Enzyme-powered hollow mesoporous Janus nanomotors X Ma, A Jannasch, UR Albrecht, K Hahn, A Miguel-López, E Schaffer, ... Nano letters 15 (10), 7043-7050, 2015 | 449 | 2015 |
Influence of enzyme quantity and distribution on the self-propulsion of non-Janus urease-powered micromotors T Patiño, N Feiner-Gracia, X Arqué, A Miguel-López, A Jannasch, ... Journal of the American Chemical Society 140 (25), 7896-7903, 2018 | 181 | 2018 |
Nanonewton optical force trap employing anti-reflection coated, high-refractive-index titania microspheres A Jannasch, AF Demirörs, PDJ Van Oostrum, A Van Blaaderen, ... Nature Photonics 6 (7), 469-473, 2012 | 142 | 2012 |
Self-sensing enzyme-powered micromotors equipped with pH-responsive DNA nanoswitches T Patino, A Porchetta, A Jannasch, A Lladó, T Stumpp, E Schäffer, ... Nano Letters 19 (6), 3440-3447, 2019 | 141 | 2019 |
Optical trapping of coated microspheres V Bormuth, A Jannasch, M Ander, CM van Kats, A van Blaaderen, ... Optics express 16 (18), 13831-13844, 2008 | 119 | 2008 |
Measuring the complete force field of an optical trap M Jahnel, M Behrndt, A Jannasch, E Schäffer, SW Grill Optics letters 36 (7), 1260-1262, 2011 | 88 | 2011 |
Inertial effects of a small Brownian particle cause a colored power spectral density of thermal noise A Jannasch, M Mahamdeh, E Schäffer Physical review letters 107 (22), 228301, 2011 | 82 | 2011 |
Germanium nanospheres for ultraresolution picotensiometry of kinesin motors S Sudhakar, MK Abdosamadi, TJ Jachowski, M Bugiel, A Jannasch, ... Science 371 (6530), eabd9944, 2021 | 78 | 2021 |
Kinesin-8 is a low-force motor protein with a weakly bound slip state A Jannasch, V Bormuth, M Storch, J Howard, E Schäffer Biophysical Journal 104 (11), 2456-2464, 2013 | 65 | 2013 |
Kinesin Kip2 enhances microtubule growth in vitro through length-dependent feedback on polymerization and catastrophe A Hibbel, A Bogdanova, M Mahamdeh, A Jannasch, M Storch, E Schäffer, ... Elife 4, e10542, 2015 | 52 | 2015 |
Seeded growth of titania colloids with refractive index tunability and fluorophore-free luminescence AF Demirörs, A Jannasch, PDJ van Oostrum, E Schäffer, A Imhof, ... Langmuir 27 (5), 1626-1634, 2011 | 30 | 2011 |
Versatile microsphere attachment of GFP-labeled motors and other tagged proteins with preserved functionality M Bugiel, H Fantana, V Bormuth, A Trushko, F Schiemann, J Howard, ... Journal of Biological Methods 2 (4), e30-e30, 2015 | 23 | 2015 |
The kinesin-8 Kip3 depolymerizes microtubules with a collective force-dependent mechanism M Bugiel, M Chugh, TJ Jachowski, E Schäffer, A Jannasch Biophysical Journal 118 (8), 1958-1967, 2020 | 14 | 2020 |
Implementation and tuning of an optical tweezers force-clamp feedback system M Bugiel, A Jannasch, E Schäffer Optical Tweezers: Methods and Protocols, 109-136, 2017 | 12 | 2017 |
Custom-made microspheres for optical tweezers A Jannasch, MK Abdosamadi, A Ramaiya, S De, V Ferro, A Sonnberger, ... Optical Tweezers: Methods and Protocols, 137-155, 2017 | 10 | 2017 |
Coated microspheres as enhanced probes for optical trapping A Jannasch, V Bormuth, CM van Kats, A van Blaaderen, J Howard, ... Optical Trapping and Optical Micromanipulation V 7038, 502-509, 2008 | 10 | 2008 |
Simultaneous Optical Trapping and Electromagnetic Micromanipulation of Ferromagnetically Doped NaYF4 Microparticles G Nalupurackal, G Murugan, M Lokesh, R Vaippully, A Chauhan, ... ACS Applied Optical Materials 1 (2), 615-622, 2023 | 7 | 2023 |
Simultaneous optical trapping and magnetic micromanipulation of ferromagnetic iron-doped upconversion microparticles in six degrees of freedom G Nalupurackal, M Lokesh, R Vaippully, A Chauhan, BRK Nanda, ... arXiv preprint arXiv:2203.02152, 2022 | 7 | 2022 |
Single depolymerizing and transport kinesins stabilize microtubule ends A Ciorîță, M Bugiel, S Sudhakar, E Schäffer, A Jannasch Cytoskeleton 78 (5), 177-184, 2021 | 5 | 2021 |
Kinesin-8 depolymerizes microtubules with a force-dependent mechanism A Jannasch, M Bugiel, E Schäffer Biophysical Journal 114 (3), 195a, 2018 | 1 | 2018 |