| Fabrication of micro/nanoscale motors H Wang, M Pumera Chemical reviews 115 (16), 8704-8735, 2015 | 438 | 2015 |
| Beyond Platinum: Bubble-Propelled Micromotors Based on Ag and MnO2 Catalysts H Wang, G Zhao, M Pumera Journal of the American Chemical Society 136 (7), 2719-2722, 2014 | 163 | 2014 |
| Biomimetic Artificial Inorganic Enzyme‐Free Self‐Propelled Microfish Robot for Selective Detection of Pb2+ in Water JGS Moo, H Wang, G Zhao, M Pumera Chemistry-A European Journal 20 (15), 4292-4296, 2014 | 77 | 2014 |
| Crucial role of surfactants in bubble-propelled microengines H Wang, G Zhao, M Pumera The Journal of Physical Chemistry C 118 (10), 5268-5274, 2014 | 68 | 2014 |
| PhI (OCOCF3) 2-Mediated C–C Bond Formation Concomitant with a 1, 2-Aryl Shift in a Metal-Free Synthesis of 3-Arylquinolin-2-ones L Liu, H Lu, H Wang, C Yang, X Zhang, D Zhang-Negrerie, Y Du, K Zhao Org. Lett 15 (12), 2906-2909, 2013 | 66 | 2013 |
| From nanomotors to micromotors: The influence of the size of an autonomous bubble-propelled device upon its motion H Wang, JGS Moo, M Pumera ACS nano 10 (5), 5041-5050, 2016 | 65 | 2016 |
| Micro/nanomachines and Living Biosystems: From Simple Interactions to Microborgs HW Martin Pumera Advanced Functional Materials 28 (25), 1705421, 2018 | 59 | 2018 |
| Bioinspired spiky micromotors based on sporopollenin exine capsules H Wang, MG Potroz, JA Jackman, B Khezri, T Marić, NJ Cho, M Pumera Advanced Functional Materials 27 (32), 1702338, 2017 | 54 | 2017 |
| Emerging materials for the fabrication of micro/nanomotors H Wang, M Pumera Nanoscale 9 (6), 2109-2116, 2017 | 48 | 2017 |
| Beyond platinum: silver-catalyst based bubble-propelled tubular micromotors WZ Teo, H Wang, M Pumera Chemical Communications 52 (23), 4333-4336, 2016 | 42 | 2016 |
| Nano/microrobots meet electrochemistry JGS Moo, CC Mayorga‐Martinez, H Wang, B Khezri, WZ Teo, M Pumera Advanced Functional Materials 27 (12), 1604759, 2017 | 41 | 2017 |
| Catalytic DNA-Functionalized Self-Propelled Micromachines for Environmental Remediation H Wang, B Khezri, M Pumera Chem 1 (3), 473-481, 2016 | 37 | 2016 |
| Influence of real-world environments on the motion of catalytic bubble-propelled micromotors G Zhao, H Wang, B Khezri, RD Webster, M Pumera Lab on a Chip 13 (15), 2937-2941, 2013 | 37 | 2013 |
| Artificial micro-cinderella based on self-propelled micromagnets for the active separation of paramagnetic particles G Zhao, H Wang, S Sanchez, OG Schmidt, M Pumera Chemical Communications 49 (45), 5147-5149, 2013 | 30 | 2013 |
| Blood Proteins Strongly Reduce the Mobility of Artificial Self‐Propelled Micromotors H Wang, G Zhao, M Pumera Chemistry-A European Journal 19 (49), 16756-16759, 2013 | 23 | 2013 |
| Tissue cell assisted fabrication of tubular catalytic platinum microengines H Wang, JGS Moo, M Pumera Nanoscale 6 (19), 11359-11363, 2014 | 22 | 2014 |
| Blood electrolytes exhibit a strong influence on the mobility of artificial catalytic microengines H Wang, G Zhao, M Pumera Physical Chemistry Chemical Physics 15 (40), 17277-17280, 2013 | 22 | 2013 |
| Influence of pH on the Motion of Catalytic Janus Particles and Tubular Bubble‐Propelled Micromotors JGS Moo, H Wang, M Pumera Chemistry-A European Journal 22 (1), 355-360, 2016 | 21 | 2016 |
| Iridium‐Catalyst‐Based Autonomous Bubble‐Propelled Graphene Micromotors with Ultralow Catalyst Loading H Wang, Z Sofer, AYS Eng, M Pumera Chemistry-A European Journal 20 (46), 14946-14950, 2014 | 21 | 2014 |
| Bjerknes Forces in Motion: Long‐Range Translational Motion and Chiral Directionality Switching in Bubble‐Propelled Micromotors via an Ultrasonic Pathway JGS Moo, CC Mayorga‐Martinez, H Wang, WZ Teo, BH Tan, TD Luong, ... Advanced Functional Materials 28 (25), 1702618, 2018 | 14 | 2018 |
Martin PumeraDirector, Center for Advanced Functional Nanorobots; University of Chemistry and Technology PragueE-mailová adresa ověřena na: vscht.cz
