A synthetic DNA motor that transports nanoparticles along carbon nanotubes TG Cha, J Pan, H Chen, J Salgado, X Li, C Mao, JH Choi Nature nanotechnology 9 (1), 39-43, 2014 | 271 | 2014 |
Biofunctional titania nanotubes for visible-light-activated photoelectrochemical biosensing D Chen, H Zhang, X Li, J Li Analytical Chemistry 82 (6), 2253-2261, 2010 | 220 | 2010 |
Recent progress in surface coating of cathode materials for lithium ion secondary batteries D Zuo, G Tian, X Li, D Chen, K Shu Journal of Alloys and Compounds 706, 24-40, 2017 | 169 | 2017 |
Design principles of DNA enzyme-based walkers: translocation kinetics and photoregulation TG Cha, J Pan, H Chen, HN Robinson, X Li, C Mao, JH Choi Journal of the American Chemical Society 137 (29), 9429-9437, 2015 | 106 | 2015 |
DNA nanocages swallow gold nanoparticles (AuNPs) to form AuNP@ DNA cage core–shell structures C Zhang, X Li, C Tian, G Yu, Y Li, W Jiang, C Mao ACS nano 8 (2), 1130-1135, 2014 | 99 | 2014 |
Directed self‐assembly of DNA tiles into complex nanocages C Tian, X Li, Z Liu, W Jiang, G Wang, C Mao Angewandte Chemie International Edition 53 (31), 8041-8044, 2014 | 98 | 2014 |
Construction of RNA nanocages by re-engineering the packaging RNA of Phi29 bacteriophage C Hao, X Li, C Tian, W Jiang, G Wang, C Mao Nature communications 5 (1), 3890, 2014 | 85 | 2014 |
Post‐assembly stabilization of rationally designed DNA crystals J Zhao, AR Chandrasekaran, Q Li, X Li, R Sha, NC Seeman, C Mao Angewandte Chemie 127 (34), 10074-10077, 2015 | 61 | 2015 |
DNA polyhedra with T-linkage X Li, C Zhang, C Hao, C Tian, G Wang, C Mao ACS nano 6 (6), 5138-5142, 2012 | 46 | 2012 |
Reversibly switching the surface porosity of a DNA tetrahedron C Zhang, C Tian, X Li, H Qian, C Hao, W Jiang, C Mao Journal of the American Chemical Society 134 (29), 11998-12001, 2012 | 45 | 2012 |
Controlling the chirality of DNA nanocages C Zhang, W Wu, X Li, C Tian, H Qian, G Wang, W Jiang, C Mao Angewandte Chemie-International Edition 51 (32), 7999, 2012 | 42 | 2012 |
Approaching the limit: can one DNA strand assemble into defined nanostructures? C Tian, C Zhang, X Li, C Hao, S Ye, C Mao Langmuir 30 (20), 5859-5862, 2014 | 30 | 2014 |
Self-assembly of DNA nanoprisms with only two component strands Z Nie, X Li, Y Li, C Tian, P Wang, C Mao Chemical communications 49 (27), 2807-2809, 2013 | 28 | 2013 |
Artificial, parallel, left-handed DNA helices C Tian, C Zhang, X Li, Y Li, G Wang, C Mao Journal of the American Chemical Society 134 (50), 20273-20275, 2012 | 11 | 2012 |
Vernier assembly: controlling DNA polymerization via length mismatching X Li, C Hao, C Tian, P Wang, C Mao Chemical Communications 50 (48), 6361-6363, 2014 | 10 | 2014 |
Assembly of Barcode‐like Nucleic Acid Nanostructures P Wang, C Tian, X Li, C Mao small 10 (19), 3923-3926, 2014 | 6 | 2014 |
Can strand displacement take place in DNA triplexes? Q Li, C Tian, X Li, C Mao Organic & Biomolecular Chemistry 16 (3), 372-375, 2018 | 5 | 2018 |
Functional Nanomaterial For Photoenergy Conversion: Nanoelectronic Technology (Chapter 2) D Chen, X Li World Scientific, 2020 | 4 | 2020 |
Thymidine Phosphorylase Intracellular Enzyme Replacement Therapy in a Murine Model of Mitochondrial Neurogastrointestinal Encephalopathy (MNGIE)(3975) J Shintaku, W Lian, X Li, S Tadesse, MT Ting, X Xu, NE Long, ... Neurology 94 (15 Supplement), 2020 | 3 | 2020 |
Tracking single DNA nanodevices in hierarchically meso-macroporous antimony-doped tin oxide demonstrates finite confinement D Mieritz, X Li, A Volosin, M Liu, H Yan, NG Walter, DK Seo Langmuir 33 (25), 6410-6418, 2017 | 3 | 2017 |