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成果及论文

    学术论文


    34.    Jiadong Tang+ , Yibo Cheng+ , Muhua Ding+ ,   Chen Wang*.Bio-Inspired Far-From-Equilibrium Hydrogels: Design Principles and Applications. ChemPlusChem. 2023,10.1002/cplu.202300449 . (IF = 3.4)

    33.     Guokang He, Ce Han, Peng Wang, Ning Gao, Fuwei Sun, Wenyun Li, Weigang Liu, Xinping Qiu, Chen Wang*, and Guangtao          

     Li*. Rational Fabrication of Well-Defined Mesoporous Carbon-Supported TiO2 Nanostructures for Anode Material of Lithium-Ion

     Batteries. ACS Applied Nano Materials. 2023, 10.1021/acsanm.3c00692. (IF = 6.14)



32.    Chengcheng Liu, Wenyun Li, Wanlin Zhang, Hongwei Zhao, Guokang He, Chi Li, Chen Wang*, Guangtao Li*. AIE-doped Poly(Ionic Liquid) Photonic Spheres for the Discrimination of Psychoactive Substances. Chemistry-A European Journal. 2022, 10.1002/chem.202203616. (IF = 5.02)

31.   Fuwei Sun, Li Tian, Guokang He, Ning Gao, Hongwei Zhao, Weigang Liu, Chao Liu, Qi An, Chen Wang*, Guangtao Li*. Creation of Assembled Plasmonic Network Architectures with Selective Capture of Guest Molecules in Hotspots Region. Advanced Optical Materials. 2022, 10.1002/adom.202201911. (IF = 10.05)


30.   Chen Wang*, Fuwei Sun, Guokang He, Hongwei Zhao, Li Tian, Yibo Cheng, Guangtao Li*. Noble Metal Nanoparticles Meet Molecular Cages: A tale of Integration and Synergy. Current Opinion in Colloid & Interface Science. 2022, 10.1016/j.cocis.2022.101660.(IF = 8.209)

29.  G. He, P. Wang, N. Gao, X. Yin, F. Sun, W. Li, H. Zhao, C. Wang*, and G. Li*. Pyrrole-Containing ABA Triblock Brush Polymers as Dual Functional Molecules to Facilely Access Diverse Mesostructured Materials. Macromolecules. 2022, 10.1021/acs.macromol.2c01752. (IF = 6.057)

28.  C. Wang*, J. Zhang. Recent Advances in Stimuli-Responsive DNA-Based Hydrogels. ACS Appl. Bio Mater. 2022, 5, 1934-1953.

 

27.  C. Wang, M. O’Hagan, Z. Li, J. Zhang, M. Xiang, H. Tian and I. Willner*. Photoresponsive DNA Materials and their Applications. Chem. Soc. Rev. 2022, 10.1039/d1cs00688f. (IF = 54.564)

26.  C. Wang, M. O'Hagan, B. Willner, and Itamar Willner*. Bioinspired Artificial Photosynthetic Systems. Chem-A Eur. J. 2022, 10.1002/chem.202103595. (IF = 5.236)


25.  C. Wang, M. P. O’Hagan, E. Neumann, R. Nechushtai, I. Willner*. Integration of photocatalytic and dark-operating catalytic biomimetic transformations through DNA-based constitutional dynamic networks. Nat. Commun. 2021, 12, 4224. (IF = 14.919)

24.  C. Wang, Z. Zhou, Y. Ouyang, J. Wang, E. Neumann, R. Nechushtai, I. Willner*. Gated Dissipative Dynamic Artificial Photosynthetic Model Systems. J. Am. Chem. Soc. 2021, 143, 12120-12128. (IF = 15.419)

23.  L. Tian, C. Wang, H. Zhao, F. Sun, H. Dong, K. Feng, P. Wang, G. He, G. Li*. Rational Approach to Plasmonic Dimers with Controlled Gap Distance, Symmetry, and Capability of Precisely Hosting Guest Molecules in Hotspot Regions. J. Am. Chem. Soc. 2021, 143, 8631-8638. (co-first author) (IF = 15.419)

22.  C. Wang*,, J.Shang, L. Tian, H. Zhao, P. Wang, K. Feng, G. He, J. Liu, W. Zhu, G. Li*. Direct identification of HMX via guest-induced fluorescence turn-on of molecular cage. Chin. Chem. Lett. 2021, 10.1016/j.cclet.2021.05.051(co-first author) (IF = 8.455)


21 C. Wang, B. Willner, I. Willner*. Redox-responsive and light-responsive DNA-based hydrogels and their applications. React. Funct.  Polym. 2021, 166, 104983. (IF = 4.966)


20.  C. Wang, L. Yue, I. Willner*. Controlling Biocatalytic Cascades with Enzyme-DNA Dynamic Networks. Nat. Catal. 2020, 3, 941-950. (IF = 30.471)

19.  M. Vázquez-González, C. Wang, I. Willner*. Biocatalytic cascades operating on macromolecular scaffolds and in confined environments. Nat. Catal. 2020, 3, 256-273. (co-first author) (IF = 30.471)

18.  C. Wang, A. Fischer, I. Willner*. Biocatalytic Reversible Control of the Stiffness of DNA-Modified Responsive Hydrogels: Applications as Shape-Memory, Self-Healing and Autonomous Controlled Release of Insulin. Chem. Sci. 2020, 11, 4516-4524. (IF= 9.556)

17.  C. Wang, M. Vázquez-González, M. Fadeev, I. Willner*. Thermoplasmonic-Triggered Release of Loads from DNA-Modified Hydrogel Microcapsules Functionalized with Au Nanoparticles or Au Nanorods. Small 2020, 16, 2000880. (IF = 10.856)

16.  Z. LiC. Wang, J. Li, J. Zhang, C. Fan, I. Willner, H. Tian. Functional DNA Structures and Their Biomedical Applications. CCS Chem. 2020, 2, 707-728. (co-first author) 

15.  K. Zhou, T. Tian, C. Wang, H. Zhao, N. Gao, H. Yin, P. Wang, B. Ravoo, G. Li*. Multifunctional Integrated Compartment Systems for Incompatible Cascade Reactions Based on Onino-like Photonic Spheres. J. Am. Chem. Soc. 2020, 142, 20605-20615. (IF = 14.612)


14.  C. Wang, L. Xia, V. Wulf, M. Fadeev, I. Willner*. DNA-Based Hydrogels Loaded with Au Nanoparticles or Au Nanorods: Thermoresponsive Plasmonic Matrices for Shape-Memory, Self-Healing, Controlled Release, and Mechanical Applications. ACS Nano 2019, 13, 3424-3433. (IF = 13.903)

13.  Z. Li, V. Wulf, C. Wang, M. Vázquez-González, M. Fadeev, J. Zhang, H. Tian, I. Willner*. Molecularly Imprinted Sites Translate into Macroscopic Shape-Memory Properties of Hydrogels. ACS Appl. Mater. Interfaces 2019, 11, 34282-34291. (IF = 8.456)


12.  C. Wang, M. Fadeev, M. Vázquez-González, I. Willner*. Stimuli-Responsive Donor-Acceptor and DNA-Crosslinked Hydrogels: Application as Shape-Memory and Self-Healing Materials. Adv. Funct. Mater. 2018, 28, 1803111. (IF = 15.621)

11.  C. WangL. Tian, W. Zhu, S. Wang, N. Gao, K. Zhou, X. Yin, W. Zhang, L. Zhao, W. Zhu, G. Li*. Molecular Cage-Bridged Plasmonic Structures with Well-Defined Nanogaps as well as the Capability of Reversible and Selective Guest Trapping. Chem. Sci2018, 9, 889-895. (IF = 9.556)

10.  C. Wang, M. Fadeev, J. Zhang, M. Vázquez-González, G. Davidson-Rozenfeld, H. Tian, I. Willner*. Shape-Memory and Self-Healing Functions of DNA-Based Carboxymethyl Cellulose Hydrogels Driven by Chemical or Light Triggers. Chem. Sci. 2018, 9, 7145-7152. (IF = 9.556)

2017年及之前

9.  C. Wang, L. Tian, W. Zhu, S. Wang, P. Wang, Y. Liang, W. Zhang, H. Zhao, G. Li*. Dye@bio-MOF-1 Composite as a Dual-Emitting Platform for Enhanced Detection of a Wide Range of Explosive Molecules. ACS Appl. Mater. Interfaces 2017, 9, 20076-20085. (IF =8.456)

8.  C. Wang, H. Yang, L. Tian, S. Wang, N. Gao, W. Zhang, P. Wang, X. Yin, G. Li*. Facile Fabrication of Highly Controllable Gating Systems Based on the Combination of Inverse Opal Structure and Dynamic Covalent Chemistry. Nanoscale 2017, 9, 7268-7275. (IF = 6.970)

7.  C. Wang, H. Zhang, L. Tian, W. Zhu, Y. Lan, J. Li, H. Wang, G. Zhang, D. Zhang*, S. Yuan, G. Li*.  Ultrasensitive Detection of Aliphatic Nitro-Organics Based on “Turn-On” Fluorescent Sensor Array. Sci China Chem. 2016, 59, 89-94. (IF = 6.085)

6.  W. ZhuC. Wang, Y. Lan, J. Li, H. Wang, N. Gao, J. Ji, G. Li*. Chaperone-Assisted Formation of Cucurbit[8]uril-Based Molecular Porous Materials with One-Dimensional Channel Structure. Langmuir 2016, 32, 9045-9052. (co-first author) (IF = 3.789)

5.  C. Wang, J. Shang, Y. Lan, T. Tian, H. Wang, X. Chen, J. Gu, J. Z. Liu, L. Wan, W. Zhu*, G. Li*. Metal-Organic Polyhedra Cages Immobilized on a Plasmonic Substrate for Sensitive Detection of Trace Explosives. Adv. Funct. Mater. 2015, 25, 6009-6017. (IF = 15.621)

4.  C. Wang, W. Zhu, G. Li*. Facile Fabrication of Reactive Plasmonic Substrates for Fluorescence Enhancement via Mussel-Inspired Chemistry. J. Phys. Chem. C 2014, 118, 10754-10763. (IF = 4.309)

3.  W Zhu, C Wang, H Wang, G Li*. Theory and simulation of diffusion–adsorption into a molecularly imprinted mesoporous film and its nanostructured counterparts. Experimental application for trace explosive detection. RSC Adv. 2014, 4, 40676-40685. (IF = 3.049)

2.  W. Zhu, C. Wang, W. Li, C. Tao, J. Cui, H. Yang, Y. Jiang and G. Li*. A new strategy for selective detection of nitrated explosives based on a confinement effect of nanocavity. J. Mater. Chem. A 2013, 1, 11741-11747. (IF = 10.733)

1.  W. Zhu, W. Li, C. Wang, J. Cui, H. Yang, Y. Jiang, and G. Li*. CB[8]-Based Rotaxane as a Useful Platform for Sensitive Detection and Discrimination of Explosives. Chem. Sci. 2013, 4, 3583-3590. (IF = 9.556)