A1 Journal article (refereed)
Towards Controlled Synthesis of Water-Soluble Gold Nanoclusters : Synthesis and Analysis (2019)
Sokolowska, K., Malola, S., Lahtinen, M., Saarnio, V., Permi, P., Koskinen, K., Jalasvuori, M., Häkkinen, H., Lehtovaara, L., & Lahtinen, T. (2019). Towards Controlled Synthesis of Water-Soluble Gold Nanoclusters : Synthesis and Analysis. The Journal of Physical Chemistry C, 123(4), 2602-2612. https://doi.org/10.1021/acs.jpcc.8b11056
JYU authors or editors
 | |
| |
| |
| |
Publication details
All authors or editors: Sokolowska, Karolina; Malola, Sami; Lahtinen, Manu; Saarnio, Ville; Permi, Perttu; Koskinen, Katariina; Jalasvuori, Matti; Häkkinen, Hannu; Lehtovaara, Lauri; Lahtinen, Tanja
Journal or series: The Journal of Physical Chemistry C
ISSN: 1932-7447
eISSN: 1932-7455
Publication year: 2019
Volume: 123
Issue number: 4
Pages range: 2602-2612
Publisher: American Chemical Society
Publication country: United States
Publication language: English
DOI: https://doi.org/10.1021/acs.jpcc.8b11056
Publication open access: Openly available
Publication channel open access: Partially open access channel
Publication is parallel published (JYX): https://jyx.jyu.fi/handle/123456789/62927
Abstract
Water-soluble gold nanoclusters with well-defined molecular structures and stability possess particular biophysical properties making them excellent candidates for biological applications as well as for fundamental spectroscopic studies. The currently existing synthetic protocols for atomically monodisperse thiolate-protected gold nanoclusters (AuMPCs) have been widely expanded with organothiolates, yet the direct synthesis reports for water-soluble AuMPCs are still deficient. Here, we demonstrate a wet-chemistry pH-controlled synthesis of two large water-soluble nanoclusters utilizing p-mercaptobenzoic acid (pMBA), affording different sizes of plasmonic AuMPCs on the preparative scale (∼7 mg). AuMPCs are essentially homogenous in size and are stable in solution and the solid state. Number of characterization methods were used to gain detailed information about the size, symmetry, molecular composition, and structure of these systems, i.e., high-resolution transmission electron microscopy, powder X-ray diffraction, NMR, UV-vis, thermogravimetry, and polyacrylamide gel electrophoresis. On the basis of the conducted experimental analyses and computationally aided predictions it can be evidenced that both clusters exhibit twinned face-centered cubic symmetry with the molecular composition of Au210-230(pMBA)70-80 and Au426-442(pMBA)112-115, referred from now on as Au250 and Au500, respectively. For future reference, toxicity of both gold clusters in various concentrations on cultures of Gram-positive and Gram-negative bacteria was investigated.
Keywords: nanoparticles; gold; chemical synthesis; synthesis
Free keywords: gold nanoclusters
Contributing organizations
Related projects
- Plasmid-dependent bacteriophages: a novel tool to fight bacterial biofilms, persistent infections and the spread of antibiotic resistance
- Jalasvuori, Matti
- Research Council of Finland
- Optical properties of monolayer protected metal nanoparticles
- Lehtovaara, Lauri
- Research Council of Finland
- Optical properties of monolayer protected metal nanoparticles (research costs)
- Lehtovaara, Lauri
- Research Council of Finland
- Metalli-molekyyli-rajapintojen nanorakenteet (NaMeMolnt)
- Häkkinen, Hannu
- Research Council of Finland
- Metalli-molekyyli-rajapintojen nanorakenteet (NaMeMoInt)
- Häkkinen, Hannu
- Research Council of Finland
Ministry reporting: Yes
VIRTA submission year: 2019
JUFO rating: 2
- Cell and Molecular Biology (Department of Biological and Environmental Science BIOENV) SMB
- Physical Chemistry (Department of Chemistry CHEM) KEF
- Organic Chemistry (Department of Chemistry CHEM) KEO
- Nanoscience Center (Department of Physics PHYS, JYFL) (Faculty of Mathematics and Science) (Department of Chemistry CHEM) (Department of Biological and Environmental Science BIOENV) NSC
