彭琛博士,副研究员,硕士生导师。2013年9月从东华大学材料学专业博士毕业。同年10月进入美高梅附属第十人民医院工作。致力于开展材料学、生物学和医学交叉领域研究。目前主持在研国家自然科学基金青年项目和上海市自然科学基金各一项。共发表学术论文40余篇,其中SCI论文39篇(第一作者/通讯作者25篇,在生物材料领域顶级杂志Biomaterials(影响因子8.387)发表7篇SCI论文(其中4篇为第一作者/通讯作者)),有2篇第一作者发表在Biomaterials上的论文被选为ESI高被引论论文,影响因子超过3.0以上的文章有34篇,影响因子超过5.0以上的文章有19篇,单篇最高他引94次(Biomaterials, 2012, 33,
1107-1119),申请专利九项,其中六项已授权。H-index为18,担任ACS nano、Biomaterials、Nanoscale等期刊的审稿人,多篇研究成果发表于Biomaterials、Nanoscale、ACS Appl. Mater. Inter.等期刊,与上海交通大学、复旦大学、东华大学、香港科技大学、德国亚琛工业大学、法国法国国家科学研究中心等国内外著名高校和科研院所开展了多方面的科研合作。
近年主持的省部级以上科研项目:
1. 国家自然科学基金青年项目,81401458,透明质酸靶向的多功能聚乙烯亚胺/金复合纳米平台的构建及其肿瘤CT诊断,2015/01-2017/12,23万元,在研,主持。
2. 上海市自然科学基金,14ZR1432400,DTA修饰的多功能PEI/金纳米平台的构建及其肿瘤CT诊断研究,2014/07-2017/06,10万元,已结题,主持。
3、美高梅交叉学科建设经费,2017/11-2019/10,20万元,在研,主持
Dr. Peng Chen is an Associate
Professor in the Department of Radiology, Tenth People’s Hospital of Tongji
University, Shanghai, China. She received her PhD in Materials Science, and
M.Sc in Organic Chemistry from Donghua University, and her B.Sc. in Chemistry
from Henan University. Her research interest focuses on the development of
nanomedicine for diagnosis and theranostic applications. Prof. Peng has a broad
background in interdisciplinary research, with specific interests in novel
nanocomposites, molecular imaging of disease diagnosis for different kind of
animal models of disease (Mainly focused on CT, MR, PET/CT, and Optical
Imaging). Prof. Peng has hosted both National Natural Science Foundation
of China (NSFC) and The Fund of the Science and Technology Commission of Shanghai
Municipality, and published more than 40 scientific papers in high-impact
journals. Her H-index is about 18. She is a co-inventor of six patents, and the
current application is logically based on her prior work.
Hosted
Projects:
1. National Natural Science Foundation of China
(01/01/2015-12/31/2017, 81401458, ¥230,000)
2. The Fund of the Science and Technology Commission of
Shanghai Municipality (09/01/2014-08/31/2017, 14ZR1432400, ¥100,000)
近年发表的代表性学术论文/Publication(*为通讯作者):
[1]
Hou W., Xia F., Zhi X., Alfranca G., Liu Y., Peng
C.*, Zhang C., Fuente J., Cui D., Nanoparticles for multi-modality cancer
diagnosis: Simple protocol for self-assembly of gold nanoclusters mediated by
gadolinium ions. Biomaterials, 120; 103-114, 2017. (Corresponding author)
[2]
Sun W., Thies, S., Zhang J., Peng C.*,
Tang G., Shen M., Pich A., Shi X., Gadolinium-loadedPoly(N-vinylcaprolactam)
nanogels: Synthesis, characterization, and application for enhanced tumor MR
imaging. ACS Appl. Mater. Inter., 9(4): 3411-3418, 2017. (Corresponding
author)
[3]
Li X., Xiong Z., Xu X., Luo Y., Peng C.*,
Shen M., Shi X., 99mTc-Labeled Multifunctional Low Generation
Dendrimer-Entrapped Gold Nanoparticles for Targeted SPECT/CT Dual-Mode Imaging
of Tumors. ACS Appl. Mater. Inter., 8(31), 19883-19891, 2016. (Corresponding
author)
[4]
Zhou B., Xiong Z., Zhu J., Shen M., Tang G., Peng
C.*, Shi X., PEGylated polyethylenimine-entrapped gold nanoparticles loaded
with gadolinium for dual-mode CT/MR imaging applications. Nanomedicine,
11(13), 1639-1652, 2016. (Corresponding author)
[5]
Wang L., Yan Y., Wang M., Yang H., Zhou Z., Peng
C.*, and Yang S., An integrated nanoplatform for theranostics via
multifunctional core–shell ferrite nanocubes. J. Mater. Chem. B, 4,
1908-1914, 2016. (Corresponding author)
[6]
Ding L., Hu Y., Luo Y., Zhu J., Wu Y., Yu Z.,
Cao X., Peng C.*, Shi X., and Guo R,. LAPONITE®-stabilized iron oxide nanoparticles for in vivo
MR imaging of tumors. Biomater. Sci., 4, 474-482, 2016, (Corresponding
author)
[7]
Ye K., Qin J., Peng Z., Yang X., Huang L., Yuan
F., Peng C.*, Jiang M., and Lu X.. Polyethylene
glycol-modified dendrimer-entrapped gold nanoparticles enhance CT imaging of
blood pool in atherosclerotic mice. Nanoscale Res. Lett. 9, 2014. (Corresponding
author)
[8]
Peng C., Zhang,
J., Xiong Z., Zhao B., and Liu P., Fabrication of porous hollow γ-Al2O3
nanofibers by facile electrospinning and its application for water remediation.
Micropor. Mesopor. Mat. 215, 133-142, 2015.
[9]
Peng C., Liu P.,
Hu J., Hua T., Shen Y., Zhao B., and Tang G.. Preparation of uniaxially aligned
mullite ceramic fibers by electrospinning. Colloid. Surface. A 457, 1-7,
2014.
[10]
Peng C., Qin J.,
Zhou B.,Chen Q., Shen M., Zhu M., Lu X., Shi X.. Targeted tumor CT imaging
using folic acid-modified PEGylated dendrimer-entrapped gold nanoparticles. Polym.
Chem. 4, 4412-4424, 2013.
[11]
Peng C., Zheng
L., Chen Q., Shen M., Guo R., Wang H., Cao X., Zhang G., Shi X.. PEGylated
dendrimer-entrapped gold nanoparticles for in vivo blood pool and tumor imaging
by computed tomography. Biomaterials 33(4), 1107-1119, 2012. (Included by ESI).
[12]
Peng C., Li K.,
Cao X,. Xiao T., Hou W., Zheng L., Guo R., Shen M., Zhang G., Shi X.. Facile
formation of dendrimer-stabilized gold nanoparticles modified with diatrizoic
acid for enhanced computed tomography imaging applications. Nanoscale 4,
6768-6778, 2012.
[13]
Peng C., Cao X.,
Guo R., Xiao T., Shen M., Shi X.. Spontaneous Formation of Datrizoic
acid-containing dendrimer-stabilized gold nanoparticles for enhanced computed
tomography imaging applications. Nano-Micro Lett. 204-208, 2011.
[14]
Peng C., Wang H.,
Guo R., Shen M., Cao X., Zhu M., Zhang G., Shi X.. Acetylation of
dendrimer-entrapped gold nanoparticles: synthesis, stability, and X-ray
attenuation properties. J. Appl. Polym. Sci. 119(3), 1673-1682, 2011.