Your search keyword '"Pikramenou, Zoe"' showing total 6 results

1. Near infra-red luminescent osmium labelled gold nanoparticles for cellular imaging and singlet oxygen generation.

Author

Watson LS, Hughes J, Rafik ST, Muguruza AR, Girio PM, Akponasa SO, Rochford G, MacRobert AJ, Hodges NJ, Yaghini E, and Pikramenou Z

Subjects

Humans, Cell Line, Tumor, A549 Cells, Breast Neoplasms diagnostic imaging, Breast Neoplasms metabolism, Gold chemistry, Metal Nanoparticles chemistry, Osmium chemistry, Singlet Oxygen metabolism, Singlet Oxygen chemistry

Abstract

Osmium(II) complexes have attractive properties for potential theranostic agents given their anticancer activitiy, their redox potentials favourable for biological transformations within cancer cells and their luminescence in the near infrared (NIR) region. To achieve localised detection and delivery, gold nanoparticles (AuNP) provide an attractive scaffold to attach multiple luminescent agents on a single particle and provide a multimodal platform for detection and loaclaised delivery. We have developed 13 nm and 25 nm AuNP decorated with an osmium complex based on 1,10-phenantholine and surface active bipyridine ligands, OsPhenSS for live cell imaging and singlet oxygen generation, notated as OsPhenSS·AuNP13 and OsPhenSS·AuNP25. The AuNP designs not only allow versatile modalities for localisation of the probe but also water solubility for the osmium metal complex. The osmium decorated nanoparticles OsPhenSS·AuNP13 and OsPhenSS·AuNP25 display characteristic NIR luminescence from the osmium(II) 3 MLCT at 785 nm in aqueous solutions with visible excitation. Upon incubation of the nanoparticles in lung cancer and breast carcinoma the luminescence signature of osmium and the gold reflectance reveal localisation in the cytoplasmic and perinuclear compartments. Excitation of the nanoparticles at 552 nm in the presence of a ROS indicator revealed a marked increase in the green fluorescence from the indicator, consistent with photo-induced ROS generation. The detection of singlet oxygen by time-resolved luminescence studies of the osmium and the nanoparticle probes further demonstrates the dual activity of the osmium-based nanoprobes for imaging and therapy. The introduction of gold nanoparticles for carrying osmium imaging probes allows a novel versatile strategy combining detection and localised therapies at the nanoscale.

Published

2024

2. Luminescent gold surfaces for sensing and imaging: patterning of transition metal probes.

Author

Adams SJ, Lewis DJ, Preece JA, and Pikramenou Z

Subjects

Animals, Cattle, Gold chemistry, Luminescent Measurements methods, Serum Albumin, Bovine analysis, Surface Plasmon Resonance methods, Transition Elements chemistry

Abstract

Luminescent transition metal complexes are introduced for the microcontact printing of optoelectronic devices. Novel ruthenium(II), RubpySS, osmium(II), OsbpySS, and cyclometalated iridium(III), IrbpySS, bipyridyl complexes with long spacers between the surface-active groups and the metal were developed to reduce the distance-dependent, nonradiative quenching pathways by the gold surface. Indeed, surface-immobilized RubpySS and IrbpySS display strong red and green luminescence, respectively, on planar gold surfaces with luminescence lifetimes of 210 ns (RubpySS·Au) and 130 and 12 ns (83%, 17%) (IrbpySS·Au). The modified surfaces show enhancement of their luminescence lifetime in comparison with solutions of the respective metal complexes, supporting the strong luminescence signal observed and introducing them as ideal inorganic probes for imaging applications. Through the technique of microcontact printing, complexes were assembled in patterns defined by the stamp. Images of the red and green patterns rendered by the RubpySS·Au and IrbpySS·Au monolayers were revealed by luminescence microscopy studies. The potential of the luminescent surfaces to respond to biomolecular recognition events is demonstrated by addition of the dominant blood-pool protein, bovine serum albumin (BSA). Upon treatment of the surface with a BSA solution, the RubpySS·Au and IrbpySS·Au monolayers display a large luminescence signal increase, which can be quantified by time-resolved measurements. The interaction of BSA was also demonstrated by surface plasmon resonance (SPR) studies of the surfaces and in solution by circular dichroism spectroscopy (CD). Overall, the assembly of arrays of designed coordination complexes using a simple and direct μ-contact printing method is demonstrated in this study and represents a general route toward the manufacture of micropatterned optoelectronic devices designed for sensing applications.

Published

2014

3. High coating of Ru(II) complexes on gold nanoparticles for single particle luminescence imaging in cells.

Author

Rogers NJ, Claire S, Harris RM, Farabi S, Zikeli G, Styles IB, Hodges NJ, and Pikramenou Z

Subjects

Cell Line, Tumor, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Humans, Microscopy, Confocal, Particle Size, Coordination Complexes metabolism, Gold chemistry, Metal Nanoparticles chemistry, Ruthenium chemistry

Abstract

Gold nanoparticles are efficiently labelled with a luminescent ruthenium complex, producing 13 and 100 nm diameter, monodisperse red-emissive imaging probes with luminescence lifetimes prolonged over the molecular unit. Single, 100 nm particles are observed in whole cell luminescence imaging which reveals their biomolecular association with chromatin in the nucleus of cancer cells.

Published

2014

4. Peptide coated gold nanoparticles that bind lanthanide ions.

Author

Savage AC and Pikramenou Z

Subjects

Europium chemistry, Ions chemistry, Protein Binding, Spectrophotometry, Ultraviolet, Gold chemistry, Lanthanoid Series Elements chemistry, Metal Nanoparticles chemistry, Peptides chemistry

Abstract

Water soluble gold nanoparticles are coated with peptides bearing a dithiol surface active group for studies of lanthanide binding; characteristic red luminescence is observed upon europium binding to the nanoparticles., (This journal is © The Royal Society of Chemistry 2011)

Published

2011

5. Luminescent nanobeads: attachment of surface reactive Eu(III) complexes to gold nanoparticles.

Author

Lewis DJ, Day TM, MacPherson JV, and Pikramenou Z

Subjects

Microscopy, Electron, Transmission, Molecular Structure, Europium chemistry, Gold chemistry, Luminescence, Nanoparticles chemistry

Abstract

Gold nanoparticles were used as a scaffold to assemble multiple tailor-made europium(III) complexes yielding water-soluble gold nanoparticles that display red, Eu(III), luminescence.

Published

2006

6. Electronic transport between Au surface and scanning tunnelling microscope tip via a multipodal cyclodextrin host-metallo-guest supramolecular system.

Author

Kyllönen, Lasse E. P., Chinuswamy, Viswanathan, Maffeo, Davide, Kefalas, Evangelos T., Haider, Johanna M., Pikramenou, Zoe, Mavridis, Irene M., Yannakopoulou, Konstantina, and Glezos, Nikos

Subjects

GOLD, SURFACE chemistry, ELECTRON transport, SUPRAMOLECULAR chemistry, CYCLODEXTRINS, ELECTRIC conductivity, ENERGY levels (Quantum mechanics), FUNCTIONAL analysis

Abstract

An elementary supramolecular conducting system was constructed using a novel (±)-thioctic acid-functionalized β-cyclodextrin host deposited on a gold (Au) surface and an iridium-bearing guest molecule with biphenyl tails to insert specifically into the cyclodextrin cavity. The resulting supramolecular system was used to investigate remote electron communication between the flat Au surface and the platinum (Pt)/iridium (Ir) tip of a scanning tunnelling microscope. The morphology of the surfaces after successive deposition of host molecules followed by guest molecules was investigated. Formation of features of 2 nm size was shown on the Au surface functionalised with the supramolecular system. I-V spectroscopic analysis of the tunnelling current through this supramolecular layer revealed the relation between the effective barrier height and tunnelling distance. Thus, in the supramolecular host-metallo-guest system, a small increase of conductance is observed, compared to the layer without the guest. This can be attributed to the presence of the Ir-guest, which eventually creates intermediate energy states between the Au substrate and the Pt/Ir tip. Copyright © 2011 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2012