教授/博导
办公电话:
E-mail: wangzg@mail.buct.edu.cn
https://www.x-mol.com/groups/wangzg
研究领域:
1.生物大分子自组装
2.仿生催化
3.高分子降解
2003年9月-2008年9月,浙江大学高分子科学与工程系,博士
1999年9月-2003年7月,大连理工大学化工学院,学士
2018年12月至今,bwin必赢中国官网,教授;博士生导师
2011年5月-2018年12月,国家纳米科学中心, 副研究员、研究员
2008年12月-2011年5月,以色列希伯来大学,博士后
在Nature Mater., Nature Commun.、ACS Nano、ACS Catal.、Chem.Mater. 等有影响力的国际学术期刊上共发表论文80余篇,其中第一或通讯作者论文50余篇,SCI引用>5000次,参与编辑英文专著5章,授权中国发明专利8项。
1. Zhen-Gang Wang, Baoquan Ding, Chapter 8 “Mechanical DNA devices” in “Nucleic Acids Nanotechnology”, edited by JORGEN KJEMS, Elena Ferapontova, Kurt V. Gothelf, Springer Press 2013
2. Zhen-Gang Wang, Baoquan Ding, Section VI “DNA Nanotechnology as Reference for RNA nanotechnology”, in “RNA Nanotechnology and Therapeutics”, edited by Peixuan Guo and Farzin Haque, CRC Press 2013.
3. Chen Song, Zhen-Gang Wang, Baoquan Ding, Chapter 11 “Design, Fabrication, and Applications of DNA Nanomachines” in “DNA nanotechnology”, Springer Press 2013
4 Zhen-Gang Wang, Chapter 9 “Membrane with Biocatalytic Surface” in Book “Surface Engineering of Polymer Membranes”, Zhejiang University Press&Springer,2009.
5. Zhen-Gang Wang, Chapter 10 “Nanofibrous Membrane with Functionalized Surface” in Book “Surface Engineering of Polymer Membranes”, Zhejiang University Press &Springer,2009.
1. 北京市自然科学基金,面上项目,2232017,超分子仿氧化酶催化剂在离子液体环境中的构筑及其应用于木质素解聚的探索,2023/01-2025/12,20万,主持
2. 国家自然科学基金,面上项目,52173194,生物自组装法构筑类酶多铜团簇活性中心以及木质素降解研究,2022/01-2025/12,58万元,主持
3. 北京化工大学人才引进项目,主持。
4. 国家自然科学基金,面上项目,21872044,DNA与多肽共组装过氧化物模拟酶的协同催化行为调控及在生物传感中的应用,2019/01-2022/12,79万,已结题,主持。
5. 国家自然科学基金,面上项目,21273052, DNA“索烃”介导的贵金属纳米粒子自组装体结构手性可控转换研究,2013/01-2016/12, 80万元,已结题,主持。
6. 国家自然科学基金,青年基金,51203031,DNA超分子结构定位引导的聚苯胺纳米结构图案合成研究及其在对映选择催化和场效应晶体管传感器中的应用,2013/01-2015/12, 25万元,已结题,主持。
7. 中科院青年创新促进会人才项目,2015-2018年,60万,主持。
(1) Liu, Q.; Wan, K. W.; Shang, Y.; Wang, Z. G.*; Zhang, Y. Y.; Dai, L. R.; Wang, C.; Wang, H.*; Shi, X. H.; Ding, B.* Cofactor-free Oxidase-Mimetic Nanomaterials from Self-assembled Histidine-rich Peptides. Nature Materials 2021, 20, 395-402.
(2) Xu, S. C.; Wu, H. F.; Liu, S. Y.; Du, P. D.; Wang, H.*; Yang, H. J.; Xu, W. J.; Chen, S. M.; Song, L.; Li, J. K.; Shi, X. H.; Wang, Z. G.* A Supramolecular Metalloenzyme Possessing Robust Oxidase-Mimetic Catalytic Function. Nature Communications 2023, 14, 4040.
(3) Liu, Y. X.; Li, Y.; Wu, H. F.; Xu, S. C.; Zhang, B. L.; Li, S.; Du, R. K.; Zhang, B. L.; Chen, Z. M.; Lv, Y. Q.*; Wang, Z. G.* Robust Oxidase-Mimetic Supramolecular Nanocatalyst for Lignin Biodegradation. Nano Letters 2024, 10.1021/acs.nanolett.3c04505.
(4) Li, S.; Wu, H. F.; Liu, Y. X.; Zhang, B. L.; Xu, S. C.; Wang, Z. G.* An Oxidase-mimetic Nanocatalyst based on Geometry-dependent Biomolecular Self-assembly. Chemistry of Materials 2023, 35, 10515–10523
(5) Du, P. D.; Xu, S. C.; Wu, H. F.; Liu, Y. X.; Wang, Z. G.* Histidine-Based Supramolecular Nanoassembly Exhibiting Dual Enzyme-Mimetic Functions: Alter Tautomeric Preference of Histidine to Tailor the Oxidative/Hydrolytic Catalysis. Nano Letters 2023, 23, 11461–11468.
(6) Du, R. K.; Teng, Q.; Xu, S. C.; Jiang, M. Q.; Irmisch, P.*; Wang, Z. G.* Self-Assembly of Designed Peptides with DNA to Accelerate the DNA Strand Displacement Process for Dynamic Regulation of DNAzymes. ACS Nano 2023, 17, 24753–24762.
(7) Liu, J. H.; Wu, H. F; Liu, Y. X.; Wang, Z. G.* A Colorimetric Sensor based on Oxidase-Mimic Supramolecular Catalyst for Selective and Sensitive Biomolecular Detection. ACS Applied Materials & Interfaces 2023, 15, 48945–48951.
(8) Zhang, B.; Wu, H.; Li, S.; Liu, Y. X.; Du, P. D.; Wang, Z. G.* Enzyme-mimetic Photodecarboxylation based on the Geometry-dependent Supramolecular Association. ACS Catalysis 2023, 13, 6763-6772.
(9) Liu, Y. X.; Wang, Z.G.* Heme-Dependent Supramolecular Nanocatalysts: A Review. ACS Nano 2023, 17, 13000–13016
(10) Du, P.; Shen, Y.; Yu, B.*; Wang, Z.G.*; Xu, F. J.* A H2O2-Supplied Supramolecular Material for Post-irradiated Infected Wound Treatment. Advanced Science 2023, 10, 2206851.
(11) Lou, Y.*; Zhang, B.; Ye, X. Y.; Wang, Z. G.* Self-assembly of the De novo Designed Peptides to Produce Supramolecular Catalysts with Built-in Enzyme-like Active Sites: A Review of Structure-Activity Relationship. Materials Today Nano 2023, 21, 100302.
(12) Teng, Q.; Wu, H. F.; Sun, H.; Liu, Y. Q.; Wang, H.; Wang, Z. G.* Switchable Enzyme-mimicking Catalysts Self-Assembled from De novo Designed Peptides and DNA G-quadruplex/Hemin Complex. Journal of Colloid and Interface Science 2022, 628, 1004-1011
(13) Du, P. D.; Xu, S. C.; Xu, Z. K.*; Wang, Z. G.* Bioinspired Self‐Assembling Materials for Modulating Enzyme Functions. Advanced Functional Materials 2021, 13, 2104819.
(14) Liu, S. Y.; Du, P. D.; Sun, H.; Yu, H. Y.*; Wang, Z. G.* Bioinspired Supramolecular Catalysts from Designed Self-Assembly of DNA or Peptides. ACS Catalysis 2020, 10, 14937–14958.
(15) Yu, D.; Zhang, N. N.; Liu, S. Y.; Hu, W. T.; Nie, J. J.; Zhang, K.; Yu, B.*; Wang, Z. G.*; Xu, F. J. * Self-Assembled Nucleotide/Saccharide-Tethering Polycation-Based Nanoparticle for Targeted Tumor Therapy. ACS Materials Letters 2020, 2, 550-556.
(16) Li, N.; Shang, Y. X.; Han, Z. H.; Wang, T.; Wang, Z. G.*; Ding, B. Q.* Fabrication of Metal Nanostructures on DNA Templates. ACS Applied Materials & Interfaces 2019, 11, 13835-13852
(17) Wang, Z. G.*; Wang, H.; Liu, Q.; Duan, F. Y.; Shi, X. H.*; Ding, B. Q.* Designed Self-Assembly of Peptides with G-Quadruplex/Hemin DNAzyme into Nanofibrils Possessing Enzyme-Mimicking Active Sites and Catalytic Functions. ACS Catalysis 2018, 8, 7016–7024.
(18) Liu, Q.; Wang, H.; Shi, X. H.*; Wang, Z. G.*; Ding, B.* Self-Assembled DNA/Peptide-Based Nanoparticle Exhibiting Synergistic Enzymatic Activity. ACS Nano 2017, 11, 7251-7258.