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JANČÍK PROCHÁZKOVÁ, A. KMENTOVÁ, H. JU, X. KMENT, Š. ZBOŘIL, R. PUMERA, M.
Originální název
Precision Engineering of Nanorobots: Toward Single Atom Decoration and Defect Control for Enhanced Microplastic Capture
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
Nanorobots are being received with a great attention for their move-sense-and-act capabilities that often originate from catalytic decomposition of fuels. In the past decade, single-atom engineering has demonstrated exceptional efficiency in catalysis, energy-related technologies, and medicine. Here, a novel approach involving point defect engineering and the incorporation of platinum (Pt) single atoms and atomic level species onto the surface of titanium dioxide nanotubes (TiO2-NT)-based nanorobots is presented and its impact on the propulsion capabilities of the resulting nanorobots is investigated. The achievement of point defect engineering is realized through the annealing of TiO2-NT in a hydrogen atmosphere yielding to the point-defect decorated nanotube (TiO2-HNT) nanorobots. Subsequently, the atomic level Pt species decorated TiO2 nanotube (TiO2-SA-NT) nanorobots are achieved through a wet-chemical deposition process. Whereas TiO2-SA-NT nanorobots showed the highest negative photogravitaxis when irradiated with ultraviolet (UV) light, TiO2-HNT nanorobots reached the highest velocity calculated in 2D. Both TiO2-HNT and TiO2-SA-NT nanorobots demonstrated a pronounced affinity for microplastics, exhibiting the capability to irreversibly capture them. This pioneering approach utilizing point-defect and atomic level Pt species nanorobotics is anticipated to pave the way for highly efficient solutions in the remediation of nano- and microplastics and related environmental technologies. Enhanced microplastic capture is achieved by precise engineering of TiO2-based nanorobots. The incorporation of point defects leads to the preferable schooling behavior of nanorobots in the presence of fuel and UV irradiation. On the contrary, the decoration with platinum atomic level species results in a negative photogravitaxis enabling the propulsion of nanorobots in 3D. Both designed species enabled efficient microplastics capture. image
Klíčová slova
defect engineering; microplastics; nanorobots; single atoms; titanium oxide; water remediation
Autoři
JANČÍK PROCHÁZKOVÁ, A.; KMENTOVÁ, H.; JU, X.; KMENT, Š.; ZBOŘIL, R.; PUMERA, M.
Vydáno
1. 9. 2024
Nakladatel
WILEY-V C H VERLAG GMBH
Místo
WEINHEIM
ISSN
1616-3028
Periodikum
Advanced functional materials
Ročník
34
Číslo
38
Stát
Spolková republika Německo
Strany počet
11
URL
https://onlinelibrary.wiley.com/doi/10.1002/adfm.202402567
BibTex
@article{BUT188808, author="Anna {Jančík Procházková} and Hana {Kmentová} and Xiaohui {Ju} and Štěpán {Kment} and Radek {Zbořil} and Martin {Pumera}", title="Precision Engineering of Nanorobots: Toward Single Atom Decoration and Defect Control for Enhanced Microplastic Capture", journal="Advanced functional materials", year="2024", volume="34", number="38", pages="11", doi="10.1002/adfm.202402567", issn="1616-3028", url="https://onlinelibrary.wiley.com/doi/10.1002/adfm.202402567" }