| Spiropyran-based dynamic materials R Klajn Chemical Society Reviews 43 (1), 148-184, 2014 | 1950 | 2014 |
| Self-assembly of magnetite nanocubes into helical superstructures G Singh, H Chan, A Baskin, E Gelman, N Repnin, P Král, R Klajn Science 345 (6201), 1149-1153, 2014 | 495 | 2014 |
| Light-controlled self-assembly of non-photoresponsive nanoparticles PK Kundu, D Samanta, R Leizrowice, B Margulis, H Zhao, M Börner, ... Nature Chemistry 7 (8), 646-652, 2015 | 475 | 2015 |
| Chemical reactivity under nanoconfinement AB Grommet, M Feller, R Klajn Nature Nanotechnology 15, 256-271, 2020 | 440 | 2020 |
| Stimuli-responsive self-assembly of nanoparticles M Grzelczak, LM Liz-Marzán, R Klajn Chemical Society Reviews 48 (5), 1342-1361, 2019 | 388 | 2019 |
| Reversible trapping and reaction acceleration within dynamically self-assembling nanoflasks H Zhao, S Sen, T Udayabhaskararao, M Sawczyk, K Kučanda, D Manna, ... Nature Nanotechnology 11 (1), 82-88, 2016 | 325 | 2016 |
| Immobilized azobenzenes for the construction of photoresponsive materials R Klajn Pure and Applied Chemistry 82 (12), 2247-2279, 2010 | 258 | 2010 |
| Dissipative Self‐Assembly Driven by the Consumption of Chemical Fuels S De, R Klajn Advanced Materials 30, 1706750, 2018 | 191 | 2018 |
| Reversible chromism of spiropyran in the cavity of a flexible coordination cage D Samanta, D Galaktionova, J Gemen, LJW Shimon, Y Diskin-Posner, ... Nature Communications 9, 641, 2018 | 168 | 2018 |
| Chemical systems out of equilibrium JH Van Esch, R Klajn, S Otto Chemical Society Reviews 46 (18), 5474-5475, 2017 | 158 | 2017 |
| Nanoporous frameworks exhibiting multiple stimuli responsiveness PK Kundu, GL Olsen, V Kiss, R Klajn Nature Communications 5, 3588, 2014 | 158 | 2014 |
| Orthogonal Light‐Induced Self‐Assembly of Nanoparticles using Differently Substituted Azobenzenes D Manna, T Udayabhaskararao, H Zhao, R Klajn Angewandte Chemie International Edition 54 (42), 12394-12397, 2015 | 156 | 2015 |
| Tunable porous nanoallotropes prepared by post-assembly etching of binary nanoparticle superlattices T Udayabhaskararao, T Altantzis, L Houben, M Coronado-Puchau, ... Science 358 (6362), 514-518, 2017 | 134 | 2017 |
| Dual-responsive nanoparticles and their self-assembly S Das, P Ranjan, PS Maiti, G Singh, G Leitus, R Klajn Adv. Mater 25 (3), 422-426, 2013 | 134 | 2013 |
| Electrostatic co-assembly of nanoparticles with oppositely charged small molecules into static and dynamic superstructures T Bian, A Gardin, J Gemen, L Houben, C Perego, B Lee, N Elad, Z Chu, ... Nature Chemistry 13, 940-949, 2021 | 128 | 2021 |
| Reversible photoswitching of encapsulated azobenzenes in water D Samanta, J Gemen, Z Chu, Y Diskin-Posner, LJW Shimon, R Klajn Proceedings of the National Academy of Sciences USA 115 (38), 9379-9384, 2018 | 120 | 2018 |
| Dissipative Self-Assembly: Fueling with Chemicals vs. Light M Weißenfels, J Gemen, R Klajn Chem 7 (1), 23-37, 2021 | 118 | 2021 |
| Supramolecular Control of Azobenzene Switching on Nanoparticles Z Chu, Y Han, T Bian, S De, P Král, R Klajn Journal of the American Chemical Society 141 (5), 1949-1960, 2019 | 99 | 2019 |
| Molecular Photoswitching in Confined Spaces AB Grommet, LM Lee, R Klajn Accounts of Chemical Research 53 (11), 2600-2610, 2020 | 95 | 2020 |
| Aqueous light-controlled self-assembly of nanoparticles D Samanta, R Klajn Advanced Optical Materials, 2016 | 93 | 2016 |
