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Gabriele V.R.♦, Mazhabi R.M.♦, Alexander N.♦, Mukherjee P.♦, Seyfried T.N.♦, Nwaji N.♦, Akinoglu E.M.♦, Mackiewicz A.♦, Zhou G.♦, Giersig M., Naughton M.J.♦, Kempa K.♦, Light- and melanin nanoparticle-induced cytotoxicity in metastatic cancer cells,
Pharmaceutics, ISSN: 1999-4923, DOI: 10.3390/pharmaceutics13070965, Vol.13, No.7, pp.965-1-14, 2021Abstract: Melanin nanoparticles are known to be biologically benign to human cells for a wide range of concentrations in a high glucose culture nutrition. Here, we show cytotoxic behavior at high nanoparticle and low glucose concentrations, as well as at low nanoparticle concentration under exposure to (nonionizing) visible radiation. To study these effects in detail, we developed highly monodispersed melanin nanoparticles (both uncoated and glucose-coated). In order to study the effect of significant cellular uptake of these nanoparticles, we employed three cancer cell lines: VM-M3, A375 (derived from melanoma), and HeLa, all known to exhibit strong macrophagic character, i.e., strong nanoparticle uptake through phagocytic ingestion. Our main observations are: (i) metastatic VM-M3 cancer cells massively ingest melanin nanoparticles (mNPs); (ii) the observed ingestion is enhanced by coating mNPs with glucose; (iii) after a certain level of mNP ingestion, the metastatic cancer cells studied here are observed to die—glucose coating appears to slow that process; (iv) cells that accumulate mNPs are much more susceptible to killing by laser illumination than cells that do not accumulate mNPs; and (v) non-metastatic VM-NM1 cancer cells also studied in this work do not ingest the mNPs, and remain unaffected after receiving identical optical energy levels and doses. Results of this study could lead to the development of a therapy for control of metastatic stages of cancer. Keywords: melanoma, melanin nanoparticles, cytotoxicity, laser medical applications, hyperthermia Affiliations:
Gabriele V.R. | - | other affiliation | Mazhabi R.M. | - | South China Normal Universit (CN) | Alexander N. | - | other affiliation | Mukherjee P. | - | other affiliation | Seyfried T.N. | - | other affiliation | Nwaji N. | - | other affiliation | Akinoglu E.M. | - | University of Melbourne (AU) | Mackiewicz A. | - | other affiliation | Zhou G. | - | South China Normal Universit (CN) | Giersig M. | - | IPPT PAN | Naughton M.J. | - | other affiliation | Kempa K. | - | other affiliation |
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Akinoglu E.M.♦, Luo L.♦, Dodge T.♦, Guo L.♦, Akinoglu G.E.♦, Wang X.♦, Shui L.♦, Zhou G.♦, Naughton M.J.♦, Kempa K.♦, Giersig M., Extraordinary optical transmission in nano-bridged plasmonic arrays mimicking a stable weakly-connected percolation threshold,
OPTICS EXPRESS, ISSN: 1094-4087, DOI: 10.1364/OE.403034, Vol.28, No.21, pp.31425-31435, 2020Abstract: Ultrasensitive sensors of various physical properties can be based on percolation systems, e.g., insulating media filled with nearly touching conducting particles. Such a system at its percolation threshold featuring the critical particle concentration, changes drastically its response (electrical conduction, light transmission, etc.) when subjected to an external stimulus. Due to the critical nature of this threshold, a given state at the threshold is typically very unstable. However, stability can be restored without significantly sacrificing the structure sensitivity by forming weak connections between the conducting particles. In this work, we employed nano-bridged nanosphere lithography to produce such a weakly connected percolation system. It consists of two coupled quasi-Babinet complementary arrays, one with weakly connected, and the other with disconnected metallic islands. We demonstrate via experiment and simulation that the physics of this plasmonic system is non-trivial, and leads to the extraordinary optical transmission at narrowly defined peaks sensitive to system parameters, with surface plasmons mediating this process. Thus, our system is a potential candidate for percolation effect based sensor applications. Promising detection schemes could be based on these effects. Affiliations:
Akinoglu E.M. | - | University of Melbourne (AU) | Luo L. | - | other affiliation | Dodge T. | - | other affiliation | Guo L. | - | South China Normal Universit (CN) | Akinoglu G.E. | - | other affiliation | Wang X. | - | other affiliation | Shui L. | - | South China Normal Universit (CN) | Zhou G. | - | South China Normal Universit (CN) | Naughton M.J. | - | other affiliation | Kempa K. | - | other affiliation | Giersig M. | - | IPPT PAN |
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Gabriele V.R.♦, Shvonski A.♦, Hoffman C.S.♦, Giersig M., Herczyński A.♦, Naughton M.J.♦, Kempa K.♦, Towards spectrally selective catastrophic response,
PHYSICAL REVIEW E, ISSN: 2470-0045, DOI: 10.1103/PhysRevE.101.062415, Vol.101, pp.062415-1-6, 2020Abstract: We study the large-amplitude response of classical molecules to electromagnetic radiation, showing the universality of the transition from linear to nonlinear response and breakup at sufficiently large amplitudes. We demonstrate that a range of models, from the simple harmonic oscillator to the successful Peyrard-Bishop-Dauxois type models of DNA, which include realistic effects of the environment (including damping and dephasing due to thermal fluctuations), lead to characteristic universal behavior: formation of domains of dissociation in driving force amplitude-frequency space, characterized by the presence of local boundary minima. We demonstrate that by simply following the progression of the resonance maxima in this space, while gradually increasing intensity of the radiation, one must necessarily arrive at one of these minima, i.e., a point where the ultrahigh spectral selectivity is retained. We show that this universal property, applicable to other oscillatory systems, is a consequence of the fact that these models belong to the fold catastrophe universality class of Thom's catastrophe theory. This in turn implies that for most biostructures, including DNA, high spectral sensitivity near the onset of the denaturation processes can be expected. Such spectrally selective molecular denaturation could find important applications in biology and medicine. Affiliations:
Gabriele V.R. | - | other affiliation | Shvonski A. | - | other affiliation | Hoffman C.S. | - | other affiliation | Giersig M. | - | IPPT PAN | Herczyński A. | - | other affiliation | Naughton M.J. | - | other affiliation | Kempa K. | - | other affiliation |
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Luo L.♦, Akinoglu E.M.♦, Wu W.♦, Dodge T.♦, Wang X.♦, Zhou G.♦, Naughton M.J.♦, Kempa K.♦, Giersig M., Nano-bridged nanosphere lithography,
NANOTECHNOLOGY, ISSN: 0957-4484, DOI: 10.1088/1361-6528/ab7c4c, Vol.31, pp.245302-1-6, 2020Abstract: We develop nano-bridged nanosphere lithography (NB-NSL), a modification to the widely used conventional nanosphere lithography (NSL). Nano-bridges between polystyrene (PS) spheres of a pristine NSL template are controllably formed in a two-step process: (i) spin-coating of a dilute styrene solution on top of the template, followed by (ii) oxygen plasma etching of the template. We show that the nanobridge dimensions can be precisely tuned by controlling the pre-processing conditions and the plasma etching time. The resulting lithography templates feature control over the shape and size of the apertures, which determine the morphology of the final nano-island arrays after material deposition and template removal. The unique advantage of NB-NSL is that PS particle templates based on a single PS particle diameter can be utilized for the fabrication of a variation of nano-island shapes and sizes, whereas conventional NSL yields only bowtie-shaped nano-islands, with their size being predetermined by the PS particle diameter of the template. Keywords: nanofabrication, nanosphere lithography, colloid lithography Affiliations:
Luo L. | - | other affiliation | Akinoglu E.M. | - | University of Melbourne (AU) | Wu W. | - | other affiliation | Dodge T. | - | other affiliation | Wang X. | - | other affiliation | Zhou G. | - | South China Normal Universit (CN) | Naughton M.J. | - | other affiliation | Kempa K. | - | other affiliation | Giersig M. | - | IPPT PAN |
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Feng K.♦, Akinoglu E.M.♦, Bozheyev F.♦, Guo L.♦, Jin M.♦, Wang X.♦, Zhou G.♦, Naughton M.J.♦, Giersig M., Magnetron sputtered copper bismuth oxide photocathodes for solar water reduction,
JOURNAL OF PHYSICS D-APPLIED PHYSICS, ISSN: 0022-3727, DOI: 10.1088/1361-6463/abaf25, Vol.53, pp.495501-1-11, 2020Abstract: There is an urgent need for new materials that can catalyze or drive the photoelectrochemical (PEC) conversion of solar energy into chemical energy, i.e. solar fuels. Copper bismuth oxide (CBO) is a promising photocathode material for the photochemical reduction of water. Here, we systematically control the stoichiometry of CBO thin films prepared by reactive, direct-current magnetron co-sputtering from metallic Bi and Cu targets. The intrinsic photophysical and PEC material properties are investigated and evaluated in order to determine the optimum composition for hydrogen formation. Changing the stoichiometry of the films reveals a dramatic change in the optical band gap and crystal structure of CBO. The largest photocurrent density was achieved for a copper-to-bismuth ion ratio of 0.53, close to the CuBi2O4 stoichiometry, which yielded Jph = − 0.48 mA cm^−2 at 0 VRHE (RHE = reversible hydrogen electrode). This is the highest value to date for the photochemical reduction of water with CuBi2O4 without an externally applied bias. The absorbed photon-to-current efficiency and the photostability of the films in neutral and alkaline electrolytes were also investigated. Keywords: CuBi2O4, copper bismuth oxide, water reduction, water splitting, photocathode, magnetron sputtering Affiliations:
Feng K. | - | other affiliation | Akinoglu E.M. | - | University of Melbourne (AU) | Bozheyev F. | - | other affiliation | Guo L. | - | South China Normal Universit (CN) | Jin M. | - | South China Normal Universit (CN) | Wang X. | - | other affiliation | Zhou G. | - | South China Normal Universit (CN) | Naughton M.J. | - | other affiliation | Giersig M. | - | IPPT PAN |
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