个人简介
姓名:张振辉
学历:博士
职称:特聘副研究员
博导/硕导:硕士生导师
研究方向:光场调控,超快光学,光声成像理论、超分辨成像和偏振成像技术。包括偏振光声与生物学基础交叉融合,发展多组分参量表征的术中病理切片成像,开发偏振光声成像脑结构和功能影像技术,探究脑神经纤维构象和神经退行性疾病之间的内在关联。
电子邮箱:zzh@scnu.edu.cn
通讯地址:石牌校区南楼(生物光子学研究院)207室
招生专业:物理学,光电信息工程,控制工程,仪器仪表工程,生物医学工程,生物学,化学。
教育与工作经历:2023-至今:华南师范大学,特聘副研究员
教学情况:应用光学(本科)、生命科学研究进展(研究生)
科研项目:
(1) 国家自然科学基金重点项目, 62335007, 三维光声-光学全偏振成像及脑神经纤维构型的高分辨显微研究, 2024-01-01 至 2028-12-31, 230万元, 作为骨干参与
(2) 国家自然科学基金青年科学基金项目, 12304483, 基于偏振调制-锁相探测的无标记光声超分辨成像技术, 2024-01-01 至 2026-12-31, 30万元, 主持
(3) 广东省自然科学基金面上项目 2024A1515010287 锁相检测-偏振光声引导的波前调控技术 2024.01-01至2026.12.30,15万, 主持
(4) 中国博士后科学基金面上项目 第75批 基于波前整形的偏振光声显微术可视化深层组分各向异性信息 2024.09至2026.09,8万,主持
(5) 国家自然科学基金委员会, 面上项目, 12174125, 偏振光声矩阵成像技术及其应用基础研究, 2022-01-01 至 2025-12-31, 61万元, 参与。
(6) 国家自然科学基金委员会, 青年科学基金项目, 61805085, 光声二次谐波非线性成像技术及其应用研究, 2019-01-01 至 2021-12-31, 27万元, 参与
发表论文/发明专利/出版著作:
[1] Wu, J., Zhang, K., Huang, C., Ma, Y., Ma, R., Chen, X., ... & Zhang, Z. . Parallel diffusion models promote high detail-fidelity photoacoustic microscopy in sparse sampling. Optics Express, 2024,32(16), 27574-27590.
[2] Mu, G., Zhang, Z.* , Cui, D., Chen, W., & Shi, Y.* Universal visualization of crystalline orientation for black phosphorus by angle-resolved polarized photoacoustic microscopy. Optics Letters, 2023,48(10), 2748-2751.
[3] Zhang Z, Chen W, Cui D, et al. Collagen fiber anisotropy characterization by polarized photoacoustic imaging for just-in-time quantitative evaluation of burn severity[J]. Photonics Research, 2023, 11(5): 817-828.
[4] Zhang Z, Mu G, Wang E, et al. Photoacoustic imaging of tumor vascular involvement and surgical margin pathology for feedback-guided intraoperative tumor resection[J]. Applied Physics Letters, 2022, 121(19): 193702.
[5] Zhang Z, Shi Y, Yang S, et al. Subdiffraction-limited second harmonic photoacoustic microscopy based on nonlinear thermal diffusion[J]. Optics Letters, 2018, 43(10): 2336-2339.
[6] Zhang Z, Shi Y, Xiang L, et al. Polarized photoacoustic microscopy for vectorial-absorption-based anisotropy detection[J]. Optics Letters, 2018, 43(21): 5267-5270.
[7] Sun T, Zhang Z, Cui D, et al. Quantitative 3D temperature rendering of deep tumors by a NIR-II reversibly responsive W-VO2@ PEG photoacoustic nanothermometer to promote precise cancer photothermal therapy[J]. ACS nano, 2023, 17(15): 14604-14618.
[8] Guo, T., Xiong, K., Yuan, B., Zhang, Z., Wang, L., Zhang, Y., ... & Liu, Z. (2023). Homogeneous-resolution photoacoustic microscopy for ultrawide field-of-view neurovascular imaging in Alzheimer's disease. Photoacoustics, 31, 100516.
[9] Cheng, Z., Wang, D., Zhang, Z., Wang, Z., Yang, F., Zeng, L., & Ji, X. (2023). Photoacoustic maximum amplitude projection microscopy by ultra-low data sampling. Optics Letters, 48(7), 1718-1721.
[10] Mi, J., Cui, D., Zhang, Z., Mu, G., & Shi, Y. (2023). Nir-ii femtosecond laser ignites mxene as photoacoustic bomb for continuous high-precision tumor blasting. Nanoscale, 15(41), 16539-16551.
[11] Shi Y, Cui D, Zhang Z. Quantitative study of the nonlinearly enhanced photoacoustic/photothermal effect by strong LSPR-coupled nanoassemblies[J]. Nanomaterials, 2020, 10(10): 1942.
[12] Shi Y, Zhang Z. Nonlinear photoacoustic imaging dedicated to thermal-nonlinearity characterization[J]. Chinese Optics Letters, 2021, 19(7): 071702.
[13] Li Y, Shi Y, Zhang Z, et al. Nonlinearly enhanced photoacoustic microscopy by picosecond-laser-pumped excited state absorption of phthalocyanine nanoprobes[J]. Applied Physics Letters, 2021, 118(19): 193701.
[14] Cui D, Zhang Z, Shi Y. Optically-excited simultaneous photoacoustic and ultrasound imaging based on a flexible gold-PDMS film[J]. Journal of Innovative Optical Health Sciences, 2020, 13(04): 2050012.
[15] Li, Y., Zhang, S., Wu, L., Cheng, Z., Zhang, Z., Wang, H., ... & Qin, H. (2022). Polarization microwave-induced thermoacoustic imaging for quantitative characterization of deep biological tissue microstructures. Photonics Research, 10(5), 1297-1306
[16] Zhang Z, Shi Y, Shen Q, et al. Label free visualization of amyloid plaques in Alzheimer's disease with polarization-sensitive photoacoustic Mueller matrix tomography[J]. arXiv preprint arXiv:2207.13271, 2022.
[17] 孙彤, 黄国家, 张振辉*. 基于高分辨光声显微成像的肝癌微血管特征分析[J]. Chinese Journal of Lasers, 2023, 50(15): 1507105-1507105-9.
[18] 张振辉, 石玉娇. 基于非线性热扩散效应的亚衍射极限光声二次谐波显微成像技术[J]. 激光生物学报, 2019, 28(1): 32-39.
[19] 石玉娇, 张振辉. 基于各向异性光吸收的线偏振光声成像[J]. 中国激光, 2019, 46(8): 0807001.
[20] 张振辉, 王尔褀, 石玉娇. 光声技术在脑组织成像中的应用 (特邀)[J]. 红外与激光工程, 2022, 51(11): 20220541-1-20220541-7.
[21] 穆根, 张振辉, 石玉娇. 生物医学影像中的光声成像技术[J]. Chinese Journal of Lasers, 2022, 49(20): 2007208-2007208-19.
[22] 石玉娇; 张振辉; 邢达 ; 偏振光声穆勒矩阵成像方法和系统, 2022-11-01, 中国, 202010994497.9 (专利)
[23] 杨思华;申滔;杨泓亚;张振辉;一种宽场光声显微成像方法及其装置,2024-05-09,中国 ZL 2024 1 0564406.6 (专利)
[24] 张振辉,申滔,高昊,杨秋琳,穆根,杨思华;偏振光声遥感成像装置及成像方法,2023-07-07 202310829786.7 (专利)
[25] 杨思华,杨秋琳,陈伟,申滔,高昊,石玉娇,张振辉:基于锁相检测的偏振光声计算断层成像装置及成像方法,2023-07-07,202310829787.1 (专利)