Lyudmila Turyanska

Contact

• workRoom B229 Physics
  University Park
  Nottingham
  NG7 2RD
  UK
• work0115 951 5151 18336
• fax0115 951 5180
• lyudmila.turyanska@nottingham.ac.uk

Research Summary

The research programme is based on self-assembled and colloidal quantum dots (QDs). This is an interdisciplinary project between physics and chemistry and offers prospects for applications in life… read more

Recent Publications

• TURYANSKA, L., ELFURAWI, U., LI, M., FAY, M. W., THOMAS, N. R., MANN, S., BLOKLAND, J. H., CHRISTIANEN, P. C. M. and PATANE, A., 2009. Tailoring the physical properties of thiol-capped PbS quantum dots by thermal annealing Nanotechnology. 20(31), 315604 (5 pages)
• TURYANSKA, L., BRADSHAW, T. D., SHARPE, J., LI, M., MANN, S., THOMAS, N. R. and PATANE, A., 2009. The Biocompatibility of Apoferritin-Encapsulated PbS Quantum Dots Small. 5(15), 1738-1741
• HENNEQUIN, B., TURYANSKA, L., BEN, T., BELTRAN, A. M., MOLINA, S. I., LI, M., MANN, S., PATANE, A. and THOMAS, N. R., 2008. Aqueous Near-Infrared Fluorescent Composites Based on Apoferritin-Encapsulated PbS Quantum Dots Advanced Materials. 20(19), 3592-3596
• TURYANSKA, A., PATANE, A., HENINI, M., HENNEQUIN, B. and THOMAS, N.R., 2007. Temperature dependence of the photoluminescence emission from thiol-capped PbS quantum dots Applied Physics Letters. 90, 101913-101915

• View all publications

Current Research

The research programme is based on self-assembled and colloidal quantum dots (QDs). This is an interdisciplinary project between physics and chemistry and offers prospects for applications in life sciences. An understanding of how to control and exploit the unique properties of zero-dimensional structures for novel devices and applications. I work on synthesis of colloidal QDs and study the properties and prospect for use for both self-assembled and colloidal QDs.

Past Research

The aim of my PhD work was to investigate the influence of different conditions on the electrical and optical properties of bulk II-VI (CdTe-based) materials: high- (up to 1200 ⁰C) and low- (down to 77 K) temperature DC and AC Hall-effect and conductivity measurements; high-temperature transport measurements at different partial pressure. I was involved in all stages of the bulk semiconductors characterisation: sample processing, set-up construction and measurements.

• TURYANSKA, L., ELFURAWI, U., LI, M., FAY, M. W., THOMAS, N. R., MANN, S., BLOKLAND, J. H., CHRISTIANEN, P. C. M. and PATANE, A., 2009. Tailoring the physical properties of thiol-capped PbS quantum dots by thermal annealing Nanotechnology. 20(31), 315604 (5 pages)
• TURYANSKA, L., BRADSHAW, T. D., SHARPE, J., LI, M., MANN, S., THOMAS, N. R. and PATANE, A., 2009. The Biocompatibility of Apoferritin-Encapsulated PbS Quantum Dots Small. 5(15), 1738-1741
• HENNEQUIN, B., TURYANSKA, L., BEN, T., BELTRAN, A. M., MOLINA, S. I., LI, M., MANN, S., PATANE, A. and THOMAS, N. R., 2008. Aqueous Near-Infrared Fluorescent Composites Based on Apoferritin-Encapsulated PbS Quantum Dots Advanced Materials. 20(19), 3592-3596
• TURYANSKA, A., PATANE, A., HENINI, M., HENNEQUIN, B. and THOMAS, N.R., 2007. Temperature dependence of the photoluminescence emission from thiol-capped PbS quantum dots Applied Physics Letters. 90, 101913-101915
• BAUMGARTNER, A., TURYANSKA, L., CHAGGAR, A., PATANE, A., EAVES, L. and HENINI, M., 2007. Sharp electroluminescence lines excited by tunneling injection into a large ensemble of quantum dots Physics of Semiconductors, Pts A and B: Proceedings of ICPS-28. 893, 759-760
• HENINI, M., IBANEZ, J., SCHMIDBAUER, M., SHAFI, M., NOVIKOV, S.V., TURYANSKA, L., MOLINA, S.I., SALES, D.L., CHISHOLM, M.F. and MISIEWICZ, J., 2007. Molecular beam epitaxy of GaBiAs on (311)B GaAs substrates (3 pages) APPLIED PHYSICS LETTERS. VOL 91(NUMB 25), 251909
• TURYANSKA, L., BAUMGARTNER, A., CHAGGAR, A., PATANE, A., EAVES, L. and HENINI, M., 2006. Sharp-line electroluminescence from individual quantum dots by resonant tunneling injection of carriers (3 pages) Applied Physics Letters. VOL 89(NUMB 9), 092106
• MOROZOVA, E. N., MAKAROVSKII, O. N., VOLKOV, V. A., DUBROVSKII, Y. V., TURYANSKA, L., VDOVIN, E. E., PATANE, A., EAVES, L. and HENINI, M., 2005. The Resonant Tunneling of Holes through Double-Barrier Structures with InAs QDs at the Center of a GaAs Quantum Well Semiconductors. VOL 39(NUMB 5), 543-546
• MAKAROVSKY, O., NEUMANN, A., MARTIN, A. M., TURYANSKA, L., PATANE, A., EAVES, L., HENINI, M., MAIN, P. C., THOMS, S. and WILKINSON, C. D. W., 2003. Nonlinear hole transport through a submicron-size channel Applied Physics Letters. VOL 82(PART 6), 925-927