Your search keyword '"Sebastian Mackowski"' showing total 8 results

1. Emission in the Biological Window from AIE-Based Carbazole-Substituted Furan-Based Compounds for Organic Light-Emitting Diodes and Random Lasers

Author

Kamila Lupinska, Sonia Kotowicz, Anna Grabarz, Mariola Siwy, Karolina Sulowska, Sebastian Mackowski, Lulu Bu, Yann Bretonnière, Chantal Andraud, Ewa Schab-Balcerzak, and Lech Sznitko

Subjects

Chemistry, QD1-999

Published

2024

2. Real-Time Fluorescence Imaging of His-Tag-Driven Conjugation of mCherry Proteins to Silver Nanowires

Author

Martyna Jankowska, Karolina Sulowska, Kamil Wiwatowski, Joanna Niedziółka-Jönsson, and Sebastian Mackowski

Subjects

silver nanowires, surface functionalizatio, conjugation, fluorescence imaging, photoactive protein, biosensing, Biochemistry, QD415-436

Abstract

In this work, we aimed to apply fluorescence microscopy to image protein conjugation to Ni-NTA modified silver nanowires in real time via the His-tag attachment. First, a set of experiments was designed and performed for the mixtures of proteins and silver nanowires in order to demonstrate plasmon enhancement of mCherry protein fluorescence as well as the ability to image fluorescence of single molecules. The results indicated strong enhancement of single-protein fluorescence emission upon coupling with silver nanowires. This conclusion was supported by a decrease in the fluorescence decay time of mCherry proteins. Real-time imaging was carried out for a structure created by dropping protein solution onto a glass substrate with functionalized silver nanowires. We observed specific attachment of mCherry proteins to the nanowires, with the recognition time being much longer than in the case of streptavidin–biotin conjugation. This result indicated that it is possible to design a universal and efficient real-time sensing platform with plasmonically active functionalized silver nanowires.

Published

2022

3. Novel advanced scoping meta-review methodology for defining a graduate level textbook in an emerging subject area.

Author

Simon Perry, Norman D. McMillan, Raul D. Rodriguez, Sebastian Mackowski, Evgeniya Sheremet, Monika Fleischer, Katrin Kneipp, Dietrich RT Zahn, Pierre-Michel Adam, Teresa Isabel Madeira, and Alfred J. Meixner

Subjects

Meta-review, Library Research, Scoping Review, Bibliography. Library science. Information resources

Abstract

This paper describes a library-based project involving the library staff at the Institute of Technology Carlow (ITC), in a collaboration led by the European Cooperation in Science and Technology (COST), Action MP1302 Nanospectroscopy. The project uses a comprehensive scoping methodology, an Advanced Scoping Meta-Review (ASMR), to identify significant topics in an emergent subject area; Optical Nanospectroscopy. An agreed mapping of the subject is derived in order to deliver a pedagogically coherent structure for a three-volume textbook set intended primarily for Early Stage Researchers (ESR). The review process is based on some earlier scoping methodologies, but is devised for a project involving a large number of individuals collaborating in authorship of the textbooks. A description of the scoping process is given, noting both the specific work in searching for and retrieving the appropriate literature, the qualitative and quantitative analysis and ordering of the search results, and placing the meta-review in the wider context of the editorial process to develop the Nanospectroscopy textbooks. The meta-review is employed in a special way in order to map an emergent subject area for the purpose of textbook development, rather than the more traditional use of such reviews to answer specific research questions. The importance of the library-led searching which underpinned this activity is emphasised. The successful outcome of this process resulting in agreement on the detailed content of three volumes is discussed. The paper ends with a critical evaluation of the lessons that can be drawn from this project.

Published

2018

4. Metal-Enhanced Fluorescence of Chlorophylls in Light-Harvesting Complexes Coupled to Silver Nanowires

Author

Dorota Kowalska, Bartosz Krajnik, Maria Olejnik, Magdalena Twardowska, Nikodem Czechowski, Eckhard Hofmann, and Sebastian Mackowski

Subjects

Technology, Medicine, Science

Abstract

We investigate metal-enhanced fluorescence of peridinin-chlorophyll protein coupled to silver nanowires using optical microscopy combined with spectrally and time-resolved fluorescence techniques. In particular we study two different sample geometries: first, in which the light-harvesting complexes are deposited onto silver nanowires, and second, where solution of both nanostructures are mixed prior deposition on a substrate. The results indicate that for the peridinin-chlorophyll complexes placed in the vicinity of the silver nanowires we observe higher intensities of fluorescence emission as compared to the reference sample, where no nanowires are present. Enhancement factors estimated for the sample where the light-harvesting complexes are mixed together with the silver nanowires prior deposition on a substrate are generally larger in comparison to the other geometry of a hybrid nanostructure. While fluorescence spectra are identical both in terms of overall shape and maximum wavelength for peridinin-chlorophyll-protein complexes both isolated and coupled to metallic nanostructures, we conclude that interaction with plasmon excitations in the latter remains neutral to the functionality of the biological system. Fluorescence transients measured for the PCP complexes coupled to the silver nanowires indicate shortening of the fluorescence lifetime pointing towards modifications of radiative rate due to plasmonic interactions. Our results can be applied for developing ways to plasmonically control the light-harvesting capability of photosynthetic complexes.

Published

2013

5. Strong angular and spectral narrowing of electroluminescence in an integrated Tamm-plasmon-driven halide perovskite LED

Author

Zher Ying Ooi, Alberto Jiménez-Solano, Krzysztof Gałkowski, Yuqi Sun, Jordi Ferrer Orri, Kyle Frohna, Hayden Salway, Simon Kahmann, Shenyu Nie, Guadalupe Vega, Shaoni Kar, Michał P. Nowak, Sebastian Maćkowski, Piotr Nyga, Caterina Ducati, Neil C. Greenham, Bettina V. Lotsch, Miguel Anaya, and Samuel D. Stranks

Subjects

Science

Abstract

Abstract Next-generation light-emitting applications such as displays and optical communications require judicious control over emitted light, including intensity and angular dispersion. To date, this remains a challenge as conventional methods require cumbersome optics. Here, we report highly directional and enhanced electroluminescence from a solution-processed quasi-2-dimensional halide perovskite light-emitting diode by building a device architecture to exploit hybrid plasmonic-photonic Tamm plasmon modes. By exploiting the processing and bandgap tunability of the halide perovskite device layers, we construct the device stack to optimise both optical and charge-injection properties, leading to narrow forward electroluminescence with an angular full-width half-maximum of 36.6° compared with the conventional isotropic control device of 143.9°, and narrow electroluminescence spectral full-width half-maximum of 12.1 nm. The device design is versatile and tunable to work with emission lines covering the visible spectrum with desired directionality, thus providing a promising route to modular, inexpensive, and directional operating light-emitting devices.

Published

2024

6. Effect of N-phenyl substituent on thermal, optical, electrochemical and luminescence properties of 3-aminophthalimide derivatives

Author

Sonia Kotowicz, Jan Grzegorz Małecki, Joanna Cytarska, Angelika Baranowska-Łączkowska, Mariola Siwy, Krzysztof Z. Łączkowski, Marcin Szalkowski, Sebastian Maćkowski, and Ewa Schab-Balcerzak

Subjects

Medicine, Science

Abstract

Abstract The seven N-phthalimide derivatives substituted with the amine group at the 3-C position in the phenylene ring were synthesized. The effect of N-substituent chemical structure was investigated. The thermal, electrochemical and optical studies were performed and supported by the density functional theory calculations (DFT). The electrochemical investigations of the synthesized low-molecular phthalimides revealed the one oxidation and reduction process with the HOMO energy level under − 5.81 eV and energy-band gap below 3 eV. The N-phthalimide derivatives were emitted light in a blue spectral region in solutions (in polar and non-polar) with the quantum yield between 2 and 68%, dependent on the substituent at the nitrogen atom, solvent and concentration. The N-phthalimide derivatives were emissive also in a solid state as a thin film and powder. They were tested as a component of the active layer with PVK:PBD matrix and as an independent active layer in the organic light-emitting diodes. The registered electroluminescence spectra exhibited the maximum emission band in the 469–505 nm range, confirming the possibility of using N-phthalimides with PVK:PBD matrix as the blue emitters.

Published

2023

7. Immunosensor Based on Long-Period Fiber Gratings for Detection of Viruses Causing Gastroenteritis

Author

Marta Janczuk-Richter, Beata Gromadzka, Łukasz Richter, Mirosława Panasiuk, Karolina Zimmer, Predrag Mikulic, Wojtek J. Bock, Sebastian Maćkowski, Mateusz Śmietana, and Joanna Niedziółka Jönsson

Subjects

virus detection, norovirus, virus-like particle, label-free biosensor, optical fiber sensor, long-period fiber gratings, Chemical technology, TP1-1185

Abstract

Since the norovirus is the main cause of acute gastroenteritis all over the world, its fast detection is crucial in medical diagnostics. In this work, a rapid, sensitive, and selective optical fiber biosensor for the detection of norovirus virus-like particles (VLPs) is reported. The sensor is based on highly sensitive long-period fiber gratings (LPFGs) coated with antibodies against the main coat protein of the norovirus. Several modification methods were verified to obtain reliable immobilization of protein receptors on the LPFG surface. We were able to detect 1 ng/mL norovirus VLPs in a 40-min assay in a label-free manner. Thanks to the application of an optical fiber as the sensor, there is a possibility to increase the user’s safety by separating the measurement point from the signal processing setup. Moreover, our sensor is small and light, and the proposed assay is straightforward. The designed LPFG-based biosensor could be applied in both fast norovirus detection and in vaccine testing.

Published

2020

8. Wide-Field Fluorescence Microscopy of Real-Time Bioconjugation Sensing

Author

Marcin Szalkowski, Karolina Sulowska, Justyna Grzelak, Joanna Niedziółka-Jönsson, Ewa Roźniecka, Dorota Kowalska, and Sebastian Maćkowski

Subjects

fluorescence imaging, bioconjugation, plasmon enhancement, silver nanowire, Chemical technology, TP1-1185

Abstract

We apply wide-field fluorescence microscopy to measure real-time attachment of photosynthetic proteins to plasmonically active silver nanowires. The observation of this effect is enabled, on the one hand, by sensitive detection of fluorescence and, on the other hand, by plasmonic enhancement of protein fluorescence. We examined two sample configurations with substrates being a bare glass coverslip and a coverslip functionalized with a monolayer of streptavidin. The different preparation of the substrate changes the observed behavior as far as attachment of the protein is concerned as well as its subsequent photobleaching. For the latter substrate the conjugation process is measurably slower. The described method can be universally applied in studying protein-nanostructure interactions for real-time fluorescence-based sensing.

Published

2018