罗东 副教授（博导）

电子邮件:luodong09@scut.edu.cn

办公地址：广州国际校区C1-b515

2022-至今 华南理工大学 副教授

2017-2022 美国凯斯西储大学（Case Western Reserve University）博士后

2013-2017 英国伦敦玛丽女王大学（Queen Mary University of London）博士

生物医学工程（学博、学硕）、生物学（学博、学硕）、药学（专硕）、材料与化工（工程博士）

分子影像、纳米医学

主要从事疾病的影像诊断和药物的控制释放用于精准医学的研究。主持并完成克利夫兰VeloSano项目，参与完成多项美国NIH RO1项目。近年来以第一作者在JACS, ACS Nano, Nano Letters, Chemical Science, Small, ACS Applied Materials & Interfaces, Biomacromolecules 等国际知名学术期刊上发表论文14篇；美国专利2项，其中1项实现产业转化。多次在世界分子影像协会（WMIS）、控制释放协会(CRS)、世界材料研究协会(MRS)等年会作口头报告。曾获得英国材料与矿物协会（IOM3）Andrew Carnegie Research Award，以及伦敦玛丽女王大学Postgraduate Research Award和SEMS PhD Travel Award。

代表性论文  

1. Luo D, Wang XN, Walker E, Springer S, Ramanurthy G, Burda C, Basilion JP. Targeted chemoradiotherapy of prostate cancer using gold nanoclusters with protease activatable Monomethyl Auristatin E. ACS Applied Materials & Interfaces 2022, 14(13), 14916–14927.

2. Li H,^#Luo D,^#Yuan C, Wang XN, Wang J, Basilion JP, Meade TJ. Magnetic resonance imaging of PSMA-positive prostate cancer by a targeted and activatable Gd(III) MR contrast agent. JACS 2021, 143(41), 17097–17108.

3. Luo D, Wang XN, Walker E, Wang J, Springer S, Lou J, Ramanurthy G, Burda C, Basilion JP. Nanoparticles yield increased drug uptake and therapeutic efficacy upon sequential near-infrared irradiation. ACS Nano 2020, 14(11), 15193-15203.

4. Luo D, Johnson A, Wang XN, Springer S, Lou J, Ramanurthy G, Burda C, Meade TJ, Basilion JP. Targeted gold nanoparticles for MR-guided radiation therapy of prostate cancer. Nano Letters 2020, 20(10), 7159-7167.

5. Luo D, Wang XN, Zeng S, Ramanurthy G, Burda C, Basilion JP. Targeted gold nanocluster-enhanced radiotherapy of prostate cancer. Small 2019, 15(34), 1900968.

6. Luo D, Wang XN, Zeng S, Ramanurthy G, Burda C, Basilion JP. Prostate-specific membrane antigen targeted gold nanoparticles for prostate cancer radiotherapy: does size matter for targeted particles? Chemical Science 2019, 10(35), 8119-8128.

7. Luo D, Poston RN, Gould DJ, Sukhorukov GB. Magnetically targetable microcapsules display subtle changes in permeability and drug release in response to a biologically compatible low frequency alternating magnetic field. Materials Science and Engineering: C 2019, 94, 647-655.

8. Luo D, Shahid S, Hasan MS, Whiley R, Sukhorukov GB, Cattell MJ. Controlled release of chlorhexidine from a HEMA-UDMA resin using a magnetic field. Dental Materials 2018, 34 (5), 764–775.

9. Luo D, Zhang X, Shahid S, Cattell MJ, Gould DJ, Sukhorukov GB. Electrospun poly(lactic acid) fibers containing novel chlorhexidine particles with sustained antibacterial activity. Biomaterials Science 2017, 5(1), 111-119.

10. Luo D, Shahid S, Sukhorukov GB, Cattell MJ. Synthesis of novel chlorhexidine spheres with controlled release from a UDMA–HEMA resin using ultrasound. Dental Materials 2017, 33 (6), 713–722.

11. Luo D, Hasan MS, Shahid S, Khlebtsov BN, Cattell MJ, Sukhorukov GB. Gold nanorod mediated chlorhexidine microparticle formation and near-infrared light induced release. Langmuir 2017, 33 (32), 7982–7993.

12. Luo D, Shahid S, Wilson RM, Cattell MJ, Sukhorukov GB. Novel formulation of chlorhexidine spheres and sustained release with multilayered encapsulation. ACS Applied Materials & Interfaces 2016, 8(20), 12652-12660.

13. Luo D, Gould DJ, Sukhorukov GB.  Local and sustained activity of doxycycline delivered with layer-by-layer microcapsules. Biomacromolecules 2016, 17(4), 1466-1476.

英才专访

罗东：结果未知才是科研的迷人之处