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Dr Hasan Hayat


-    E. Gemo, S. G-C. Carrillo, J. Faneca, C. R. De Galaretta, H. Hayat, N. Youngblood, A. Baldycheva, W. H. P. Pernice, H. Bhaskaran and C. D. Wright, "Sub-wavelength plasmonic-enhanced phase change memory", SPIE Proceedings, 11289, Photonic and Phononic Properties of Engineered Nanostructures X, (2020).  

-    H. Hayat, T. Griffiths, D. Brennan, R. P. Lewis, M. Barclay, C. Weirman, B. Philip and J. R. Searle, "The State-of-the-Art of Sensors and Environmental Technologies in Buildings", Sensors, 19(17), 3648, (2019).

-    E. Gemo, S. G-C. Carrillo, C. R. De Galaretta, A. Baldycheva, H. Hayat, N. Youngblood, H. Bhaskaran, W. H. P. Pernice and C. D. Wright, “Plasmonically-enhanced all-optical integrated phase-change memory”, Optics Express, 27, 17, (2019).

-    M. S. Qayyum, H. Hayat, R. K. Matharu, T. A. Tabish and M. Edirisinghe, "Boron nitride nanoscrolls: Structure, synthesis and applications", Applied Physics Reviews, 6, 021310, (2019). 

-    T. A. Tabish, F. Memon, H. Hayat  and S. Zhang, "Adsorptive Remediation of Heavy Atoms Contaminated Water Using Graphene Oxide", Recent Patents on Materials Science, 11, 2, (2018).  

-   H. Hayat, K. Kohary and C. D. Wright, “The Scaling of Phase-Change Memory Materials and Devices” in Book 'Phase Change Memory: Device Physics, Reliability and Applications', Editor: Andrea Redaelli, pages 223-262, Springer, (2018).    doi: 10.1007/978-3-319-69053-7_8

-    T.A. Tabish, M.Z.I. Pranjol, F. Jabeen, T. Abdullah, A. Latif, A. Khalid, M. Ali, H. Hayat, P.G. Winyard, J.L. Whatmore and S. Zhang, "Investigation into the toxic effects of graphene nanopores on lung cancer cells and biological tissues", Applied Materials Today, 12 , pp.389-401, (2018).   

-   R. Cobley, H.Hayat and C. D. Wright, “A Self-Resetting Spiking Phase-Change Neuron”, Nanotechnology, 29, 19, (2018).  

-   T. A. Tabish, Z. Pranjol, H. Hayat, A. Rahat, T. M. Abdullah, J. Whatmore and S. Zhang, "In vitro toxic effects of reduced graphene oxide nanosheets on lung cancer cells", Nanotechnology, 28, 50, (2017). 

-   H. Hayat, K. Kohary and C. D. Wright, “Ultrahigh Storage Densities via the Scaling of Patterned Probe Phase-Change Memories”, IEEE Transactions on Nanotechnology, 16, 5 (2017).

-   H. Hayat, K. Kohary and C. D. Wright, “Can conventional phase-change memory devices be scaled down to single-nanometre dimensions?”, Nanotechnology, 28, 3, (2016).

-   S. G-C. Carrillo, G. R. Nash, H. Hayat, M. J. Cryan, M. Klemm, H. Bhaskaran and C. D. Wright, “Design of practicable phase-change metadevices for near infrared absorber and modulator applications”, Optics Express, 24, 12, (2016).

-   H. Hayat, K. Kohary and C. D. Wright, “Emerging Nanoscale Phase-Change Memories: A Summary of Device Scaling Studies”, Electronic Materials, 04144, Reference Module in Materials Science and Materials Engineering, Elsevier(2016).

-   H. Hayat, K. Kohary and C. D. Wright, “Size Scaling in Phase-Change Memory Cells: From Traditional to Emerging Device Structures”, European Phase Change and Ovonics Symposium (EPCOS), Cambridge, (2016).

-   R. Cobley, C. D. Wright and H.Hayat "A self-resetting phase-change neuron", European Phase Change and Ovonics Symposium (EPCOS), Cambridge, (2016).

-   H. Hayat, K. Kohary and C. D. Wright, “Simulation of Ultrahigh Storage Densities in Nanoscale Patterned Probe Phase-Change Memories”, IEEE Nanotechnology Materials and Devices Conference, Toulouse, (2016).

-   H. Hayat, K. Kohary and C. D. Wright, “A theoretical study of the scaling behaviour of mushroom PCRAM devices using the Gillespie Cellular Automata Approach”, European Phase Change and Ovonics Symposium (EPCOS), Amsterdam, (2015).