| Programmable motion of DNA origami mechanisms AE Marras, L Zhou, HJ Su, CE Castro Proceedings of the National Academy of Sciences 112 (3), 713-718, 2015 | 437 | 2015 |
| DNA origami compliant nanostructures with tunable mechanical properties L Zhou, AE Marras, HJ Su, CE Castro ACS nano 8 (1), 27-34, 2014 | 148 | 2014 |
| Mechanical design of DNA nanostructures CE Castro, HJ Su, AE Marras, L Zhou, J Johnson Nanoscale 7 (14), 5913-5921, 2015 | 146 | 2015 |
| DNA nanotechnology approaches for microRNA detection and diagnosis AR Chandrasekaran, JA Punnoose, L Zhou, P Dey, BK Dey, K Halvorsen Nucleic acids research 47 (20), 10489-10505, 2019 | 113 | 2019 |
| Direct design of an energy landscape with bistable DNA origami mechanisms L Zhou, AE Marras, HJ Su, CE Castro Nano letters 15 (3), 1815-1821, 2015 | 80 | 2015 |
| Cellular microRNA detection with miRacles: microRNA-activated conditional looping of engineered switches AR Chandrasekaran, M MacIsaac, P Dey, O Levchenko, L Zhou, ... Science advances 5 (3), eaau9443, 2019 | 71 | 2019 |
| Cation-activated avidity for rapid reconfiguration of DNA nanodevices AE Marras, Z Shi, MG Lindell III, RA Patton, CM Huang, L Zhou, HJ Su, ... ACS nano 12 (9), 9484-9494, 2018 | 59 | 2018 |
| Three-dimensional structural dynamics of DNA origami Bennett linkages using individual-particle electron tomography D Lei, AE Marras, J Liu, CM Huang, L Zhou, CE Castro, HJ Su, G Ren Nature communications 9 (1), 592, 2018 | 55 | 2018 |
| Directing folding pathways for multi-component DNA origami nanostructures with complex topology AE Marras, L Zhou, V Kolliopoulos, HJ Su, CE Castro New Journal of Physics 18 (5), 055005, 2016 | 51 | 2016 |
| Photonic crystal enhanced fluorescence emission and blinking suppression for single quantum dot digital resolution biosensing Y Xiong, Q Huang, TD Canady, P Barya, S Liu, OH Arogundade, ... Nature communications 13 (1), 4647, 2022 | 47 | 2022 |
| Programmable low-cost DNA-based platform for viral RNA detection L Zhou, AR Chandrasekaran, JA Punnoose, G Bonenfant, S Charles, ... Science Advances 6 (39), eabc6246, 2020 | 47 | 2020 |
| Net-shaped DNA nanostructures designed for rapid/sensitive detection and potential inhibition of the SARS-CoV-2 virus N Chauhan, Y Xiong, S Ren, A Dwivedy, N Magazine, L Zhou, X Jin, ... Journal of the American Chemical Society 145 (37), 20214-20228, 2022 | 44 | 2022 |
| Paper origami‐inspired design and actuation of DNA nanomachines with complex motions L Zhou, AE Marras, CM Huang, CE Castro, HJ Su Small 14 (47), 1802580, 2018 | 39 | 2018 |
| Pseudorigid-body models of compliant DNA origami mechanisms L Zhou, AE Marras, CE Castro, HJ Su Journal of Mechanisms and Robotics 8 (5), 051013, 2016 | 28 | 2016 |
| The kinematic principle for designing deoxyribose nucleic acid origami mechanisms: challenges and opportunities HJ Su, CE Castro, AE Marras, L Zhou Journal of Mechanical Design 139 (6), 062301, 2017 | 13* | 2017 |
| Modelling, simulation and experiment of a novel pure rolling cycloid reducer with involute teeth Y Song, Q Liao, S Wei, L Guo, H Song, L Zhou International Journal of Modelling, Identification and Control 21, 184-192, 2014 | 12 | 2014 |
| A mini DNA–RNA hybrid origami nanobrick L Zhou, AR Chandrasekaran, M Yan, VA Valsangkar, JI Feldblyum, ... Nanoscale Advances 3 (14), 4048-4051, 2021 | 10 | 2021 |
| Mobility analysis and type synthesis with screw theory: from rigid body linkages to compliant mechanisms HJ Su, L Zhou, Y Zhang Advances in Mechanisms, Robotics and Design Education and Research, 67-81, 2013 | 10 | 2013 |
| Rapid one-step detection of SARS-CoV-2 RNA AR Chandrasekaran, L Zhou, K Halvorsen Nature biomedical engineering 4 (12), 1123-1124, 2020 | 8 | 2020 |
| Projection kinematic analysis of DNA origami mechanisms based on a two-dimensional TEM image L Zhou, HJ Su, AE Marras, CM Huang, CE Castro Mechanism and Machine Theory 109, 22-38, 2017 | 8 | 2017 |
