Dr Iasmi Sterianou MEng, PhD, FHEA
Senior Lecturer in Materials Engineering
Summary
Dr. Iasmi Sterianou joined 香蕉视频 in 2013 as a Lecturer in Materials Engineering and became a Senior Lecturer in 2016. Her main research expertise is the development of novel functional materials. Iasmi teaches on a number of topics in Materials Engineering and Chemical Engineering courses and is the Course Leader for the FdEng/BEng (Top-up) Materials Engineering courses since 2016.
About
Iasmi received her MEng in Chemical Engineering from the Aristotle University of Thessaloniki, Greece, in 2003, after completing her dissertation on Molecular Beam Epitaxy and its Application on High-Temperature Superconductors. She then did research on bismuth-based perovskites for high temperature piezoelectric applications and received her PhD in Engineering Materials from the University of Sheffield in 2008. Upon completing her PhD, she became a Postdoctoral 香蕉视频 Associate at the University of Sheffield working in advanced functional oxides.
Iasmi joined 香蕉视频 in 2013 as a Lecturer in Materials Engineering and became a Senior Lecturer in 2016. She is the Course Leader for the FdEng and BEng (Top-up) Materials Engineering courses since 2016 and teaches on a number of topics in Materials Engineering and Chemical Engineering courses.
Iasmi has published more than 25 papers in international journals, has delivered several conference presentations and is a reviewer for many journals in her field. She is a member of the Institute of Materials, Minerals and Mining (IOM3) and a Fellow of the Higher Education Academy.
Specialist areas of interest
The focus of Iasmi's research is the synthesis and characterization of novel materials used in the manufacture of electrical and electronic components such as capacitors, microwave resonators for wireless communication devices, and actuators for automotive and medical applications. The areas of her research interests include
- Piezoelectrics (lead free and high-temperature)
- Multiferroics (Rare-earth doped bismuth ferrite)
- Low sintering temperature microwave dielectrics
- Electrophoretic deposition of functional ceramics
Teaching
Department of Engineering and Mathematics
College of Business, Technology and Engineering
Department of Engineering and Mathematics
Science, Technology and Arts
Modules:
Fundamentals of Materials and Manufacturing (Lvl 3)
Materials Science (Lvl 4)
Engineering Materials (Lvl 4)
Chemical and Thermodynamic Properties of Materials (Lvl 5)
Composite Materials (Lvl 6)
香蕉视频
The focus of Iasmi's research is the synthesis and characterization of novel materials used in the manufacture of electrical and electronic components such as capacitors, microwave resonators for wireless communication devices, and actuators for automotive and medical applications. The areas of her research interests include:
Piezoelectrics (lead free and high-temperature)
Multiferroics (Rare-earth doped bismuth ferrite)
Low sintering temperature microwave dielectrics
Electrophoretic deposition of functional ceramics
During her time as a Postdoctoral 香蕉视频 Associate at the University of Sheffield, Iasmi has collaborated with Prof. Paula Vilarinho from the Department of Ceramics and Glass Engineering, Universidade de Aveiro, Portugal on electrophoretic deposition of microwave dielectrics.
She has also been a Visiting 香蕉视频er at the Institute of Materials Science, Technische Universität Darmstadt, Germany, where she did research on high temperature ferroelectric and piezoelectric response of ceramics and prototype actuators, in collaboration with Prof. Jürgen Rödel.
During her time as a Postdoctoral 香蕉视频 Associate at the University of Sheffield, Iasmi has collaborated with Prof. Paula Vilarinho from the Department of Ceramics and Glass Engineering, Universidade de Aveiro, Portugal on electrophoretic deposition of microwave dielectrics. J. Eur. Ceram. Soc., 32: 4319-4326 (2012)
She has also been a Visiting 香蕉视频er at the Institute of Materials Science, Technische Universit盲t Darmstadt, Germany, where she did research on high temperature ferroelectric and piezoelectric response of ceramics and prototype actuators, in collaboration with Prof. J眉rgen R枚del. J Electroceram., 28:95-100 (2012)
Publications
Journal articles
Pascual鈥怗onzalez, C., Elicker, C., Moreira, M.L., Cava, S., Sterianou, I., Wang, D., & Feteira, A. (2022). . Journal of the American Ceramic Society.
Muhammed, K., Scrimshire, A., Sterianou, I., Bell, A., & Bingham, P. (2020). . Journal of the Australian Ceramic Society, 56 (4), 1441-1449.
Hussain, F., Sterianou, I., Khesro, A., Sinclair, D.C., & Reaney, I.M. (2018). . Journal of the European Ceramic Society, 38 (9), 3118-3226.
Scrimshire, A., Lobera, A., Bell, A., Jones, H., Sterianou, I., & Bingham, P. (2018). . Journal of Physics: Condensed Matter, 30 (10).
Pascual-Gonzalez, C., Schileo, G., Khesro, A., Sterianou, I., Wang, D., Reaney, I., & Feteira, A. (2017). . Journal of Materials Chemistry C, 5 (8), 1990-1996.
Khesro, A., Boston, R., Sterianou, I., Sinclair, D.C., & Reaney, I.M. (2016). . Journal of Applied Physics, 119 (5), 054101.
Cumming, D.J., Sebastian, T., Sterianou, I., R枚del, J., & Reaney, I.M. (2013). Bi(Me)O3鈥扬产罢颈翱3highTCpiezoelectric multilayers. Materials Technology, 28 (5), 247-253.
MacLaren, I., Wang, L., Morris, O., Craven, A.J., Stamps, R.L., Schaffer, B., ... Reaney, I.M. (2013). Local stabilisation of polar order at charged antiphase boundaries in antiferroelectric (Bi0.85Nd0.15)(Ti0.1Fe0.9)O3. APL MATERIALS, 1 (2).
Bennett, J., Bell, A.J., Stevenson, T.J., Smith, R.I., Sterianou, I., Reaney, I.M., & Comyn, T.P. (2013). Multiferroic properties of BiFeO3-(K0.5Bi0.5)TiO3 ceramics. Materials Letters, 94, 172-175.
Kalantari, K., Sterianou, I., Sinclair, D.C., Bingham, P., Pokorny虂, J., & Reaney, I.M. (2012). . Journal of Applied Physics, 111 (6), 064107.
Vilarinho, P.M., Mahajan, A., Sterianou, I., & Reaney, I.M. (2012). Layered composite thick films for dielectric applications. Journal of the European Ceramic Society, 32 (16), 4319-4326.
Chen, X., Zhang, W., Zalinska, B., Sterianou, I., Bai, S., & Reaney, I.M. (2012). Low Sintering Temperature Microwave Dielectric Ceramics and Composites Based on
Sebastian, T., Sterianou, I., Reaney, I.M., Leist, T., Jo, W., & R枚del, J. (2012). Piezoelectric activity of (1-x)[0.35Bi(Mg1/2Ti1/2)O3-0.3BiFeO3-0.35BiScO3] - xPbTiO3 ceramics as a function of temperature. Journal of Electroceramics, 28 (2-3), 95-100.
Reaney, I.M., MacLaren, I., Wang, L., Schaffer, B., Craven, A., Kalantari, K., ... Sinclair, D.C. (2012). Defect chemistry of Ti-doped antiferroelectric Bi0.85Nd0.15FeO3. Applied Physics Letters, 100 (18).
Khan, H.U., Sterianou, I., Miao, S., Pokorny, J., & Reaney, I.M. (2012). The effect of Li-substitution on the M-phases of AgNbO3. Journal of Applied Physics, 111 (2).
Kalantari, K., Sterianou, I., Karimi, S., Ferrarelli, M.C., Miao, S., Sinclair, D.C., & Reaney, I.M. (2011). . Advanced Functional Materials, 21 (19), 3737-3743.
Mirsaneh, M., Reaney, I.M., Han, Y., Sterianou, I., & Leisten, O.P. (2011). Low sintering temperature high permittivity glass ceramic composites for dielectric loaded microwave antennas. Advances in Applied Ceramics, 110 (7), 387-393.
Yan, F., Miao, S., Sterianou, I., Reaney, I.M., Lai, M.O., Lu, L., & Song, W.D. (2011). Multiferroic properties and temperature-dependent leakage mechanism of Sc-substituted bismuth ferrite鈥搇ead titanate thin films. Scripta Materialia, 64 (5), 458-461.
Sebastian, T., Sterianou, I., Sinclair, D.C., Bell, A.J., Hall, D.A., & Reaney, I.M. (2010). High temperature piezoelectric ceramics in the Bi(Mg1/2Ti1/2)O3-BiFeO3-BiScO3-PbTiO3 system. Journal of Electroceramics, 25 (2-4), 130-134.
Khan, H.U., Sterianou, I., Han, Y., Pokorny, J., & Reaney, I.M. (2010). Phase transitions in LixAg1鈭抶(Nb0.5Ta0.5)O3 solid solutions. Journal of Applied Physics, 108 (6).
Abdel Aziz, D.A., Sterianou, I., & Reaney, I.M. (2009). (1聽鈭捖爔)CaTiO3鈥搙(Li0.5Nd0.5)TiO3 for ultra-small dielectrically loaded antennas. Journal of Materials Science, 44 (23), 6247-6250.
Sterianou, I., Sinclair, D.C., Reaney, I.M., Comyn, T.P., & Bell, A.J. (2009). Investigation of high Curie temperature (1鈭抶)BiSc1鈭抷FeyO3鈥搙PbTiO3 piezoelectric ceramics. Journal of Applied Physics, 106 (8).
Karimi, S., Reaney, I.M., Han, Y., Pokorny, J., & Sterianou, I. (2009). Crystal chemistry and domain structure of rare-earth doped BiFeO3 ceramics. Journal of Materials Science, 44 (19), 5102-5112.
Yan, F., Sterianou, I., Miao, S., Reaney, I.M., Lai, M.O., & Lu, L. (2009). Magnetic, ferroelectric, and dielectric properties of Bi(Sc0.5Fe0.5)O3鈥扬产罢颈翱3 thin films. Journal of Applied Physics, 105 (7).
Karimi, S., Reaney, I.M., Levin, I., & Sterianou, I. (2009). Nd-doped BiFeO3 ceramics with antipolar order. Applied Physics Letters, 94 (11).
Bridges, C.A., Allix, M., Suchomel, M.R., Kuang, X., Sterianou, I., Sinclair, D.C., & Rosseinsky, M.J. (2007). A pure bismuth a site polar perovskite synthesized at ambient pressure. Angewandte Chemie (International ed. in English), 46 (46), 8785-8789.
Sterianou, I., Reaney, I.M., Sinclair, D.C., Woodward, D.I., Hall, D.A., Bell, A.J., & Comyn, T.P. (2005). High-temperature (1鈭抶)BiSc1鈭2Fe1鈭2O3-xPbTiO3 piezoelectric ceramics. Applied Physics Letters, 87 (24).
Conference papers
Coulbeck, T.S.V., Hammond, I.P.G., Gooding, C.J., Wither, J.K., Sterianou, I., Soulioti, D., & Kordatos, E.Z. (2020). Development of self-sensing cementitious materials. Smart Structures and NDE for Industry 4.0, Smart Cities, and Energy Systems, 49.
Pascual-Gonzalez, C., Sterianou, I., & Feteira, A. (2017). . In George, T., Dutta, A.K., & Islam, M.S. (Eds.) Micro- and Nanotechnology Sensors, Systems, and Applications IX 2017, Anaheim; United States, (pp. 1019430). SPIE Publications:
Yan, F., Sterianou, I., Miao, S., Reaney, I.M., Lai, M.O., & Lu, L. (2010). Multiferroic properties of Bi(Fe0.5Sc0.5)O3鈥扬产罢颈翱3thin films. Physica Scripta, T139, 014003.
Theses / Dissertations
Pascual-Gonzalez, C. (2017). . (Doctoral thesis). Supervised by Feteira, A., & Sterianou, I.