Dr Nuria Tapia RuizLecturer
My research interests focus on fundamental chemistry aspects of materials for energy storage, particularly for lithium-ion and sodium-ion battery technologies. By developing a profound understanding of the physical and chemical nature of the materials of study, specific material tailoring can be done to enhance the material electrochemical performance. We make wide use of diffraction and spectroscopic techniques to characterise our materials. This involves regular trips to central facilities outside Lancaster; e.g. Diamond synchrotron and ISIS neutron spallation source @ Oxford and ESRF @ Grenoble (France). Structural characterisation is done in parallel with battery testing, which is performed in state-of-the-art facilities in our brand new Chemistry Department. Our long-term mission is to fabricate a new generation of batteries which will outperform the existing ones to deliver higher energy density, cheaper, safer and longer-lasting.
Current research interests focus on:
-Development of a new generation of positive and negative electrode materials for Li-ion and Na-ion batteries
-Solid-state batteries: Solid electrolyte fabrication; understanding of the electrode-electrolyte interface and study of materials´mechanical properties.
I graduated from the University of Barcelona (Spain) in 2009, having completed in my last year a 6-month project under the supervision of Prof. Duncan Gregory (School of Chemistry, University of Glasgow) within the ERASMUS framework. After this, I was granted a WestChem studentship to continue with my Ph.D. studies with Prof. Gregory. During my PhD, with thesis title “Novel synthesis and characterisation of Li-N-(H)-based materials for energy storage and conversion”, I developed ultra-fast and energy-efficient synthetic routes using microwave chemistry and tribology to produce bulk and nanomaterials for energy storage and conversion. This was followed by a short-term EU-funded (€ 2.2M) postdoc on the same topic with international industrial collaborators (Paxitech and McPhy Energy and international academic collaborators (JRC (Belgium) and IEn (Poland)). During these years I gained extensive experience in a wide range of techniques such as: powder X-ray diffraction, neutron diffraction and Rietveld analysis; scanning and transmission electron microscopy, IR and Raman spectroscopy. In 2013 I moved to the east coast of Scotland (School of Chemistry, University of St. Andrews) to work as a Postdoctoral Fellow with Prof. Peter Bruce in energy-storage materials for Li-ion and Na-ion battery applications. My main research efforts were directed towards developing and understanding the structure-property-electrochemical performance relationship in novel transition metal oxide cathode materials for lithium and sodium-ion batteries. In 2014 I moved with Prof. Bruce and his research group to Oxford (Materials Department, University of Oxford) to work as a Research Fellow and Team Leader of the Sodium-ion battery team. In December 2016 I moved to Lancaster University where I have been co-appointed as a Lecturer in the Department of Chemistry and Energy Lancaster.
PhD in Chemistry (Inorganic Solid-State and Physical Chemistry Background)
Joy Welsh Trust
Centre of Global Eco-Innovation
PhD Supervision Interests
To learn more about research opportunities contact Nuria at email@example.com. We always welcome applications from self-funded enthusiastic students with groundbreaking ideas. **3-year fully funded PhD position to work on sodium cathode development for Na-ion batteries in collaboration with Plank Labs Ltd.** To learn more about this opportunity visit: http://www.globalecoinnovation.org/graduates/projects/plank-labs-limited/ **4-year fully funded PhD position to work on flexible all solid Zn ion batteries**
Identification and characterisation of high energy density P2-type Na2/3[Ni1/3−y/2Mn2/3−y/2Fey]O2 compounds for Na-ion batteries
Somerville, J.W., House, R.A., Tapia-Ruiz, N., Sobkowiak, A., Ramos, S., Chadwick, A.V., Roberts, M.R., Maitra, U., Bruce, P.G. 26/02/2018 In: Journal of Materials Chemistry.
Oxygen redox chemistry without excess alkali-metal ions in Na2/3[Mg0.28Mn0.72]O2
Maitra, U., House, R.H., Somerville, J.W., Tapia Ruiz, N., Lozano, J.G., Guerrini, N., Hao, R., Luo, K., Jing, L. 22/01/2018 In: Nature Chemistry. 10, p. 288-295. 8 p.
Evidence of enhanced ion transport in Li-rich silicate intercalation materials
Billaud, J., Eames, C., Tapia Ruiz, N., Roberts, M.R., Naylor, A.J., Armstrong, A.R., Islam, M.S., Bruce, P.G. 7/06/2017 In: Advanced Energy Materials. 7, 11, 9 p.
An X-Ray Absorption Spectroscopy Study of Ball-Milled Lithium Tantalate and Lithium Titanate Nanocrystals
Chadwick, A.V., Pickup, D.M., Ramos, S., Cibin, G., Tapia Ruiz, N., Breuer, S., Wohlmuth, D., Wilkening, M. 16/02/2017 In: IOP Conference Series: Materials Science and Engineering. 169, 1, 6 p.
Anion Redox Chemistry in the Cobalt Free 3d Transition Metal Oxide Intercalation Electrode Li[Li 0.2 Ni 0.2 Mn 0.6 ]O 2
Luo, K., Roberts, M.R., Guerrini, N., Tapia-Ruiz, N., Hao, R., Massel, F., Pickup, D.M., Ramos, S., Liu, Y., Guo, J., Chadwick, A.V., Duda, L.C., Bruce, P.G. 7/09/2016 In: Journal of the American Chemical Society. 138, 35, p. 11211-11218. 8 p.
High Voltage Mg-Doped Na 0.67 Ni 0.3– x Mg x Mn 0.7 O 2 ( x = 0.05, 0.1) Na-Ion Cathodes with Enhanced Stability and Rate Capability
Singh, G., Tapia-Ruiz, N., Lopez del Amo, J.M., Maitra, U., Somerville, J.W., Armstrong, A.R., Martinez de Ilarduya, J., Rojo, T., Bruce, P.G. 26/07/2016 In: Chemistry of Materials. 28, 14, p. 5087-5094. 8 p.
Ultra-rapid microwave synthesis of Li3-x-yMxN (M = Co, Ni and Cu) nitridometallates
Tapia-Ruiz, N., Laveda, J., Smith, R., Corr, S., Gregory, D. 1/11/2015 In: Inorganic Chemistry Frontiers. 2, 11, p. 1045-1050. 6 p.
Rate Dependent Performance Related to Crystal Structure Evolution of Na0.67Mn0.8Mg0.2O2 in a Sodium-Ion Battery
Sharma, N., Tapia-Ruiz, N., Singh, G., Armstrong, A.R., Pramudita, J.C., Brand, H.E.A., Billaud, J., Bruce, P.G., Rojo, T. 27/10/2015 In: Chemistry of Materials. 27, 20, p. 6976-6986. 11 p.
Modern microwave methods in solid-state inorganic materials chemistry: from fundamentals to manufacturing
J. Kitchen, H., Vallance, S.R., L. Kennedy, J., Tapia Ruiz, N., Carassiti, L., Harrison, A., Gavin Whittaker, A., D. Drysdale, T., W. Kingman, S., H. Gregory, D. 22/01/2014
Rapid microwave synthesis, characterization and reactivity of lithium nitride hydride, Li4NH
Tapia-Ruiz, N., Sorbie, N., Vaché, N., Hoang, T.K.A., Gregory, D.H. 21/11/2013 In: Materials. 6, 11, p. 5410-5426. 17 p.
The chemistry of ternary and higher lithium nitrides
Tapia Ruiz, N., Segales, M., H. Gregory, D. 07/2013
Mechanochemical synthesis of tin nanowires for anodes in Li+ ion secondary batteries
Tapia-Ruiz, N., Nithya, C., Jayakrishnan, S., Gopukumar, S., Gregory, D.H. 10/2012 In: Journal of the Chinese Chemical Society. 59, 10, p. 1190-1195. 6 p.
The challenge of storage in the hydrogen energy cycle: nanostructured hydrides as a potential solution
Hanlon, J.M., Reardon, H., Tapia-Ruiz, N., Gregory, D.H. 20/02/2012
Sustainable Energy and Fuels
Materials Today Energy
SFTC Experimental Design Award
Prize (including medals and awards)
- Energy Lancaster