| Bending rules for animal propulsion KN Lucas, N Johnson, WT Beaulieu, E Cathcart, G Tirrell, SP Colin, ... Nature communications 5, 3293, 2014 | 146 | 2014 |
| Effects of non-uniform stiffness on the swimming performance of a passively-flexing, fish-like foil model. KN Lucas, PJ Thornycroft, BJ Gemmell, SP Colin, JH Costello, GV Lauder Bioinspiration & biomimetics 10 (5), 056019, 2015 | 111 | 2015 |
| The hydrodynamics of jellyfish swimming JH Costello, SP Colin, JO Dabiri, BJ Gemmell, KN Lucas, KR Sutherland Annual Review of Marine Science 13 (1), 375-396, 2021 | 91 | 2021 |
| Airfoil-like mechanics generate thrust on the anterior body of swimming fishes KN Lucas, GV Lauder, ED Tytell Proceedings of the National Academy of Sciences 117 (19), 10585-10592, 2020 | 56 | 2020 |
| A pressure-based force and torque prediction technique for the study of fish-like swimming KN Lucas, JO Dabiri, GV Lauder PloS one 12 (12), e0189225, 2017 | 45 | 2017 |
| Performance variation due to stiffness in a tuna-inspired flexible foil model MLN Rosic, PJM Thornycroft, KL Feilich, KN Lucas, GV Lauder Bioinspiration & Biomimetics 12 (1), 016011, 2017 | 28 | 2017 |
| Jellyfish and Fish Solve the Challenges of Turning Dynamics Similarly to Achieve High Maneuverability JO Dabiri, SP Colin, BJ Gemmell, KN Lucas, MC Leftwich, JH Costello Fluids 5 (3), 106, 2020 | 18 | 2020 |
| Resilience in moving water: Effects of turbulence on the predatory impact of the lobate ctenophore Mnemiopsis leidyi C Jaspers, JH Costello, KR Sutherland, B Gemmell, KN Lucas, J Tackett, ... Limnology and Oceanography 63 (1), 445-458, 2018 | 17 | 2018 |
| Flexibility is a hidden axis of biomechanical diversity in fishes YE Jimenez, KN Lucas, JH Long Jr, ED Tytell Journal of Experimental Biology 226 (Suppl_1), jeb245308, 2023 | 8 | 2023 |
| Fluid interactions that enable stealth predation by the upstream-foraging hydromedusa Craspedacusta sowerbyi K Lucas, SP Colin, JH Costello, K Katija, E Klos The Biological Bulletin 225 (1), 60-70, 2013 | 6 | 2013 |
| Primitive and modern swimmers solve the challenges of turning similarly to achieve high maneuverability JO Dabiri, S Colin, B Gemmell, K Lucas, M Leftwich, JH Costello bioRxiv, 706762, 2019 | 5 | 2019 |
| The fish body functions as an airfoil: surface pressures generate thrust during carangiform locomotion KN Lucas, GV Lauder, ED Tytell bioRxiv, 2020.02. 20.958389, 2020 | 3 | 2020 |
| Application of PIV-based pressure measurements to the study of aquatic propulsion K Lucas, J Dabiri, G Lauder APS Division of Fluid Dynamics Meeting Abstracts, R38. 001, 2015 | 1 | 2015 |
| Anthropogenic stressors and the marine environment: From sources and impacts to solutions and mitigation AL Hajji, KN Lucas Marine Pollution Bulletin 205, 116557, 2024 | | 2024 |
| ECR Spotlight-Yordano Jimenez and Kelsey Lucas Y Jimenez, K Lucas JOURNAL OF EXPERIMENTAL BIOLOGY 226, 2023 | | 2023 |
| BiteScis: Teacher-Researcher Partnerships to Develop Engaging Research-Based Lessons KN Lucas, S Keep, S Morey INTEGRATIVE AND COMPARATIVE BIOLOGY 60, E368-E368, 2020 | | 2020 |
| Revisiting Dubois: the roles of positive and negative pressure in force production during fish swimming KN Lucas, G Lauder, ED Tytell INTEGRATIVE AND COMPARATIVE BIOLOGY 60, E145-E145, 2020 | | 2020 |
| Primitive and modern swimmers solve the challenges of turning similarly to achieve high maneuverability J Costello, J Dabiri, S Colin, B Gemmell, K Lucas, M Leftwich Ocean Sciences Meeting 2020, 2020 | | 2020 |
| Low and High Pressure Both Contribute to Force Production in Body-Caudal Fin Locomotion in Fishes KN Lucas, G Lauder, ED Tytell INTEGRATIVE AND COMPARATIVE BIOLOGY 59, E142-E142, 2019 | | 2019 |
| Physical mechanisms of force production for swimming in fishes KN Lucas Harvard University, 2019 | | 2019 |
Sean P ColinRoger Williams UniversityVerified email at rwu.edu
