个人简介:
邓正,中山大学学士、浙江大学博士(导师:王立教授),先后在深圳大学(导师:曾昱嘉教授、彭新生教授)和苏州大学做博士后(导师:刘庄教授)。2023年11月加入上海交通大学医学院附属瑞金医院医学芯片研究所,任助理研究员。迄今,在SCI收录期刊上发表论文53篇,文章他引1450余次,H指数为21。以一作(含共一)或通讯作者在ACS Nano、Adv. Funct. Mater.(2篇)、Energy Storage Mater.、Nano Today(2篇)、J. Mater. Chem. A(2篇)、Small(2篇)、Chem. Eng. J.和Acc. Mater. Res.等期刊上发表论文24篇,其中影响因子大于10的12篇,高被引用论文2篇。申请发明专利3项,主持中国博士后科学基金面上项目2项,参与国家自然科学基金面上项目3项、国际(地区)合作与交流项目2项。联系方式:zhengdeng@shsmu.edu.cn https://orcid.org/0000-0003-0138-378X
研究方向:
1、生物医用材料增效肿瘤治疗
2、二茂铁基MOF材料的设计合成及其应用研究
3、二茂铁基聚合物、超支化聚合物的设计合成及其应用研究
代表性论文列表:
加入医学芯片研究所之后:(# Equal contribution, * Corresponding author)
(4) Zhang, C.#; Deng, Z.#; Sun X.; Yuan, K.; Wang, J.; Wu, X.; Zhang, Y.; Yang, K.; Zhang, J.*; Yang, G.*; Petaloid metal-organic frameworks for resiquimod delivery to potentiate anti-tumor immunity. ACS Appl. Mater. & Interfaces 2024, 16, 33093. (IF=8.3)
(3) Deng, Z.; Chen, C.*; Peng, X.*; Fabrication of metal-organic framework membranes using solid metal precursors for separation application. Sep. Purif. Technol. 2025, 352, 128254. (IF=8.1)
(2) Deng, Z.; Chen, C.*; Peng, X.*; Metal-organic framework membranes: self-confined conversion from metal hydroxide nanostrands. Acc. Mater. Res. 2024, 5, 206-219. (IF=14.0)
(1) Xi, M.#; Deng, Z.#; Zhang, C.; Wu, X.; Zhang, L.; Zhang, Y.; Sun, X.; Zhou, J.*; Yang, G.*; FeS-based cascade bioreactors driven by Shewanella oneidensis MR-1 for efficient chemodynamic therapy with augmented antitumor immunity. Nano Today 2024, 55, 102165. (IF=13.2)
加入医学芯片研究所之前:(# Equal contribution, * Corresponding author)
(20) Deng, Z.; Xi, M.; Zhang C.; Wu X.; Li Q.; Wang, C.; Fang, H.; Sun, G.; Zhang, Y.; Yang G.*; Liu, Z.*; Biomineralized MnO2 nanoplatforms mediated delivery of immune checkpoint inhibitors with STING pathway activation to potentiate cancer radio-immunotherapy. ACS Nano 2023, 17, 4495. (IF=15.8)
(19) Deng, Z.#; Liu, J.#; Xi, M.; Wang, C.; Fang, H.; Wu, X.; Zhang, C., Sun, G.; Zhang, Y.; Shen, L.; Chen, M.; Ji, J.*; Liu, Z.*; Yang, G.*; Biogenic platinum nanoparticles on bacterial fragments for enhanced radiotherapy to boost antitumor immunity. Nano Today 2022, 47, 101656. (IF=13.2)
(18) Wang, Y. #; Deng, Z.#; Luo B.; Duan G.; Zheng S.; Sun L.; Ye Z. *; Lv, J.; Huang, J.*; Lu Y.*; Highly reversible Zn metal anodes realized by synergistically enhancing ion migration kinetics and regulating surface energy. Adv. Funct. Mater. 2022, 2209028. (IF=18.5)
(17) Wang, Y.#; Deng, Z.#; Huang J.*; Li, H.; Li, Z.; Peng, X.*; Tian, Y.; Lv, J.*; Tang, H.; Chen, L.; Ye, Z.*; 2D Zr-Fc metal-organic frameworks with highly efficient anchoring and catalytic conversion ability towards polysulfides for advanced Li-S battery. Energy Storage Mater. 2021, 36, 466-477. (IF=18.9)
(16) Liu, J.#; Deng, Z.#; Yu, H.*; Wang, L.; Ferrocene-based metal-organic framework for highly efficient recovery of gold from WEEE. Chem. Eng. J. 2021, 410, 128360. (IF=13.3)
(15) Fang, C.#; Deng, Z.#; Cao, G.; Chu, Q.; Wu, Y.; Li, X.*; Peng, X.*; Han, G.* Co-ferrocene MOF/glucose oxidase as cascade nanozyme for effective tumor therapy. Adv. Funct. Mater. 2020, 1910085. (IF=18.5)
(14) Ma, X.; Deng, Z.*; Li, Z.; Chen, D.; Wan, X.; Wang, X.; Peng, X.* Photothermal and Fenton active MOF-based membrane for high-efficient solar water evaporation and clean water production. J. Mater. Chem. A 2020, 8, 22728. (IF=10.7)
(13) Deng, Z.#; Wan, T.#; Chen, D.#; Zeng, Y.-J.*; Yan, Y.*; Peng, X.* Photothermal-responsive microporous nanosheets confined ionic liquid for efficient CO2 separation. Small 2020, 2002699. (IF=13.0)
(12) Deng, Z.#; Ying, W.#; Gong, K.#; Zeng, Y.-J.*; Yan, Y.*; Peng, X.* Facilitate gas transport through metal-organic polyhedra constructed porous liquid membrane. Small 2020, e1907016. (IF=13.0)
(11) Deng, Z.#; Fang, C.#; Ma, X.; Li, X.*; Zeng, Y.-J.*; Peng, X.* One Stone Two Birds: Zr-Fc metal-organic framework nanosheet for synergistic photothermal and chemodynamic cancer therapy. ACS Appl. Mater. Interfaces 2020, 12, 20321.(IF=8.3)
(10) Deng, Z.; Yu, H.*; Wang, L.*; Liu, J.; Shea, K. J. Ferrocene-based metal-organic framework nanosheets loaded with palladium as a super-high active hydrogenation catalyst. J. Mater. Chem. A 2019, 7, 15975. (IF=10.7)
(9) Deng, Z.; Guo, Y.; Li, Z.; Wang, X.; Peng, X.*; Zeng, Y.-J.* Ferrocenyl metal-organic framework hollow microspheres for in situ loading palladium nanoparticles as a heterogeneous catalyst. Dalton Trans. 2019, 48, 8995. (IF=3.5)
(8) Deng, Z.; Peng, X.*; Zeng, Y.-J.* Ferrocenecarboxylic acid: A functional modulator for UiO-66 synthesis and incorporation of Pd nanoparticles. CrystEngComm 2019, 21, 1772. (IF=2.6)
(7) Deng, Z.; Wang, L.*; Yu, H.* Fabrication of honeycomb-patterned film using hyperbranched polyethylene-based copolymer. Eur. Polym. J. 2017, 93, 428. (IF=5.8)
(6) Deng, Z.; Wang, L.*; Yu, H.*; Zhai, X.; Chen, Y. Non-covalent dispersion of multi-walled carbon nanotubes in aqueous solution with hyperbranched polyethylene-g-poly(methacrylic acid). RSC Adv. 2016, 6, 27682. (IF=3.9)
(5) Deng, Z.; Wang, L.*; Yu, H.*; Zhai, X.; Chen, Y.; Zain ul, A.; Abbasi, N. M. Synthesis of ferrocenyl hyper-branched polyethylene for non-covalent dispersion of multi-walled carbon nanotubes and fabrication of flexible carbon nanotubes-based conductive films. RSC Adv. 2016, 6, 29663. (IF=3.9)
(4) Deng, Z.; Wang, L.*; Yu, H.*; Zhai, X.; Chen, Y. Noncovalent dispersion of multi-walled carbon nanotubes with poly(tert-butyl methacrylate) modified hyperbranched polyethylene for flexible conductive films. RSC Adv. 2016, 6, 74209. (IF=3.9)
(3) Deng, Z.; Yu, H.*; Wang, L.*; Zhai, X.; Chen, Y.; Vatsadze, S. Z. Construction of ferrocene-containing nanomaterials via self-assembly of ferrocenyl hyperbranched polyethylene. J. Organomet. Chem. 2016, 821, 48. (IF=2.1)
(2) Deng, Z.; Yu, H.*; Wang, L.*; Zhai, X.; Chen, Y.; Sun, R. Synthesis of ferrocenyl functionalized hyperbranched polyethylene and its application as low migration burning rate catalyst. J. Organomet. Chem. 2015, 799-800, 273. (IF=2.1)
(1) Deng, Z.; Yu, H.*; Wang, L.*; Zhai, X. A novel ferrocene-containing polymer based dispersant for noncovalent dispersion of multi-walled carbon nanotubes in chloroform. J. Organomet. Chem. 2015, 791, 274. (IF=2.1)
专利:
(3) 杨光保,邓正,刘宇骞,武西瑞;一种杂多酸/生物多胺自组装晶体及其制备方法与应用,202410540494.6。
(2) 俞豪杰,邓正,王立;二茂铁基超薄金属有机框架纳米片及其制备方法,ZL201810708988.5。
(1) 俞豪杰,邓正,王立;负载有钯的二茂铁基超薄金属有机框架纳米片及其制备方法,ZL201810708961.6。
MOF材料小组日志:
2024年10月28日:吴建博博士(复旦大学华山医院住院医师)加入小组
2024年10月11日:张昊硕士(上海大学,一年级)加入小组
2024年09月22日:王殿凯硕士(东华大学,一年级)加入小组
2024年09月05日:奚敏博士(复旦大学,一年级)加入小组
2024年07月09日:费世芳博士(浙江大学,二年级)加入小组
2024年05月31日:小组的综述论文“Fabrication of metal-organic framework membranes using solid metal precursors for separation application”被Separation and Purification Technology接收
2024年05月06日:段简硕士(上海大学,一年级)加入小组
2024年04月22日:黄倩楠硕士(上海大学,二年级)加入小组
2024年01月08日:小组的第一篇综述论文“Metal-organic framework membranes: Self-confined conversion from metal hydroxide nanostrands”被Account of Materials Research接收
2023年11月01日:邓正老师入职上海交通大学医学院附属瑞金医院医学芯片研究所,正式成立MOF材料小组