课题组介绍：

吉林大学朱守俊课题组招聘博士后和科研助理若干，从事荧光活体成像方面的研究。本课题组于2019年8月成立，应对现有活体荧光成像中的瓶颈和关键科学问题，拟开发多种材料体系功能/靶向性分子探针及成像设备，对重大疾病的生物模型进行活体可视化研究。

招聘信息：

1. 博士后应聘条件，基础知识扎实，刻苦努力，有团队合作精神；身体健康，具有良好的沟通能力，具有较强的英语听说读写能力；35周岁以下，进校后须全职在吉林大学工作。具有以下研究背景之一：生物医学相关专业（如免疫学、肿瘤学等），光学设备搭建，化学材料合成等。

岗位待遇，入选“鼎新学者”（http://bsh.jlu.edu.cn/info/1038/1388.htm）：薪酬30-35万元/年；入选吉大一院博士后（https://mp.weixin.qq.com/s/LB_UYFTFkgRYLONa6NPQgA），薪酬30万/年；未入选者根据具体研究背景而定，年薪不少于25万；博士后科研成果将提供较高的业绩津贴。博士后期间表现优异者可推荐国外实验室深造或留校晋升。入站享受与我校在编教职工正常五险一金待遇。此外，入站博士后可申请博士后创新人才支持计划，国家自然科学青年基金项目、博管会面上项目，特别资助项目等。

2. 课题组接受硕士及本科毕业生作为研究助理，要求基础知识扎实，刻苦努力，动手能力强，想成为科研技术、行政管理类岗位从业者，工资跟据个人情况面议。

3. 课题组接受化学、生物医学、物理等相关专业本科生攻读硕士或博士学位。

请有意者将个人简历（包括学习工作经历、代表论文等）发送至邮箱：sjzhu@jlu.edu.cn。

导师简介：

朱守俊，吉林大学教授，博士生导师。朱守俊博士先后师从吉林大学杨柏教授，斯坦福大学Hongjie Dai教授以及美国国立卫生研究院Xiaoyuan (Shawn) Chen教授，主要研究方向为功能/靶向性分子探针的开发及活体成像。截至2020年4月，共发表论文103篇，共被引用12000余次，H因子48。其中，第一/共一/通讯作者文章36篇，包括PNAS 1篇, Sci. Adv. 1篇, Nat. Photon. 1篇, Angew. Chem. Int. Ed. 2篇, Nat. Commun. 1篇, Adv. Mater. 5篇, JACS 1篇, Nano Today 2篇, Adv. Funct. Mater. 2篇, Chem. Commun. 4篇等，第一作者文章中ESI高被引用论文14篇，单篇最高引用2000余次，引用大于300次7篇；多篇论文被评为所在杂志高访问、高引用论文。入选2019年科睿唯安“高被引科学家”（交叉领域）。

学术网站个人信息：

课题组网站：https://www.x-mol.com/groups/zhu_shoujun

Web of Science ResearcherID：https://publons.com/researcher/2020781/shoujun-zhu/

代表论文：

1.     Multiplexed NIR‐II probes for lymph node‐invaded cancer detection and imaging‐guided surgery
R. Tian⁺, H. Ma⁺, S. Zhu,* J. Lau, R. Ma, Y. Liu, L. Lin, S. Chandra, S. Wang, X. Zhu, H. Deng, G. Niu, M. Zhang,* A. Antaris, K. Hettie, B. Yang, Y. Liang,* X. Chen,* Adv. Mater., 2020, 32, 1907365

2.    Ultrahigh-sensitivity sandwiched plasmon ruler for label-free clinical diagnosis
J. Nan, S. Zhu,* S. Ye, W. Sun, Y. Yue, X. Tang, J. Shi, X. Xu, J. Zhang,* B. Yang, Adv. Mater., 2020, 32, 1905927

3.    Albumin-chaperoned cyanine dye yields superbright NIR-II fluorophore with enhanced pharmacokinetics
R. Tian⁺, Q. Zeng⁺, S. Zhu,* J. Lau, S. Chandra, Z. Hu, G. Niu, D. Kiesewetter, H. Sun,* X. Zhang, A. Antaris, B. Brooks, X. Chen,* Science Adv., 2019, 5, eaaw0672.

4.    Overcoming the colour barrier
S. Zhu, X. Chen,* Nature Photonics, 2019, 13, 515-516

5.    An albumin sandwich enhances in vivo circulation and stability of metabolically labile peptides
R. Tian, S. Zhu,* L. Lang, Y. Ma, D. Kiesewetter, Y. Liu, X. Fu, J. Lau, G. Zhu, O. Jacobson, Z. Wang, Y. Dai, G. Yu, B. Brooks, G. Liu, G. Niu,* X. Chen,* Bioconjugate Chem., 2019, 30, 1711-1723

6.    Near-infrared-II molecular dyes for cancer imaging and surgery
S. Zhu, R. Tian, A. Antaris, X. Chen,* H. Dai,* Adv. Mater., 2019, 31, 1900321 (Citation>40 times)

7.    Clinical translation of near-infrared-II (NIR-II) bioimaging via off-peak NIR-I fluorescent emission
S. Zhu, B. Yung, S. Chandra, G. Niu, A. Antaris,* X. Chen,* Theranostics, 2018, 8, 4141-4151 (Citation>40 times)

8.    Repurposing cyanine NIR-I dyes accelerates clinical translation of near-infrared-II (NIR-II) bioimaging
S. Zhu⁺, Z. Hu⁺, R. Tian⁺ (co-first author), B. Yung, Q. Yang, S. Zhao, D. Kiesewetter, G. Niu, H. Sun,* A. Antaris, X. Chen,* Adv. Mater., 2018, 30, 1802546 (Citation>50 times)

9.    3D NIR-II molecular imaging distinguishes targeted organs development stages with high-performance NIR-II bioconjugates
S. Zhu⁺, S. Herraiz⁺, J. Yue⁺, M. Zhang⁺, H. Wan⁺ (co-first author), Q. Yang, Z. Ma, Y. Wang, J. He, A. Antaris, Y. Zhong, S. Diao, Y. Feng, Y. Zhou, K. Yu, G. Hong, Y. Liang,* A. J. Hsueh,* H. Dai,* Adv. Mater., 2018, 30, 1705799 (Citation>40 times)

10. A bright organic NIR-II nanofluorophore for three-dimensional imaging into biological tissues
H. Wan⁺, J. Yue⁺, S. Zhu⁺, T. Uno⁺, X. Zhang⁺, Q. Yang⁺, (co-first author), K. Yu, G. Hong, J. Wang, L. Li, Z. Ma, H. Gao, Y. Zhong, J. Su, A. Antaris, Y. Xia, J. Luo, Y. Liang,* H. Dai,* Nature Commun., 2018, 9, 1171 (Citation>90 times)

11. Molecular imaging of biological systems with a clickable dye in the broad 800- to 1700-nm near-infrared window
S. Zhu⁺, Q. Yang⁺, A. Antaris⁺, J. Yue⁺, Z. Ma⁺ (co-first author), H. Wang, W. Huang, H. Wan, J. Wang, S. Diao, B. Zhang, X. Li, Y. Zhong, K. Yu, G. Hong, J. Luo, Y. Liang,* H. Dai,* PNAS, 2017, 114, 962-967 (Citation>100 times)

12.  Beyond bottom-up carbon nanodots: citric-acid derived organic molecules
S. Zhu, X. Zhao, Y. Song, S. Lu, B. Yang,* Nano Today, 2016, 11, 128-132 (Citation>110 times)

13.  The photoluminescence mechanism in carbon dots (graphene quantum dots, carbon nanodots and polymer dots): current state and future perspective
S. Zhu, Y. Song, X. Zhao, J. Shao, J. Zhang, B. Yang,* Nano Res., 2015, 8, 355-381 (ESI hot paper, Citation>1000 times)

14.  Highly photoluminescent carbon dots for multicolor patterning, sensor and bioimaging
S. Zhu, Q. Meng, L. Wang, J. Zhang, Y. Song, H. Jin, K. Zhang, H. Sun, H. Wang, B. Yang,* Angew. Chem. Int. Ed., 2013, 52, 3953-3957 (Citation>2200 times, Top ten most accessed paper in March 2013 in Angew. Chem. Int. Ed., Chinese 100 most influential international academic papers in 2013)

15.  Strongly green-photoluminescent graphene quantum dots for bioimaging applications
S. Zhu, J. Zhang, C. Qiao, S. Tang, Y. Li, W. Yuan, B. Li, L. Tian, F. Liu, R. Hu, H. Gao, H. Wei, H. Zhang, H. Sun, B. Yang,* Chem. Commun., 2011, 47, 6858-6860 (Citation>1100 times, Top 10 downloaded Communications in 2011 in Chem. Commun.)