研助理教授

邮 箱: songxiaoxia@suat-sz.edu.cn

所在单位: 深圳理工大学生物医学工程学院

个人简介

宋小霞,南方科技大学博士,现任深圳理工大学科研助理教授。主要研究方向为仿生微纳机器人、肿瘤纳米诊疗、生物医用纳米材料、微纳制造加工。以第一作者(含共一)在Materials Horizons、Chem. Eng. J、ACS Applied Materials & Interfaces、Applied Surface Science等高水平学术期刊发表论文 13 篇。主持中国博士后面上项目、广东省省企联合基金面上项目、深圳市科技创新委员会面上项目等。

学习工作经历

学习经历

2019.09–2023.06:南方科技大学,博士

2008.09–2015.06南昌大学,本科、硕士

科研与学术工作经历

2023.09–2026.05深圳市第二人民医院,博士后

2015.12–2019.09中国科学院深圳先进技术研究院,研究助理

研究领域

(1)微纳机器人:仿生磁性微纳机器人构建,用于肿瘤联合治疗、噬菌体靶向递送抗感染

(2)分子影像:SERS共振拉曼探针开发,实现肿瘤标志物可视化成像

(3)生物材料:功能基底微纳形貌可控构建,调控免疫微环境促进组织再生修复

科研成果

代表性文章

(1)Guo, B.#; Li, N.#;Song, X.#; Xie, W.#; Maharjan, P.; Rachim, V.P.; Li, Z.; Chen, H.; Chen, Z.; Ha, S.; Mo, F.*; Liu, Q.*, 3D printing of highly conductive biodegradable hydrogels for flexible electronic devices with sensing and energy storage capabilities. Chem. Eng. J, 2026: 177433.

(2)Song, X.; Gul, A.; Zhao, H.; Qian, R.; Fang, L.; Huang, C.; Xi, L.; Wang, L.; Cheang, U.K.*, Hybrid Membrane Biomimetic Photothermal Nanorobots for Enhanced Chemodynamic-Chemotherapy-Immunotherapy. ACS Appl. Mater. Interfaces.2025,17(4), 5784-5798.

(3)Song, X.; Qian, R.; Li, T.; Fu, W.; Fang, L.; Cai, Y.; Guo, H.; Xi, L.; Cheang, U.K.*, Imaging-Guided Biomimetic M1 Macrophage Membrane-Camouflaged Magnetic Nanorobots for Photothermal Immunotargeting Cancer Therapy. ACS Appl. Mater. Interfaces.2022,14(51), 56548-56559.

(4)Song, X.#; Liu, F.#; Qiu, C.; Coy, E.; Liu, H.; Aperador, W.; Załęski, K.; Li, J.J.; Song, W.; Lu, Z.; Pan, H.; Kong, L.; Wang, G.*, Nanosurfacing Ti alloy by weak alkalinity-activated solid-state dewetting (AAD) and its biointerfacial enhancement effect. Mater. Horiz.2021,8, 912-924.

(5)Song, X.; Tang, W.; Gregurec, D.; Yate, L.; Moya, S.E.; Wang, G.*, Layered titanates with fibrous nanotopographic features as reservoir for bioactive ions to enhance osteogenesis. Appl. Surf. Sci.2018,436, 653–661.

(6)Song, X.; Fu, W.; Cheang, U.K.*, Immunomodulation and delivery of macrophages using nano-smooth drug-loaded magnetic microrobots for dual targeting cancer therapy. iScience.2022,25, 104507.

(7)Song, X.; Liu, Z.; Xu, X.; Tang, Q.*, Highly sensitive MRI contrast agent for enhanced visualization of tumors. New J. Chem.2014,38(8), 3813-3819.

(8)Song, X.; Wan, H.; Zhang, J.; Tang, Q.*, Paclitaxel-loaded KMnF3 Nanoparticles for Cancer Imaging and Therapy in vivo. J. Nanopart. Res.2014,16, 2722.

(9)Song, X.; Xu, X.; Wan, H.; Tang, Q.*, Development of Biocompatible nanocubes as a T1-contrast enhancer for MR Imaging of primary and metastatic liver cancer. RSC Adv.2014,4, 55003–55009.

(10)Song, X.; Liu, Z.; Tang, Q.*, Folate Grafted Prussian Blue Entrapped with Gadolinium (III) as a New Contrast Agent for Tumor-Targeted Magnetic Resonant Imaging. J. Nanosci. Nanotechnol.2013,13, 5233-5239.

(11)Ye, X.#;Song, X.#; Zhou, S.; Chen, G.; Wang, L.*, Association between combined healthy lifestyles and infertility: a cross-sectional study in US reproductive-aged women. BMC Public Health.2025,25(1), 153.

(12)Xiong, J.#;Song, X.#; Cai, Y.; Liu, J.; Li, Y.; Ji, Y.; Guo, L.; Cheang, U.K.*, Stop-Flow Lithography for the Continuous Production of Degradable Hydrogel Achiral Crescent Microswimmers. Micromachines.2022,13, 798.