马思汉

教师简介

马思汉，特聘教授，博士，硕士研究生导师。研究方向：(1) 光热压电场催化功能材料的能源环境应用；(2) 微纳米尺度结构材料的生物医学工程应用；(3) 载能离子束辐照材料改性及微观结构演化。招生专业：物理电子学；微电子与固体电子学；新一代电子信息技术。在Materials Science Engineering R, Advanced Materials, Advanced Functional materials, Chemical Engineering Journal等国际知名期刊发表学术论文30余篇，其中以第一作者及通讯作者身份发表SCI期刊论文20余篇。主持国家自然科学基金1项，省部级自然科学基金项目2项及贵州大学自然科学专项(特岗)科研基金项目1项；以第一发明人授权专利1项；参与多项国家自然科学基金(面上、地区项目)等。办公地点：贵州大学南校区智芯楼601室。联系方式：shma@gzu.edu.cn

主要经历

教育经历：

2023年11月—至今           贵州大学大数据与信息工程学院，特聘教授

2019年9月-2023年6月   厦门大学，核工程与材料专业，博士

2016年9月-2019年6月   兰州大学，核技术及应用专业，硕士

2012年9月-2016年6月   西南科技大学，核工程与核技术专业，学士

主要贡献

主持的科研项目：

1. 国家自然科学基金委青年科学基金项目，合同编号：12405327，起止时间：2025.01-2027.12。30 万，主持。

2. 贵州大学自然科学专项(特岗)科研基金，合同编号：贵大特岗合字(2024) 06号，起止时间：2023.11-2027.11。40 万，主持。

3. 贵州省教育厅青年科技人才成长项目，合同编号：黔教技(2024) 26号，起止时间：2024.07-2026.06。6万，主持。

4. 贵州省基础研究计划(自然科学)青年引导项目，合同编号：黔科合基础(2024)青年096号，起止时间：2024.08-2027.07。5万，主持。

第一/通讯作者发表的专著：

1. Ma, S.; Ma, Sh.; Ran, G*., Ion beam irradiation techniques: enabling the synthesis, modification and enhancement catalytic applications in nanostructured materials. Materials Today Chemistry 2025, 43, 102529. (出版年份 2区, IF= 6.7)

2. Ma, S.; Zhao, Z.; Ma, Sh.; et al., Light-triggered semiconductors for bacterial elimination. Chemical Engineering Journal 2025, 506, 160243. (出版年份 1区, IF= 13.4)

3. Li, W.; Long, D.; Yu, X.; Ma, S*., Review of bismuth-based photothermocatalysts for highly efficient bacterial inactivation and pollutant degradation in wastewater. Materials Today Chemistry 2025, 44, 102590. (出版年份 2区, IF= 6.7)

4. Ma, S.; Long, D.; Yu, X.; Li, W.; Ran, G*., Photocatalysts designed using nuclear energy radioactive technology for energy conversion and environmental remediation. Materials Science & Engineering R 2025, 164, 100992. (出版年份 1区, IF= 31.6)

5.Han, Z.; Ma, S*., Understanding the working principle of photocatalysts for designing high-performance antibacterial agents. Coordination Chemistry Reviews 2025, 537, 216715. (出版年份 1区, IF= 20.3)

6. Ma, S.; Ma, Sh.; Ran, G*., Self-driven lattice strain and defective engineering of ultrathin BiOI facilitates the realization of significantly light-triggered degradation and sterilization capability. Separation and Purification Technology 2025, 360, 131100. (出版年份 1区, IF= 8.6)

7. Ma, S.; Yu, X.; Li, W.; Kong, J.; et al., Bismuth-based photocatalysts for pollutant degradation and bacterial disinfection in sewage system: Classification, modification and mechanism. Environmental Research 2025, 264, 120297. (出版年份 2区, IF= 7.7)

8. Long, D.; Yu, X.; Li, W*.; Ma, S*., One bismuth three birds: an overview of bismuth-based photocatalysts for energy conversion, environmental treatment and biomedical applications. Materials Advances 2025, 6, 508. (出版年份 IF=5.2)

9. Ma, S.; Li, X.; Kong, J.; Yu, X.; Bai, X.,Light-triggered bactericidal semiconductor nanomaterials: classification, modification and antibacterial strategies. Applied Materials Today 2024, 39, 102279. (出版年份 2区, IF= 8.3)

10. Ma, S.; Kong, J.; Luo, X.; et al., Recent progress on bismuth-based light-triggered antibacterial nanocomposites: Synthesis, characterization, optical properties and bactericidal applications. Science of The Total Environment 2024, 915, 170125. (出版年份 1区, IF= 9.8)

11. Ma, S.; Kong, J.; Luo, X.; et al., In-situ surface bismuth assembled amorphous BiOI nanoplatforms for enhancing NIR-triggered bacterial inactivation. Separation and Purification Technology 2024, 341, 126932. (出版年份 1区, IF= 8.6)

12. Ma, S.; Li Y.; Cui D.; et al., In-situ TEM investigation of nucleation and crystallization of hybrid bismuth nanodiamonds. Nanoscale 2023, 15, 8762. (出版年份 2区, IF= 8.307)

13. Ma, S.; Li, Y.; Luo, X.; et al., Dislocation-rich BiOI nanosheets designed by nitrogen ion implantation for improving NIR-triggered bactericidal activity. Materials Today Energy 2023, 31, 101214. (出版年份 2区, IF= 9.257)

14. Ma, S.; Zhou, Z.; Ran, G*.; et al., An outstanding role of novel virus-like heterojunction nanosphere BOCO@Ag as high performance antibacterial activity agent. Journal of Hazardous Materilas 2022, 422, 126785. (出版年份 1区, IF= 14.224)

15. Ma, S.; Luo, X.; Ran, G*.; et al., Copper stabilized bimetallic alloy Cu–Bi by convenient strategy fabrication: A novel Fenton-like and photothermal synergistic antibacterial platform. Journal of Cleaner Production 2022, 336, 130431. (出版年份 1区, IF= 11.072)

16. Ma, S.; Luo, X.; Ran, G*.; et al., Defect engineering of ultrathin 2D nanosheet BiOI/Bi for enhanced photothermal-catalytic synergistic bacteria-killing. Chemical Engineering Journal 2022, 435, 134810. (出版年份 1区, IF= 16.744)

17. Ma, S.; Luo, X.; Kong, J.; et al., Plasmonic silver loaded hybrid Bi-Ag nanoalloys for highly efficient disinfection by enhancing photothermal performance and interface capability. Chemical Engineering Journal 2022, 450, 138016. (出版年份 1区, IF= 16.744)

18. Ma, S.; Xie, J.; Wang, L.; et al., Hetero-Core-Shell BiNS-Fe@Fe as a Potential Theranostic Nanoplatform for Multimodal Imaging-Guided Simultaneous Photothermal-Photodynamic and Chemodynamic Treatment. ACS Applied Materials & Interfaces 2021, 13, 10728. (出版年份1区, IF=9.229)

19. Ma, S.; Wang, L.; Liu, Z.; et al., One stone, two birds: engineering 2-D ultrathin heterostructure nanosheet BiNS@NaLnF₄ for dual-modal computed tomography/magnetic resonance imaging guided, photonic synergetic theranostics. Nanoscale 2021, 13, 185. (出版年份 1区, IF= 7.79)

20. Ma, S.; Zhang, J.; Xia, S.; et al., Three-dimensional angiography fused with CT/MRI for multimodal imaging of nanoparticles based on Ba₄Yb₃F₁₇:Lu³⁺,Gd³⁺. Nanoscale 2018, 10, 13402. (出版年份 1区, IF= 7.233)

21. 马思汉, 张催, 陈章谷, et al. CT 图像重建中基于指数形式的滤波函数优化. 无损检测, 2017, 39, 1.

共同作者发表论文(Optional Publication)：

1. Kong, J.; Ma, S.; Chu, R.; et al., Photothermal and Photocatalytic Glycol Chitosan and Polydopamine-Grafted Oxygen Vacancy Bismuth Oxyiodide (BiO_1-xI) Nanoparticles for the Diagnosis and Targeted Therapy of Diabetic Wounds, Advanced Materials 2024, 36, 2307695. (出版年份 1区, IF= 29.4)

2. Li, J.; Kong, J.; Ma, S.; et al., Exosome-Coated ¹⁰B Carbon Dots for Precise Boron Neutron Capture Therapy in a Mouse Model of Glioma In Situ. Advanced Functional Materials 2021, 31, 2100969. (出版年份 1区, IF= 19.924)

3. Yu, X.; Li, X.; Ma, S.; et al., Low humidity hysteresis and fast response silicon based capacitive humidity sensor based on SiO₂ supported GO film. Sensors and Actuators B: Chemical 2024, 421, 136503. (出版年份 1区, IF= 8.0)

4. Xie, J.; Zhou, Z.; Ma, S.; et al., Facile Fabrication of BiF₃: Ln (Ln = Gd, Yb, Er)@PVP Nanoparticles for High-Efficiency Computed Tomography Imaging, Nanoscale Research Letters 2022, 16, 131. (出版年份 2区, IF= 5.418)

5. Luo, X.; Xie, J.; Zhou, Z.; Ma, S.; et al., Virus-Inspired Gold Nanorod-Mesoporous Silica Core-Shell Nanoparticles Integrated with tTF-EG3287 for Synergetic Tumor Photothermal Therapy and Selective Therapy for Vascular. ACS Applied Materials & Interfaces 2022, 13, 44013. (出版年份 2区, IF= 10.383)

6. Zhao, S.; Ran, G.; Gao, F.; Ma, S.; et al., Rotation and migration behavior of self-interstitial atoms in 3C-SiC: A comprehensive ab initio study, Journal of Nuclear Materials 2021, 557, 153255. (出版年份 2区, IF= 2.936)

7. Li, X.; Fan, Q.; Wu, Y.; Lin, X.; Ma, S.; et al., Enhancing hydrodeoxygenation-isomerization of FAME over M-SAPO-11 in one-step process: Effect of in-situ isomorphic substitution of transition metals and synergy of Pt_xSn_y alloy. Chemical Engineering Journal 2023, 452, 139528. (出版年份 1区, IF= 16.744)

8. Yu, X.; Ma, S.; Long, D; et al., Investigation of the influence of GO size on the humidity sensing performance. Sensors and Actuators B: Chemical 2025, 429, 137286. (出版年份 1区, IF= 8.0)

授权的国家专利：

1.马思汉；李娟；邢更妹，“一种具有核壳结构的纳米颗粒、制备方法及用途” CN108452326B. 授权公告日: 2020.10.16

学术兼职：担任Materials、Energies客座编辑，担任《稀有金属》期刊青年编委。