We kindly invite you to the next meeting of the Modern Trends in Physics Research seminar 2021/22 to be held on November 24th at 13:00. Prof. Sebastian Maćkowski (Nanophotonics Group, Institute of Physics, Faculty of Physics, Astronomy and Informatics, Nicolaus Copernicus University in Toruń) will speak about Silver nanowire – plasmonic magic wand.
The link to the Microsoft Teams meeting is HERE - http://mtpr.amu.edu.pl. The guests from the outside of the AMU network, using this link, will be granted individual access permissions by the MTPR staff. Please, follow the news on the MTPR web page ( http://mtpr.amu.edu.pl ), where the links to the subsequent events will be available in due time.
Sincerely Yours
Sławomir Breiter,
Jacek Gapiński,
Jarosław W. Kłos,
and Ireneusz Weymann
Abstract:
The presentation will focus on advocating for uniqueness of silver nanowires, metallic structures with diameters of 100 nm and lengths up to a millimeter [1]. While the diameter of the nanowires is small enough to facilitate localized surface plasmon resonance, their length is sufficiently large to exploit propagation of energy over considerable distances. In combination with advanced nanostructural manipulation, these properties open virtually unlimited playground for interdisciplinary research, which spans over fluorescence enhancement [2-4], remote and high efficiency sensing [5-7], long-range energy propagation [8-10], controlled photocatalysis, heat propagation, etc.
As all of the experiments involve some form of fluorescence microscopy and spectroscopy, surface functionalization, microdroplet deposition, and alike, essentials of the technical aspects will be discussed to the necessary detail.
Experimental demonstrations will include:
- Plasmonic enhancement of protein fluorescence
- Real-time single protein detection
- Remote activation of luminescence
- Interfacing nanowires with quantum dots
- Remote photocatalysis
Research was partially financed by the National Science Centre (Poland) within the grants 2013/10/E/ST3/00034, 2013/09/D/ST3/03746, 2016/21/B/ST3/02276, 2016/22/E/ST5/00531, 2017/27/B/ST3/02457, and 2017/26/E/ST3/00209, and 2018/31/G/ST3/03596, as well as by the National Centre for Research and Development within the DZP/POLTUR-1/50/2016.
References:
[1] J. Niedziółka-Jönsson, S. Maćkowski, Materials 12, 1418 (2019)
[2] M. Olejnik, et al. Applied Physics Letters 102, 083703 (2013)
[3] M. Szalkowski, et al. Nanoscale 9, 10475 (2017)
[4] M. Ćwik , et al. Opt. Express 29, 8834 (2021)
[5] M. Szalkowski, et al. Sensors 18, 290 (2018)
[6] K. Sulowska, et al. Methods Appl. Fluoresc. 8, 045004 (2020)
[7] J. Grzelak, et al. Sens. Actuator B-Chem. 273, 689 (2018)
[8] A. Prymaczek, et al. Nanoscale 10, 12841 (2018)
[9] D. Buczyńska, et al. J. Phys. Chem. C 124,15418 (2020)
[10] A. Prymaczek, et al. Sci. Rep. 11, 3557 (2021)