Prof Antonio Feteira
Professor
- Department of Engineering and Mathematics
- Materials and Engineering 香蕉视频 Institute
- Materials and Engineering 香蕉视频 Institute
- Industry and Innovation 香蕉视频 Institute
Summary
Professor Feteira's primary area of research is in advanced functional oxides for electronic, energy and biomedical applications. He has authored around 100 articles in those areas, which accrued more than 3500 citations and he also holds an h-index of 34.
About
PREVIOUS EMPLOYMENT and PROFESSIONAL EXPERIENCE
2015-2017 Science Without Borders Senior Visiting Fellow in the Department of Materials at The State University of Ponta Grossa (Brazil) and Federal University of Rio Grande do Sul-UFRGS (Brazil).
2013 Academic Lead for the Science Without Borders Programme at 香蕉视频.
2012/15 Senior Lecturer in Materials Engineering at 香蕉视频.
2010/14 Director of Christian Doppler Laboratory for Multiferroics. (香蕉视频 consortium between U. of Birmingham/香蕉视频, TUGraz and TUWien in collaboration with TDK Corporation).
2010/13 Advanced Visiting 香蕉视频 Fellow in the Department of Engineering at the Uni. of Sheffield.
2009/14 Visiting 香蕉视频 Fellow in the Department of Physics at the University of Warwick.
2009/11 Senior 香蕉视频 Fellow/Lecturer in the School of Chemistry at the University of Birmingham.
2008/09 Materials Development Engineer in the Corporate Materials and 香蕉视频 Development Department TDK/EPCOS and Senior Post Doc (secondment from TDK) at TUGraz.
2008/09 Visiting Lecturer in Advanced Ceramics in the Dep. of Eng. Materials at the U. of Sheffield.
2004/07 Postdoctoral 香蕉视频 Associate in the Dep. of Engineering Materials at the U. of Sheffield.
2007 Marie Curie Visiting Fellow, in the Dep. of Chemistry at the Complutense University of Madrid.
2006 Visiting 香蕉视频 Scholar, in the Materials 香蕉视频 Institute at Penn State University (USA).
2004 Visiting 香蕉视频 Associate, in the Materials 香蕉视频 Institute at Penn State University (USA).
2003 Microscospist, at Health and Safety Laboratory (UK), 4th December-15th January 2003.
2002 Marie Curie Training Fellow, at The Max Planck Institute (Germany), 1st Sept- 30th November.
2002 Adjunct 香蕉视频 Assistant, in the Materials 香蕉视频 Institute at Penn State University (USA), February. Characterisation of Frequency Agile Materials for Electronics (FAME). February-March.
Specialist areas of interest
Prof. Feteira's research focuses simultaneously on the establishment of composition-structure-property relationships in new advanced functional oxides, and on the fabrication of prototype devices via 3D integration of these materials. His work in this area has developed through a series of pure and applied projects, several of which have involved direct collaboration with industrial groups (TDK EPC, AVX Ltd, Morgan Electroceramics, Powerwave Ltd, Straumann). His latest research has focused on bandgap engineering of ferroelectrics for solar energy harvesting and environmentally friendly Pb-free piezoelectric actuators and energy storage devices. In the area of biomaterials he works on glass-ceramics for dental applications.
Teaching
Department of Engineering and Mathematics
College of Business, Technology and Engineering
MSc Advanced Engineering Materials
MSc Advanced Engineering Materials
Module Leader for
Materials Processing and Manufacture, Level 6
Microstructural Engineering of Materials, Level 6
Advanced Investigatory Techniques, Level 7
Teaching on
Advanced Metallic Materials, Level 7
香蕉视频
- Materials and Engineering 香蕉视频 Institute
- Materials and Engineering 香蕉视频 Institute , Industry and Innovation 香蕉视频 Institute
2014-2017 Funded by CNPq (Brazil) Grant number 401431/2014-2 Team: Prof. Feteira (SHU), Dr. Pianaro (State University of Ponta Grossa), Drs. Cava and Moreira (Federal University of Pelotas)
The geographical location of Brazil combined with its large Niobium and Iron reserves are the two main motivations for this project. First, Brazil is a country located mostly in the intertropical region. Values of global solar radiation incidence on any region of Brazil (4200-6700 kWh.m-2) are higher than in most European Union countries such as Germany (900-1250 kWh.m-2), France (900 -1650 kWh.m-2) and Spain (1200-1850 kWh.m-2), where projects focused on solar energy harvesting, some relying on strong government incentives, are widely disseminated. Hence, solar energy is one of the most promising sources of renewable, clean energy to replace the current dependence on fossil fuels. Nevertheless, to make solar energy viable, it is necessary to find inexpensive and non-toxic photovoltaic materials that can efficiently convert solar radiation into electricity. Crystalline silicon has long been the most widely employed photovoltaic material, with cells now achieving 25% efficiency. However, these cells are expensive to produce and operate - the unit cost of energy produced from a Si solar cell is nearly 4 times that of energy produced from fossil fuels. Conventional solid-state photovoltaics also suffer a limitation in that their maximal photovoltages are set by the relevant semiconductor electronic band gaps. These photovoltages, which are established at semi-conductor junctions, are used to separate the electron-hole pairs generated when light is first absorbed by the photovoltaic material. Optical band gaps of ferroelectrics can be tailored into the visible region while preserving their intrinsically high spontaneous polarisation, which then will enable their use in the fabrication of non-expensive, clean and efficient solar cells. Hence, the overall aim of this project is the establishment of the underlying mechanisms that control the band gap in KNbO3 ferroelectrics with robust polarisation. The proposed research is also guided by sustainability criteria in terms of the choice of non-toxic and non-expensive raw materials available in Brazil, and it combines ideas from defect chemistry in ferroelectrics, local distortions to the average crystal structure and their impact in orbital overlapping, size effects and domain wall dynamics. In summary, it is focused on the understanding of different parameters that may be employed in band gap engineering of ferroelectrics.
2015-2016 Photoferroelectric devices based on Potassium Niobate. Funded by CNPq (Brazil). PhD student Carolina Elicker.
Outputs:
Best student work by the American Chemical Society at Brazil MRS meeting 2017.
Best poster at MERI symposium
October 2014-October 2015 “Mechanical properties of glass ceramics for dental applications” Funded by CNPq (Brazil) PDRA: Dr. L. Lauro Lima
Every year millions of people seek dental treatment in order to either repair damaged, unaesthetic and dysfunctional teeth or to replace missing natural teeth. This treatment is driven by the simultaneous pursuit of rehabilitation of the oral functions and improvement of the oral aesthetics. Several dental materials have been developed to meet the stringent requirements in terms of mechanical properties (strength, fracture toughness and wear resistance), aesthetics (colour, translucency) and chemical durability in the oral environment. In addition, commercial prosthetic dental materials are also required to be compatible with computer aided design–computer aided manufacture (CAD/CAM) technology. Indeed, CAD/CAM technology is used in the fabrication of several dental prosthetic restorations such as inlays, onlays, veneers, crowns, fixed partial dentures and implant abutments. Such fabrication can take place either at the dentist’s chairside or away in a dental laboratory.
In this project the mechanical properties of lithium aluminodissilicate glass-ceramics will be evaluated and dental crowns will be manufactured.
Output: Successful manufacture of crowns suitable for application. Work presented the 7th World Congress on Biomechanics. 2 publication under preparation. A new PhD student join the group to further investigate LAS glasses.
2010-2014 International module of the Christian Doppler Lab on Advanced Ferroic oxides. Funded by Christian Doppler 香蕉视频 Association (Austria). PhD students: Giorgio Schileo and Luke Luisman
Outputs: 9 research articles, 6 conference talks
September 2010-August 2011 “Environmentally friendly Lead-free piezoelectric ceramics for current electronic applications and future energy harvesting technologies” Funded by The Royal Society.
Piezoelectric devices are mainly fabricated from ceramics based on Pb(Zr,Ti)O3, because this compound exhibits unrivalled large field-induced strains with little temperature dependence. Recent European legislation regulating the use of hazardous materials in electronic equipment has call for the substitution of Pb(Zr,Ti)O3-based devices by environmental friendly alternatives, as soon they become scientifically and technically practicable. Hence, Pb-free piezoceramics will replace Pb(Zr,Ti)O3-based ceramics, in applications such as pressure sensors, actuators, ultrasonic transducers. In collaboration with the Graz University of Technology, we reported a large field-induced strain in (Bi0.5Na0.5)TiO3-SrTiO3 based ceramics, which drops suddenly at 160°C due to depolarisation. Origins of this large strain and depolarisation are not understood yet; however they can be clarified by the characterisation of the intrinsic and extrinsic contributions to the strain.
REF 2014 Output: D Schütz, M Deluca, W Krauss, A Feteira, T Jackson, K Reichmann “Lone鈥Pair鈥Induced Covalency as the Cause of Temperature鈥and Field鈥Induced Instabilities in Bismuth Sodium Titanate”
Advanced Functional Materials 22 (11), 2285-2294 (2012)Collaborators
Professor Reaney and Professor Sinclair, University of Sheffield
Dr Tim Jackson and Dr Joe Hriljac, University of Birmingham
Professor Michael Lanagan, Penn State University
Dr Klaus Reichmann, TUGRAZ
Dr Changrong Zhou, Guilin University
Institute of Materials of Madrid
Professor Liliana Mitoseriu, A I Cuza University
Dr Sergio Cava, University of Pelotas
Professor Roberto Moreira, Federal University of Minas Gerais
Sponsors
CNPq (Brazil)
Straumann AG
Christian Doppler 香蕉视频 Association
Royal Society
TDK EPC
The Royal Academy of Engineering
Publications
Journal articles
Carroll, E.L., Killeen, J.H., Feteira, A., Dean, J.S., & Sinclair, D.C. (2025). Editor corrections to 鈥淚nfluence of electrode contact arrangements on polarisation-electric field measurements of ferroelectric ceramics: A case study of BaTiO3鈥 [J Materiomics 11 (2025) 100939]. Journal of Materiomics, 11 (4), 101030.
Al-Aaraji, M.N., Wang, B., Feteira, A., & Hall, D.A. (2025). . Materials, 18 (3).
Fan, Y., Wang, X., Li, H., Feteira, A., Wang, D., Wang, G., ... Reaney, I.M. (2023). . Applied Physics Letters, 122 (14).
Wang, X., Fan, Y., Zhang, B., Mostaed, A., Li, L., Feteira, A., ... Reaney, I.M. (2022). . Journal of the European Ceramic Society, 42 (15), 7381-7387.
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.
Kong, J., Nayak, S.K., Co, K., Nayak, S., Wu, J., Feteira, A., ... Pramanick, A. (2021). . Physical Review B, 104 (22).
Lu, Z., Wang, G., Li, L., Huang, Y., Feteira, A., Bao, W., ... Reaney, I.M. (2021). . Materials Today Physics, 19.
Wang, G., Lu, Z., Li, Y., Li, L., Ji, H., Feteira, A., ... Reaney, I.M. (2021). . Chemical Reviews, 121 (10), 6124-6172.
Ji, H., Wang, D., Bao, W., Lu, Z., Wang, G., Yang, H., ... Reaney, I. (2021). . Energy Storage Materials.
Lu, Z., Bao, W., Wang, G., Sun, S.-.K., Li, L., Li, J., ... Reaney, I.M. (2021). . Nano Energy, 79, 105423.
Liu, B., Li, L., Song, K.X., Mao, M.M., Lu, Z., Wang, G., ... Reaney, I.M. (2020). . Journal of the European Ceramic Society.
Wang, D., Fan, Z., Rao, G., Wang, G., Liu, Y., Yuan, C., ... Zhang, S. (2020). . Nano Energy, 76, 104944.
Yang, H.-.J., Lu, Z., Li, L., Bao, W., Ji, H., Li, J., ... Reaney, I.M. (2020). . ACS Applied Materials and Interfaces.
Lu, Z., Wang, G., Bao, W., Li, J., Li, L., Mostaed, A., ... Reaney, I.M. (2020). . Energy and Environmental Science.
Lu, Z., Wang, G., Bao, W., Li, J., Li, L., Mostaed, A., ... Reaney, I.M. (2020). . Energy & Environmental Science.
Veerapandiyan, V.K., Saman Khosravi, H., Canu, G., Feteira, A., Buscaglia, V., Reichmann, K., & Deluca, M. (2020). . Journal of the European Ceramic Society, 40 (13), 4684-4688.
Khesro, A., Wang, D., Hussain, F., Muhammad, R., Wang, G., Feteira, A., & Reaney, I.M. (2020). . Frontiers in Materials, 7, 140.
Wang, G., Lu, Z., Yang, H., Ji, H., Mostaed, A., li, L., ... Reaney, I.M. (2020). . Journal of Materials Chemistry A.
Wang, D., Wang, G., Lu, Z., Al-Jlaihawi, Z., & Feteira, A. (2020). . Frontiers in Materials, 7, 91.
Djani, H., McCabe, E.E., Zhang, W., Halasyamani, P.S., Feteira, A., Bieder, J., ... Ghosez, P. (2020). . Physical Review B, 101 (13), 134113.
Wang, G., Lu, Z., Li, J., Ji, H., Yang, H., Li, L., ... Reaney, I.M. (2019). . Journal of the European Ceramic Society, 40 (4), 1779-1783.
Wang, G., Lu, Z., Zhang, Z., Feteira, A., Tang, C.C., & Hall, D.A. (2019). Electric field鈥恑nduced irreversible relaxor to ferroelectric phase transformations in Na0.5Bi0.5TiO3鈥怤补狈产翱3 ceramics. Journal of the American Ceramic Society, 102 (12), 7746-7754.
Al-Aaraji, M.N., Feteira, A., Thompson, S.P., Murray, C.A., & Hall, D.A. (2019). . Journal of the European Ceramic Society, 39 (14), 4070-4084.
Wang, G., Fan, Z., Murakami, S., Lu, Z., Hall, D.A., Sinclair, D.C., ... Reaney, I.M. (2019). . Journal of Materials Chemistry A, 7 (37), 21254-21263.
Aziz, A.A., Mercone, S., Lobo, R.P.S.M., Dias, A., Moreira, R.L., Bell, A., ... Feteira, A. (2019). . Dalton Transactions, 48 (29), 11112-11121.
Wang, D., Zhou, D., Song, K., Feteira, A., Randall, C.A., & Reaney, I.M. (2019). Cold鈥怱intered C0G Multilayer Ceramic Capacitors. Advanced Electronic Materials, 5 (7).
Wang, D., Zhang, S., Zhou, D., Song, K., Feteira, A., Vardaxoglou, Y., ... Reaney, I.M. (2019). . Materials, 12 (9).
Lu, D.-.Y., Gao, X.-.L., Yuan, Y., & Feteira, A. (2019). High-permittivity and fine-grained (Ba1鈥揚r )(Ti1鈥撯/4Ce )O3 ceramics with diffuse phase transition. Materials Chemistry and Physics, 228, 131-139.
McLaughlin, K., Pascual-Gonzalez, C., Wang, D., & Feteira, A. (2019). . Journal of Alloys and Compounds, 779, 7-14.
Wally, Z., Haque, A., Feteira, A., Claeyssens, F., Goodall, R., & Reilly, G. (2019). . Journal of the Mechanical Behavior of Biomedical Materials, 90, 20-29.
Wang, G., Li, J., Zhang, X., Fan, Z., Yang, F., Feteira, A., ... Reaney, I.M. (2019). . Energy & environmental science, 12 (2), 582-588.
Wang, D., Wang, G., Murakami, S., Fan, Z., Feteira, A., Zhou, D., ... Reaney, I.M. (2018). . Journal of advanced dielectrics, 1830004.
Murakami, S., Wang, D., Mostaed, A., Khesro, A., Feteira, A., Sinclair, D., ... Reaney, I. (2018). . Journal of the American Ceramic Society, 101 (12), 5428-5442.
Wang, D., Fan, Z., Li, W., Zhou, D., Feteira, A., Wang, G., ... Reaney, I. (2018). . ACS Applied Energy Materials, 1 (8), 4403-4412.
Rashad, Z., & Feteira, A. (2018). . Materials Letters, 222, 180-182.
Elicker, C., Pascual-Gonzalez, C., Gularte, L., Moreira, M., Cava, S., & Feteira, A. (2018). . Materials Letters, 221, 326-329.
Murakami, S., Ahmed, N., Wang, D., Feteira, A., Sinclair, D., & Reaney, I. (2018). . Journal of the European Ceramic Society.
Deluca, M., JLaihawi, Z., Reichmann, K., Bell, A., & Feteira, A. (2018). . Journal of Materials Chemistry A, 6 (13), 5443-5451.
Wang, D., Fan, Z., Zhou, D., Khesro, A., Murakami, S., Feteira, A., ... Reaney, I. (2018). . Journal of Materials Chemistry A, 6 (9), 4133-4144.
Zhou, C., & Feteira, A. (2017). . Applied Physics A: Materials Science & Processing, 123 (11).
Zhou, C., & Feteira, A. (2017). Observation of multiple dielectric relaxations in BaTiO3-Bi(Li1/3Ti2/3)O3 ceramics. Applied Physics A, 123 (11).
Schileo, G., Pascual-Gonzalez, C., Alguero, M., Reaney, I., Postolache, P., Mitoseriu, L., ... Feteira, A. (2017). . Journal of the European Ceramic Society, 38 (4), 1473-1478.
Obilor, U., Pascual-Gonzalez, C., Murakami, S., Reaney, I., & Feteira, A. (2017). . Materials 香蕉视频 Bulletin, 97, 385-392.
Pascual-Gonzalez, C., Schileo, G., Murakami, S., Khesro, A., Wang, D., Reaney, I., & Feteira, A. (2017). . Applied Physics Letters, 110 (17).
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.
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.
Wang, D., Hussain, F., Khesro, A., Feteira, A., Tian, Y., Zhao, Q., ... Zhang, S. (2017). . Journal of the American Ceramic Society, 100 (2), 627-637.
Wang, D., Khesro, A., Murakami, S., Feteira, A., Zhao, Q., & Reaney, I.M. (2016). . Journal of the European Ceramic Society.
Khesro, A., Wang, D., Hussain, F., Sinclair, D., Feteira, A., & Reaney, I. (2016). . Applied Physics Letters, 109 (14), 142907.
Pascual-Gonzalez, C., Schileo, G., & Feteira, A. (2016). . Applied Physics Letters, 109 (13).
Borges, P.H.R., Nunes, V.A., Panzera, T.H., Schileo, G., & Feteira, A. (2016). . The Open Construction and Building Technology Journal, 10 (S.3:M4), 406-417.
Schileo, G., Gonzalez, C.P., Alguero, M., Reaney, I.M., Postolache, P., Mitoseriu, L., ... Feteira, A. (2016). . Journal of the American Ceramic Society, 99 (5), 1609-1614.
Reichmann, K., Feteira, A., & Li, M. (2015). . Materials, 8 (12), 8467-8495.
Schileo, G., Feteira, A., Reaney, I.M., Postolache, P., Mitoseriu, L., & Reichmann, K. (2014). . International Journal of Applied Ceramic Technology, 11 (3), 457-467.
Schileo, G., Luisman, L., Feteira, A., Deluca, M., & Reichmann, K. (2013). . Journal of the European Ceramic Society, 33 (8), 1457-1468.
Schileo, G., Dias, A., Moreira, R.L., Jackson, T.J., Smith, P.A., Chung, K.T.S., & Feteira, A. (2013). . Journal of the American Ceramic Society, 97 (4), 1096-1102.
Tan, C., Feteira, A., & Sinclair, D. (2012). . Chemistry of Materials, 24 (12), 2247-2249.
Vasta, G., Feteira, A., Woodward, D.I., Walker, D., Thomas, P.A., & Jackson, T.J. (2012). . Thin Solid Films, 527, 81-86.
Zhou, C., Feteira, A., Shan, X., Yang, H., Zhou, Q., Cheng, J., ... Wang, H. (2012). . Applied Physics Letters, 101 (3), 032901.
Schuetz, D., Deluca, M., Krauss, W., Feteira, A., Jackson, T., & Reichmann, K. (2012). . Advanced Functional Materials, 22 (11), 2285-2294.
Luisman, L., Feteira, A., & Reichmann, K. (2011). . Applied Physics Letters, 99 (19), 192901.
Strathdee, T., Luisman, L., Feteira, A., & Reichmann, K. (2011). . Journal of the American Ceramic Society, 94 (8), 2292-2295.
Feteira, A., Iddles, D., Price, T., Muir, D., & Reaney, I.M. (2010). . Journal of the American Ceramics Society, 94 (3), 817-821.
Krauss, W., Sch眉tz, D., Mautner, F.A., Feteira, A., & Reichmann, K. (2010). . Journal of the European Ceramic Society, 30 (8), 1827-1832.
Feteira, A., Sinclair, D.C., & Lanagan, M.T. (2010). . Journal of Applied Physics, 108 (1), 014112.
Feteira, A., Sinclair, D.C., & Kreisel, J. (2010). . Journal of the American Ceramic Society, 93 (12), 4174-4181.
Li, M., Feteira, A., Mirsaneh, M., Lee, S., Lanagan, M.T., Randall, C.A., & Sinclair, D.C. (2010). . Journal of the American Ceramic Society, 93 (12), 4087-4095.
Varghese, J., Joseph, T., Sebastian, M.T., Reeves-McLaren, N., & Feteira, A. (2010). . Journal of the American Ceramic Society, 93 (10), 2960-2963.
Feteira, A., & Reichmann, K. (2010). . Advances in Science and Technology, 67, 124-133.
Feteira, A. (2009). . Journal of the American Ceramic Society, 92 (5), 967-983.
Feteira, A., & Sinclair, D.C. (2009). . Journal of Materials Chemistry, 19 (3), 356-359.
Li, M., Shen, Z., Nygren, M., Feteira, A., Sinclair, D.C., & West, A.R. (2009). . Journal of Applied Physics, 106 (10), 104106.
Li, M., Feteira, A., & Sinclair, D.C. (2009). . Journal of Applied Physics, 105 (11), 114109.
Rawal, R., McQueen, A.J., Gillie, L.J., Hyatt, N.C., McCabe, E.E., Samara, K., ... Sinclair, D.C. (2009). . Applied Physics Letters, 94 (19), 192904.
Miranda, L., Feteira, A., Sinclair, D.C., Boulahya, K., Hernando, M., Rami虂rez, J., ... Parras, M. (2009). . Chemistry of Materials, 21 (8), 1731-1742.
Feteira, A., & Sinclair, D.C. (2008). . Journal of the American Ceramic Society, 91 (4), 1338-1341.
Feteira, A., Sinclair, D.C., Rajab, K.Z., & Lanagan, M.T. (2008). . Journal of the American Ceramic Society, 91 (3), 893-901.
Miranda, L., Feteira, A., Sinclair, D.C., Hern谩ndez, M.G., Boulahya, K., Hernando, M., ... Parras, M. (2008). . Chemistry of Materials, 20 (8), 2818-2828.
Zhang, L., Ben, L., Thakur, O.P., Feteira, A., Mould, A.G., Sinclair, D.C., & West, A.R. (2008). . Journal of the American Ceramic Society, 91 (9), 3101-3104.
Feteira, A., Sinclair, D.C., & Lanagan, M.T. (2007). . Journal of Applied Physics, 101 (6), 064110.
Thakur, O.P., Feteira, A., Kundys, B., & Sinclair, D.C. (2007). . Journal of the European Ceramic Society, 27 (7), 2577-2589.
Li, M., Feteira, A., Sinclair, D.C., & West, A.R. (2007). . Applied Physics Letters, 91 (13), 132911.
Miranda, L., Boulahya, K., Varela, A., Gonz谩lez-Calbet, J.M., Parras, M., Hernando, M., ... Sinclair, D.C. (2007). . Chemistry of Materials, 19 (14), 3425-3432.
Feteira, A., Gillie, L.J., Elsebrock, R., & Sinclair, D.C. (2007). . Journal of the American Ceramic Society, 90 (5), 1475-1482.
Pasha, U.M., Zheng, H., Thakur, O.P., Feteira, A., Whittle, K.R., Sinclair, D.C., & Reaney, I.M. (2007). . Applied Physics Letters, 91 (6), 062908.
Zhang, L., Thakur, O.P., Feteira, A., Keith, G.M., Mould, A.G., Sinclair, D.C., & West, A.R. (2007). . Applied Physics Letters, 90 (14), 142914.
Punn, R., Feteira, A., Sinclair, D.C., & Greaves, C. (2006). . Journal of the American Chemical Society, 128 (48), 15386-15387.
Feteira, A., Sinclair, D.C., & Reaney, I.M. (2006). . Journal of the American Ceramic Society, 89 (7), 2105-2113.
Feteira, A., Sinclair, D.C., & Lanagan, M.T. (2006). . Journal of Materials 香蕉视频, 21 (9), 2429.
Rawal, R., Feteira, A., Flores, A.A., Hyatt, N.C., West, A.R., Sinclair, D.C., ... Alford, N.M. (2006). . Journal of the American Ceramic Society, 89 (1), 336-339.
Rawal, R., Feteira, A., Hyatt, N.C., Sinclair, D.C., Sarma, K., & Alford, N.M. (2006). . Journal of the American Ceramic Society, 89 (1), 332-335.
Li, M., Feteira, A., Sinclair, D.C., & West, A.R. (2006). . Applied Physics Letters, 88 (23), 232903.
Ferrarelli, M.C., Adams, T.B., Feteira, A., Sinclair, D.C., & West, A.R. (2006). . Applied Physics Letters, 89 (21), 212904.
Feteira, A., Sinclair, D.C., & Lanagan, M.T. (2005). . Journal of Materials 香蕉视频, 20 (09), 2391-2399.
Feteira, A., Sinclair, D.C., Reaney, I.M., & Lanagan, M.T. (2005). . Journal of the American Ceramic Society, 88 (11), 3055-3062.
Reaney, I.M., Iqbal, Y., Zheng, H., Feteira, A., Hughes, H., Iddles, D., ... Price, T. (2005). . Journal of the European Ceramic Society, 25 (7), 1183-1189.
Li, M., Feteira, A., & Sinclair, D.C. (2005). . Journal of Applied Physics, 98 (8), 084101.
Moreira, R.L., Feteira, A., & Dias, A. (2005). . Journal of Physics - Condensed Matter, 17 (17), 2775-2781.
Feteira, A., Sinclair, D.C., Reaney, I.M., Somiya, Y., & Lanagan, M.T. (2004). . Journal of the American Ceramic Society, 87 (6), 1082-1087.
Feteira, A., Sarma, K., Alford, N.M., Reaney, I.M., & Sinclair, D.C. (2003). . Journal of the American Ceramic Society, 86 (3), 511-513.
Conference papers
Forster, R., Feteira, A., Soulioti, D., Grammatikos, S.A., Walsh, Y., & Kordatos, E. (2024). . Thermosense: Thermal Infrared Applications XLVI.
Forster, R., Feteira, A., Soulioti, D., Grammatikos, S.A., & Kordatos, E. (2024). . Thermosense: Thermal Infrared Applications XLVI.
Forster, R., Feteira, A., Soulioti, D., Grammatikos, S., & Kordatos, E. (2023). . Nondestructive Characterization and Monitoring of Advanced Materials, Aerospace, Civil Infrastructure, and Transportation XVII, 12487.
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:
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:
Kordatos, E., Abdulkadhim, Z., & Feteira, A. (2017). . In Bison, P., & Burleigh, D. (Eds.) Thermosense: Thermal Infrared Applications XXXIX 2017, Anaheim United States, 10 April 2017 - 13 April 2017 (pp. 102140P). SPIE Publications:
Kordatos, E., Abdulkadhim, Z., & Feteira, A. (2017). . In Bison, P., & Burleigh, D. (Eds.) Thermosense: Thermal Infrared Applications XXXIX 2017, Anaheim United States, 10 April 2017 - 13 April 2017 (pp. 102140P). SPIE Publications:
Schileo, G., Feteira, A., Postolache, P., Liliana, M., & Reichmann, K. (2013). . In Ceramic Interconnect and Ceramic Microsystems Technologies (CICMT 2013), Orlando, USA, 23 April 2013 - 26 April 2013.
Reichmann, K., Krauss, W., Schuetz, D., Naderer, M., Deluca, M., Supancic, P., ... Kainz, T. (2013). . In Ceramic Interconnect and Ceramic Microsystems Technologies (CICMT 2013, Orlando, USA, 23 April 2013 - 26 April 2013.
Schutz, D., Deluca, M., Krauss, W., Feteira, A., & Reichmann, K. (2012). . In Nature materials conference: Frontiers in Electronic materials: correlation effects and memristive phenomena, Aachen, 17 June 2012 - 20 June 2012.
Feteira, A., Sinclair, D.C., & Lanagan, M.T. (2006). . In Ohji, T., Sekino, T., & Niihara, K. (Eds.) Science of Engineering Ceramics III : proceedings of the 3rd International Symposium, (pp. 873-876). Trans Tech Pubn
Feteira, A., Elsebrock, R., Dias, A., Moreira, R.L., Lanagan, M.T., & Sinclair, D.C. (2006). . Journal of the European Ceramic Society, 26 (10-11), 1947-1951.
Feteira, A., Keith, G.M., Rampling, M.J., Kirk, C.A., Reaney, I.M., Sarma, K., ... Sinclair, D.C. (2002). . Crystal Engineering, 5 (3-4), 439-448.
Book chapters
Pascual-Gonzalez, C., Schileo, G., & Feteira, A. (2018). . In Korotcenkov, G., & Stojanovic, B. (Eds.) Magnetic, Ferroelectric, and Multiferroic Metal Oxides. (pp. 457-484). Amsterdam: Elsevier:
Feteira, A., & Reichmann, K. (2012). . In Aparicio, M., Jitianu, A., & Klein, L.C. (Eds.) Sol-Gel Processing for Conventional and Alternative Energy. (pp. 315-340). New York: Springer Science + Bussiness Media:
Theses / Dissertations
Pascual-Gonzalez, C. (2017). . (Doctoral thesis). Supervised by Feteira, A., & Sterianou, I.
Posters
Schileo, G., Feteira, A., Shimizu, T., & Reichmann, K. (2013). . Presented at: Materials Science and Technology 2013, Montreal, Canada, 2013
Deluca, M., Schuetz, D., Aksel, E., Picht, G., Foronda, H., Feteira, A., ... Jones, J. (2013). . Presented at: International Ultrasonics Symposium International Symposium on the Applications of Ferroelectrics Joint International Frequency Control Symposium European Frequency and Time Forum, Prague, Czech Republic, 2013
Schileo, G., Feteira, A., & Reichmann, K. (2013). . Presented at: Ferroelectrics UK 2013, Sheffield, 2013
Reichmann, K., Schutz, D., Deluca, M., & Feteira, A. (2012). . Presented at: International Workshop on Relaxor Ferroelectrics, Schloss Edesheim, Germany, 2012
Other activities
Since 2016 Member of the EPSRC Associate Peer Review College
Editorial Positions
Associate Editor: Journal of The American Ceramic Society (John Wiley & Sons, Inc)
Editorial Board: Recent Patents in Material Science, Journal of Ceramics (Hindawi Publishing Corporation)
Guest Editor: 2014 Topical Section: Ceramic Interconnect and Ceramic Microsystems Technologies in the International Journal of Applied Ceramic Technology, vol. 11, issue 3, p.413-501 (2014), (John Wiley & Sons, Inc)
Ad Hoc Reviewer: Journal of The European Ceramic Society, Journal of The American Ceramic Society, Materials Letters, Materials Science and Engineering B, Journal of Materials Science, Journal of Electronic Materials, Materials Chemistry and Physics, Journal of Alloys and Compounds, Journal of Materials 香蕉视频, The Journal of Physical Chemistry, Journal of Crystal Growth and Design, Journal of Applied Physics, Solid State Communications, Applied Physics Letters, Bulletin of Materials 香蕉视频, Advanced Functional Materials
Reviewer of Grant for External Organisations
EPSRC
COSTAction, European Commission, Reviewer and Rapporteur
Analysis of technical and scientific merit of project submitted to the INCT (Brazil)
Leverhulme Trust- 香蕉视频 Project Grants
Reviewer for Romanian National Council for Scientific 香蕉视频
Joint 香蕉视频 Projects-ROFR-2015
Projects for Young 香蕉视频 Teams - RUTE 2014
Joint Applied 香蕉视频 Projects - PCCA 2013
Joint Applied 香蕉视频 Projects - PCCA-2011
Postdoctoral 香蕉视频 Projects - PD-2011
Exploratory 香蕉视频 Projects - PCE-2011
Academic and Technical Committees
2015 - Technical Programme Committee, International Conference on Ceramic Science and Technology (CST 2015) in Shanghai, China
2014 - Technical Committee for the 2014 MERI Symposium, 香蕉视频
2013 - Technical Session Co-Chair for International Ceramic Interconnect and Ceramic Microsystems Conference, Orlando, USA
2012 - Technical Session Co-Chair for International Ceramic Interconnect and Ceramic Microsystems Conference, Erfurt, Germany
2008 - Technical Session Co-Chair for International Ceramic Interconnect and Ceramic Microsystems Conference, Munich, Germany
2006 - Sorby Center for Microscopy and Microanalysis at the University of Sheffield
2005 - Local Organizing committee member of the European Solid State Chemistry Meeting (ECSSX), Sheffield, UKPostgraduate supervision
[5] Zaid Abdulkhadim, Mechanical properties of glass-ceramics for dental applications, (submission 2019)
[4] Anees Aziz, Structure-property relationships in hexagonal and cubic perovskites. (submission 2018)
PhD supervision
[3] Carolina Elicker, Photoferroelectric devices based on Potassium Niobate, joint PhD supervision with Drs. Cava and Moreira from UFPel in Brazil (2017)
[2] Cristina Pascual-Gonzalez “Processing-composition-structure effects on the optical band gap of KNbO3-based ceramics (PhD, 2017)
[1] Giorgio Schileo, “Synthesis and Characterisation of Composite Multiferroic Ceramics” (PhD, 2014)
MSc Student Supervision
[13] F. Amadi, Processing and Characterisation of Lithium Aluminosilicate (LAS) glass-ceramics (2018)
[12] M. Al-dhaher, Impact of Erbium (Er) on the Electro-mechanical Properties of BNT-BKT-BT Ceramics (2018)
[11] WC Sung, Impact of Erbium on the Electromechanical Properties of BNT-BKT-BT Ceramics. (2017)
[10] S. Aal-Kaeb Effect of Stoichiometry on the Electromechanical Properties of Nb-doped BNT-BKT-BT Ceramics (2017).
[9] Z. Rashad, Effect of 2 mol% Erbium doping (A and B site) on the Electromechanical Properties of BNT-BKT-BT ceramics. (2017)
[8] S. Obilor, Fabrication and Characterisation of Pure and Doped BNT-BKT-BT Piezoeceramics (2017)
[7] J. Ayabina, LAS glass-ceramics. (2017)
[6] U. Amin, Thermal Processing and Characterisation of Lithium Aluminosilicate Glass-ceramics. (2017)
[5] B. Khairye, Processing and Characterisation of Trialaxial Porcelains. (2016)
[4] X. Gao, BaTiO3 Ferroelectrics.(2013)
[3] C. Niu, Mechanical Properties of Glass-Ceramics (2013)
[2] C. Garapon, Mechanical and Optical Characterization of a Glass-ceramic for Dental Implants. (2013)
[1] T. Strathdee, Synthesis and Characterisation of BaTiO3-BiYbO3 Ferroelectrics. (2011)