当前位置:学院首页 >> 师资队伍>教授、研究员 >> 正 文

尹永智

2021-05-04  9001诚信金沙9001cc

       

       1.姓名:尹永智

       2.职称:教授

       3.电子邮件:yinyzh(at)lzu.edu.cn

       4.研究方向:核探测与成像技术、核医学交叉研究

       核科学与技术是国防和国民经济的关键核心领域,核探测与成像在核专业应用中至关重要。核医学诊疗是一个多学科交叉研究方向,是保证人民生命健康的重要支撑。我们研究使用室温半导体探测器(CZT)、闪烁体探测器(LYSO)、光电传感器SiPM/PMT、图像重建算法等开发新型核与辐射成像系统,开展放射性核素成像、粒子治疗剂量成像、辐射场所成像等研究,以及核探测与成像技术在理工农医等领域的应用。

       5.主要学习工作简历:

       9001诚信金沙9001cc原子核物理及核技术本科(1999-2003),粒子物理与原子核物理硕博连读(2005-2011),美国圣路易斯华盛顿大学中外联合培养博士(2008-2011)。9001诚信金沙9001cc助教(2011)、讲师(2012)、副教授(2014)、教授(2022)。承担核学院核技术与辐射防护教工党支部书记(2019),核学院学科与平台建设主管(2018)等工作。

       6.主讲课程:《核医学物理》,《力学》,《电子学基础》等。

       7.获奖统计:

       首批国家级(2020)、首批省级(2020)一流本科课程团队成员,甘肃省科技进步奖二等奖(2022),第二批新时代甘肃省高等院校党建工作优秀教师党支部书记“双带头人”(2022),教育部首批示范性虚拟仿真实验教学项目成员(2018),全国高校青年教师电子技术基础课程授课竞赛西北赛区三等奖(2016),以及9001诚信金沙9001cc优秀党务工作者(2023),学科建设先进个人(2023),研究生学风引领先进集体(2022),大学生创新创业行动计划优秀指导教师(2017)等。

       8.主要学术兼职:

       甘肃省核学会理事(2023),虚拟仿真实验教学创新联盟核工程类专业工作委员会第一届委员(2022),中国抗癌协会肿瘤粒子治疗专业委员会第一届委员(2022),第二届中国辐射防护学会电离辐射计量分会理事(2022)等。

       9.主要科研成果:

       在正电子发射断层显像、成像探测器、放射治疗监测等领域,发表期刊论文35篇、会议论文25篇、书籍章节1篇、专利软著4项。主持国家自然科学基金面上和青年项目、横向合作项目、教学项目等,参与科技部重大科学仪器设备开发专项、科技委创新项目、省引导科技创新发展专项等项目。

       部分学术论文:

       (1)D. Guo, Y. Yin*, et al, Preliminary study of Compton camera for dose monitoring in Carbon ion therapy, IEEE NSS-MIC-RTSD 2023, accept.

       (2)Y. Li, Y. Yin*, et al, Count-enhancement PET Imaging using a 0.4 mm Cross-strip 3D CZT Detector, IEEE NSS-MIC-RTSD 2023, accept, oral presentation.

       (3)Q. Zhang, Y. Yin*, et al, In-Beam PET Monitoring of Carbon Ion Radiotherapy Using a Free PET System: A Case Study of Liver Cancer Treatment, IEEE NSS-MIC-RTSD 2023, accept.

       (4)Y. Li, Y. Yin*, et al, Characterization and coincidence imaging of 1 mm pitch cross-strip CZT detector for DOI-PET, NIMA 2023, in progress.

       (5)Ch. Huang, Y. Yin*, et al, Secondary Particle Intensity for Experimental Range Verification in Carbon Ion Therapy, NIMA 2023, submitted.

       (6)Ch. Huang, Y. Yin, et al, Carbon ion radiography with a Composite Ionization Chamber Detector, Applied Radiation and Isotopes, 2023, in progress.

       (7)C.X. Pei, Y.Z. Yin, et al, Measured and GATE predicted PET-image-based activity range verification for carbon therapy: a phantom study, Journal of Instrumentation, 17, T09006, 2022.

       (8)Y. Yin*, S. Komarov, Positron Emission Tomography (PET) Imaging Based on Sub-Millimeter Pixelated CdZnTe Detectors, Advanced X-ray detector Technologies: design and applications, Chapter 12, Springer, 2022, DOI: 10.1007/978-3-030-64279-2_12.

       (9)Y. Li, Y. Yin*, et al, Characterization of 1 mm cross-strip CZT detectors for PET imaging application, IEEE NSS-MIC, M-15, 2021.

       (10)Ch. Huang, Y. Yin*, et al, Compton imaging study for dose monitoring in carbon therapy, IEEE NSS-MIC, M-16, 2021.

       (11)T. Wang, Y. Yin*, et al, Design and Simulation of a Helmet Brain PET System, Nucl. Instrum. Meth. A, 978, 164470, 2020.

       (12)Y. Yin*, et al, A Prototype VP-PET Imaging System Based on Highly Pixelated CdZnTe Detectors, Sensors, 20, 1294, 2020.

       (13)Z. Li, Y. Yin*, et al, In-beam PET imaging study in carbon therapy for dose verification, IEEE Transactions on Radiation and Plasma Medical Sciences, vol. 2, no. 1, pp. 61-67, 2018.

       (14)L. Tong, Y. Yin*, et al, Positron emission tomography detector performance with different crystal pitches, Radiation Detection Technology and Methods, 1(2):24, 2017.

       (15)Yin Y*, et al, Projectile electron loss in collisions of light charged ions with Helium, Chin. Phys. B, vol.23, n.5, 053401, 2014.

       (16)Y. Yin*, et al, Evaluation of PET Imaging Resolution using 350 um Pixelated CZT as VP-PET Insert Detector, IEEE Transactions on Nuclear Science, vol. 61, n.1, pp. 154-161, 2014.

       (17)Yin Y*, et al, Charge Sharing Effect on 600 um Pitch Pixelated CZT Detector for Imaging Applications, Chinese Physics C, vol.38, n.11, 116002, 2014.

       (18)Y. Yin*, et al, 3D spatial resolution of 350 um pitch pixelated CdZnTe detectors for imaging applications, IEEE Transactions on Nuclear Science, vol. 60, n. 1, pp. 9-15, 2013.

       (19)S. Komarov, Y. Yin, et al, Investigation of the limitations of the highly pixilated CdZnTe detector for PET applications, Physics in Medicine and Biology, vol.57, n.22, pp. 7355-7380, 2012.

       (20)Y. Yin*, et al, Study of highly pixelated CdZnTe detectors for PET applications, Physics Procedia, vol. 37, pp.1537 – 1545, 2012.

       (21)Y. Yin*, et al, Investigation of Sub-500µm PET imaging based on 350µm pitch pixelated CdZnTe detectors, Journal of Nuclear Medicine, 52 Suppl 1:1956, 2011.

       (22)Y. Yin*, et al, Resolution Improvement by Interpolation of Charge Sharing Event Position in 350μm Pitch Pixelated CdZnTe Detectors, IEEE Nucl. Sci. Symp. Conf. Rec., pp.3263-3266, 2011.

       (23)Y. Yin*, et al, 3D Spatial Resolution of 350µm Pitch Pixelated CdZnTe Detectors for PET Imaging Application, IEEE NSS-MIC, NMR-3., 2010, oral presentation.

       (24)Y. Yin, et al, Coincidence Measurement of 350um Pitch Pixelated CdZnTe Detector with LSO PET Module, IEEE Nucl. Sci. Symp. Conf. Rec., pp.3868-3872, 2010.

       (25)Y. Yin, et al, Characterization of highly pixelated CZT detectors for sub-millimeter PET imaging, IEEE Nucl. Sci. Symp. Conf. Rec., pp. 2411-2414, Joint Posters, 2009.

 

       了解更多科研工作,敬请看:https://www.scholarmate.com/P/qeaU3i

上一篇:姚泽恩

下一篇:于福升