个人简介
姓名:覃欢
学历:博士研究生
职称:副研究员
电子邮箱:qinghuan@scnu.edu.cn
通讯地址:广州市天河区华南师范大学生物光子学研究院
l 中国光学学会高级会员
l 中国光学学会生物医学光子学专业委员会青年委员
l 中国电子学会会员
l 中国生物医学工程学会会员
l 广东省生物物理学理事
研究方向
1. 高分辨率、高灵敏度微波热声成像技术及其在生物医学中的应用基础研究。
2. 智能化、功能化、靶向性纳米探针的设计合成及其在光声/微波热声成像与肿瘤治疗中的应用。
致力于新兴的生物医学微波热声影像技术与应用基础研究,以通讯/第一者身份发表原创SCI论文33余篇,获授权国家发明专利6项。1. 研制了短脉冲微波热声成像仪,突破了高分辨光学成像深度的“硬极限”(5 cm),攻克了深层组织检测分辨率及灵敏度低的难题,开展小动物脑精细结构与功能热声成像研究、在南方三院开展人体乳腺肿瘤筛查测试(IEEE Transactions on Medical Imaging, 2020, 2021;IEEE Transactions on Biomedical Engineering, 2021, 2022); 2. 提出偏振微波热声成像技术,利用偏振脉冲微波激发产生的超声递送深层组织中的偏振信息,为活体深层组织微观结构检测提供新方法(Photonics Research, 2022); 3. 发现了纳秒脉冲激光/微波激发的超声冲击波可精准杀伤肿瘤细胞而极少损伤毗邻的正常细胞,探索面向脑胶质瘤的微波热声精准诊疗新方法(Advanced Functional Materials 2019; Small 2015;Small,2022)。工作被Nature Reviews Clinical Oncology等高度评价。作为项目负责人先后主持国家自然基金委面上项目2项,以及国家自然科学基金青年科学基金;作为核心成员参与国家重大仪器项目1项、国家科技部“863”青年科学家专项1项。获广东省生物物理学会青年创新奖。
代表性学术论文:
1. Linghua Wu, Zhongwen Cheng, Yuanzheng Ma, Yujing Li, Mingyang Ren, Da Xing, and Huan Qin*, A handheld microwave thermoacoustic imaging system with an impedance matching microwave-sono probe for breast tumor screening. IEEE Transactions on Medical Imaging, 41(5), 1080-1086, 2022.
2. Zhongwen Cheng, Linghua Wu, Tengshen Qiu, Yihao Duan, Huan Qin*, Jun Hu*, Sihua Yang*. An excitation-reception collinear probe for ultrasonic, photoacoustic, and thermoacoustic tri-modal volumetric imaging. IEEE Transactions on Medical Imaging, 40(12), 3498 – 3506, 2021.
3. Shuxiang Zhao, Haohao Wang, Yujing Li, Liming Nie, Shanxiang Zhang, Da Xing*, Huan Qin*. Ultrashort-Pulse-Microwave Excited Whole-Breast Thermoacoustic Imaging with Uniform Field of Large Size Aperture Antenna for Tumor Screening, IEEE Transactions on Biomedical Engineering, 69(2),725 –733, 2022.
4. Mingyang Ren, Zhongwen Cheng, Linghua Wu, Huimin Zhang, Shanxiang Zhang, Xiaoyu Chen, Da Xing*, and Huan Qin*. Portable microwave-acoustic coaxial thermoacoustic probe with miniaturized Vivaldi antennas for breast tumor Screening. IEEE Transactions on Biomedical Engineering, DOI 10.1109/TBME.2022.3187153, 2022.
5. Yujing Li, Shanxiang Zhang, Linghua Wu, Zhongwen Cheng, Zhenhui Zhang, Haohao Wang, Shuxiang Zhao, Mingyang Ren, Sihua Yang, Da Xing*, Huan Qin*, Polarization microwave-induced thermoacoustic imaging for quantitative characterization of deep biological tissue microstructures, Photonics Research, 10(5), 1297-1306, 2022.
6. Liming Liu, Qun Chen, Liewei Wen, Cong Li, Huan Qin*, Da Xing*. Photoacoustic therapy for precise eradication of glioblastoma with a tumor site blood–brain barrier permeability upregulating nanoparticle. Advanced Functional Materials, 29(11), 1808601, 2019.
7. Huan Qin, Ting Zhou, Sihua Yang, Da Xing*. Fluorescence quenching nanoprobes dedicated to in vivo photoacoustic imaging and high-efficient tumor therapy in deep-seated tissue. Small, 11(22), 2675-2686, 2015.
8. Wenjing Li, Shanxiang Zhang, Da Xing, * Huan Qin*. Pulsed microwave-induced thermoacoustic shockwave for precise glioblastoma therapy with the skin and skull intact. Small, 18(25), 2201342, 2022.
9. Xiaoyu Chen, Shanxiang Zhang, Jiaqian Liu, Mingyang Ren, Da Xing*,Huan Qin*. Controlling dielectric loss of biodegradable black phosphorus nanosheets by iron-ion-modification for imaging-guided microwave thermoacoustic therapy. Biomaterials, 287, 121662, 2022.
10. Shanxiang Zhang, Wenjing Li, Xiaoyu Chen, Mingyang Ren, Huimin Zhang,Da Xing*, Huan Qin* Manganous-manganic oxide nanoparticle as an activatable microwave-induced thermoacoustic probe for deep-located tumor specific imaging in vivo. Photoacoustics, 26, 100347, 2022.
11. Huan Qin*, Baohua Qin, Chang Yuan, Qun Chen, Da Xing*. Pancreatic Cancer detection via Galectin-1-targeted Thermoacoustic Imaging: validation in an in vivo heterozygosity model. Theranostics, 10(20), 9172–9185, 2020.
12. Zhujun Wu, Fanchu Zeng, Le Zhang, Shuxiang Zhao, Linghua Wu, Huan Qin*, Da Xing*. Defect-rich titanium nitride nanoparticle with high microwave-acoustic conversion efficiency for thermoacoustic imaging-guided deep tumor therapy. Nano Research, 2020, DOI: 10.1007/s12274-020-3277-8.
13. Haohao Wang, Yuanzheng Ma, Shuxiang Zhao, Yujing Li, Linghua Wu, Huan Qin*, and Da Xing. Fabry–Pérot interference principle-based non-contact thermoacoustic imaging system for breast tumor screening. Applied Physics Letters, 119, 143701, 2021.
14. Yaping Li, Qihao Tan, Huan Qin*, and Da Xing. Defect-rich single-layer MoS2 nanosheets with high dielectric-loss for contrast-enhanced thermoacoustic imaging of breast tumor, Applied Physics Letters, 115, 073701, 2019.
15. Huan Qin, Sihua Yang, Da Xing*. Microwave-induced thermoacoustic computed tomography with a clinical contrast agent of NMG2 [Gd (DTPA)]. Applied Physics Letters, 100(3), 033701, 2012.
16. Baoyun Yan, Huan Qin*, Cuiyun Huan, Cong Li, Qun Chen, Da Xing*. Single-wavelength excited photoacoustic-fluorescence microscopy for in vivo pH mapping. Optics Letters, 42(7), 1253-1256, 2017.
已获授权发明专利:
(1) 覃欢、李昱静、邢达, 线偏振微波热声成像方法与装置,授权公开日:2022年06月07日,专利号:ZL201911085075.3。
(2) 覃欢、赵枢祥、邢达,基于波导输出的超短脉冲热声成像方法与装置,授权公开日:2022年11月29日,专利号:ZL201911084029.1。
(3) 覃欢、任明洋、邢达,基于微型贴片天线的三维热声成像方法与装置, 授权公开日:2022年11月29日,专利号:ZL202011443944.8。
(4) 覃欢、王浩浩、邢达,非接触式热声成像方法与装置,授权公开日:2022年12月30日,专利号:ZL201911084029.1.
(5) 覃欢、闫宝运、杨思华、邢达,利用光声荧光信号比值测定pH值的定量检测方法与装置,授权公开日:2018年08月24日,专利号:ZL201610053518.0。
(6) 邢达,覃欢,杨思华,利用光声-荧光互补原理的深层钙离子浓度监测方法与装置,授权公开日:2019年06月28日,专利号: ZL201510896712.0。
科研项目:
[1] 国家自然科学基金面上项目,“偏振微波热声矩阵成像及其对心肌病理结构精密诊断的应用基础研究”,62375088,2024.01—2027.12,主持。
[2] 国家自然科学基金面上项目,“超短脉冲微波激发的热弹波脑胶质瘤诊疗系统与技术研究”, 62075066,2021.01 - 2024.12,主持。
[3] 国家自然科学青年科学基金项目,“光声钙离子成像及其应用基础研究”,11604105,2017.01- 2019.12,主持。
[4] 广东省自然科学基金-面上项目,“内窥微波热声成像技术及其应用基础研究”,2023A1515010824,2023.01-2025.12,主持。
[5] 广东省自然科学基金-面上项目,“面向脑胶质瘤的微波热声诊疗技术研究”,2019A1515012054,2019.10-2022.9, 主持。
[6] 广州市科技项目一般项目专题,“面向脑胶质瘤手术导航的多参量光声成像仪”,201804010360,2018.04-2020.03,主持。
[7] 广州市科技项目一般项目专题,“面向乳腺肿瘤筛查的手持式微波热声成像技术” 202201010718,2022.04-2024. 03, 主持。