| Dispersion in active transport by kinesin-powered molecular shuttles T Nitta, H Hess Nano Letters 5 (7), 1337-1342, 2005 | 109 | 2005 |
| Simulating molecular shuttle movements: Towards computer-aided design of nanoscale transport systems T Nitta, A Tanahashi, M Hirano, H Hess Lab on a Chip 6 (7), 881-885, 2006 | 99 | 2006 |
| Comparing guiding track requirements for myosin-and kinesin-powered molecular shuttles T Nitta, A Tanahashi, Y Obara, M Hirano, M Razumova, M Regnier, ... Nano letters 8 (8), 2305-2309, 2008 | 70 | 2008 |
| Sensing surface mechanical deformation using active probes driven by motor proteins D Inoue, T Nitta, AMR Kabir, K Sada, JP Gong, A Konagaya, A Kakugo Nature communications 7 (1), 12557, 2016 | 59 | 2016 |
| A printable active network actuator built from an engineered biomolecular motor T Nitta, Y Wang, Z Du, K Morishima, Y Hiratsuka Nature materials 20 (8), 1149-1155, 2021 | 58 | 2021 |
| Comparing microscopic with macroscopic elastic properties of polymer gel T Nitta, H Haga, K Kawabata, K Abe, T Sambongi Ultramicroscopy 82 (1-4), 223-226, 2000 | 52 | 2000 |
| Microtubule nanospool formation by active self-assembly is not initiated by thermal activation I Luria, J Crenshaw, M Downs, A Agarwal, SB Seshadri, J Gonzales, ... Soft Matter 7 (7), 3108-3115, 2011 | 39 | 2011 |
| Velocity fluctuations in kinesin-1 gliding motility assays originate in motor attachment geometry variations H Palacci, O Idan, MJ Armstrong, A Agarwal, T Nitta, H Hess Langmuir 32 (31), 7943-7950, 2016 | 30 | 2016 |
| In silico design and testing of guiding tracks for molecular shuttles powered by kinesin motors T Nitta, A Tanahashi, M Hirano Lab on a Chip 10 (11), 1447-1453, 2010 | 27 | 2010 |
| In situ integrated microrobots driven by artificial muscles built from biomolecular motors Y Wang, T Nitta, Y Hiratsuka, K Morishima Science Robotics 7 (69), eaba8212, 2022 | 22 | 2022 |
| Understanding the guiding of kinesin/microtubule-based microtransporters in microfabricated tracks Y Ishigure, T Nitta Langmuir 30 (40), 12089-12096, 2014 | 22 | 2014 |
| Optimization of isopolar microtubule arrays RR Agayan, R Tucker, T Nitta, F Ruhnow, WJ Walter, S Diez, H Hess Langmuir 29 (7), 2265-2272, 2013 | 22 | 2013 |
| Adaptation of patterns of motile filaments under dynamic boundary conditions D Inoue, G Gutmann, T Nitta, AMR Kabir, A Konagaya, K Tokuraku, ... ACS nano 13 (11), 12452-12460, 2019 | 19 | 2019 |
| Effect of path persistence length of molecular shuttles on two-stage analyte capture in biosensors T Nitta, H Hess Cellular and Molecular Bioengineering 6, 109-115, 2013 | 19 | 2013 |
| Friction of elastomer-on-glass system and direct observation of its frictional interface Y Okamoto, K Nishio, J Sugiura, M Hirano, T Nitta Journal of Physics: Conference Series 89 (1), 012011, 2007 | 19 | 2007 |
| Microdomain structure of agar gels observed by mechanical‐scanning probe microscopy T Nitta, Y Endo, H Haga, K Kawabata Journal of electron microscopy 52 (3), 277-281, 2003 | 18 | 2003 |
| Static friction of agar gels: Formation of contact junctions at frictional interface T Nitta, H Kato, H Haga, K Nemoto, K Kawabata Journal of the Physical Society of Japan 74 (11), 2875-2879, 2005 | 17 | 2005 |
| Conductive and flexible multi‐walled carbon nanotube/polydimethylsiloxane composites made with naphthalene/toluene mixture T Mulembo, G Nagai, H Tamagawa, T Nitta, M Sasaki Journal of Applied Polymer Science 136 (44), 48167, 2019 | 14 | 2019 |
| Simulating an actomyosin in vitro motility assay: toward the rational design of actomyosin-based microtransporters Y Ishigure, T Nitta IEEE transactions on nanobioscience 14 (6), 641-648, 2015 | 13 | 2015 |
| In silico evolution of guiding track designs for molecular shuttles powered by kinesin motors T Sunagawa, A Tanahashi, ME Downs, H Hess, T Nitta Lab on a Chip 13 (14), 2827-2833, 2013 | 13 | 2013 |
Henry HessProfessor, Department of Biomedical Engineering, Columbia UniversityVerified email at columbia.edu
