张川,上海交通大学研究员: 求是杰出青年学者奖获得者, 于清华大学取得学士和硕士学位, 后在普渡大学 chengde mao 实验室攻读博士学位, 毕业后于美国西北大学化学系chad mirkin 实验室从事博士后研究。目前为上海交通大学化学化工学院研究员、博士生导师。主要研究领域包括 dna纳米技术、生物大分子自组装、 核酸药物、新型生物医用材料制备及其在疾病检测诊断和治疗等方面的应用。研究成果大多发表在 nat. mater., nat. chem., pnas, jacs, angew. chem., adv. mater.等高水平杂志上。 1、基本信息
姓名:张川
职称:特别研究员
电话:15221691663
邮箱:chuanzhang@sjtu.edu.cn
主页:scce.sjtu.edu.cn
通讯地址:上海市东川路800号化学化工学院
2、教育经历
1999-2003:清华大学化学系,学士
2003-2006:清华大学化学系,硕士,导师:朱永法教授
2006-2011:美国普渡大学化学系,博士,导师:Professor Chengde Mao
3、工作经历
2011-2014:美国西北大学化学系,博士后,导师:Professor Chad A. Mirkin
2014-至今:上海交通大学化学化工学院特别研究员
4、研究方向
1) DNA纳米技术,生物大分子可编程自组装
2) 新型生物材料、超材料(metamaterials)设计组装
3) 药物输送及纳米生物医学 5、荣誉奖励
1) 入选中组部第5批青年##计划
2) 2014“求是青年学者”奖
3) M.G. Mellon Award (2010)
4) Bisland Fellowship (2009) 6、代表性论文
1) Zhang C., Li X., Tian C., Li. Y., Jiang W., Mao C.D.*,“DNA Nanocages Swallow Gold Nanoparticles (AuNPs) to Form AuNP@DNA Cage Core-ShellStructures”, ACS Nano.8, 1130-1135 (2014).
2) Zhang C., Macfarlane R. J., Young K. L., Choi C. H. J.,Hao L., Auyeung E., Liu G., Zhou X., Mirkin C. A.,* “A General Approach toDNA-Programmable Atom Equivalents”, Nat. Mater., 12, 741-746(2013).
Also see: Simon U. “Nanoparticle self-assembly: Bonding them all”. Nat. Mater.12, 694 (2013).Highlighted by C&EN, 21, 41 (2013).
3) Zhang C., Tian C., Li X., Qian H., Hao C., Wang G., JiangW., Mao C.D.*, “Reversibly Switching the Surface Porosity of a DNATetrahedron”, J. Am. Chem. Soc., 134, 11998-12001(2012).
4) Zhang C., Wu W.M., Li X., Tian C., Qian H., Wang G.,Jiang W., Mao C.D.*, “Controlling the Chirality of DNA Nanocages”, Angew.Chem. Int. Ed., 51, 7999-8002 (2012).
5) Zhang C., Tian C., Guo F., Liu Z., Jiang W., Mao C.D.*,“DNA-Directed Three Dimensional (3D) Protein Organization”, Angew.Chem. Int. Ed., 51, 3382-3385 (2012).
6) Zhang C., He Y., Leng Y. J., Ribbe A.E., Jiang W., MaoC.D.*, “Exterior modification of a DNA tetrahedron”, Chem Comm..46, 6792-6794 (2010).
7) Zhang C., Ko S. H., Su M., Leng Y. J., Ribbe A.E., JiangW., Mao C.D.*, “Symmetry Controls the Face Geometry of DNA Polyhedra”, J.Am. Chem. Soc., 131: 1413-1415 (2009).
8) Zhang C., He Y., Mao C.D.*, “A Brief Review: DNANanocages Self-assembled by Star-shaped DNA Motifs”, Faraday Discuss.,143, 221-233 (2009).
9) Zhang C., Mao C.D.*, “DNA Nanotechnology: Bacteria asfactories”, Nat. Nanotech., 3: 707-708 (2008).
10) Zhang C., Su M., He Y., Zhao X., Fang P.A., Ribbe A.E.,Jiang W., Mao C.D.*; “Conformational Flexibility Facilitates Self-Assembly ofComplex DNA Nanostructures”, Proc. Natl. Acad. Sci. USA,105: 10665-10669 (2008).
11) He Y., Ye T., Su M., Zhang C., Ribbe A.E., JiangW., Mao C.D.*, “Hierarchical Self-assembly of DNA into SymmetricSupramolecularPolyhedra”, Nature, 452: 198-201 (2008).
12) Zhang C., He Y., Chen Y., Ribbe A.E., Mao C.D.*;“Aligning One-dimensional DNA Duplexes into Two-dimensional Crystals” J.Am. Chem. Soc., 129: 14134-14135 (2007).
13) Zhang C., Zhu Y.F.*, “Synthesis of SquareBi2WO6Nanoplates as High Activity Visible-Light-Driven Photocatalysts”, Chem.Mater., 17: 3537-3545 (2005).
14) Zhang C., Wang L., Cui L.P., Zhu Y.F.*, “A Novel Methodfor The Synthesis of Nano-sized BaAl2O4 with Thermal Stability”, J.Cryst. Growth., 255: 317-323 (2003).
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