Ivana Hasa
Cited by
Cited by
Hard carbons for sodium-ion batteries: Structure, analysis, sustainability, and electrochemistry
X Dou, I Hasa, D Saurel, C Vaalma, L Wu, D Buchholz, D Bresser, ...
Materials Today 23, 87-104, 2019
Challenges and strategies for high‐energy aqueous electrolyte rechargeable batteries
H Zhang, X Liu, H Li, I Hasa, S Passerini
Angewandte Chemie International Edition 60 (2), 598-616, 2021
Beyond insertion for Na‐ion batteries: nanostructured alloying and conversion anode materials
H Zhang, I Hasa, S Passerini
Advanced Energy Materials 8 (17), 1702582, 2018
High Performance Na0.5[Ni0.23Fe0.13Mn0.63]O2 Cathode for Sodium‐Ion Batteries
I Hasa, D Buchholz, S Passerini, B Scrosati, J Hassoun
Advanced Energy Materials 4 (15), 1400083, 2014
Challenges of today for Na-based batteries of the future: From materials to cell metrics
I Hasa, S Mariyappan, D Saurel, P Adelhelm, AY Koposov, C Masquelier, ...
Journal of Power Sources 482, 228872, 2021
A comparative study of layered transition metal oxide cathodes for application in sodium-ion battery
I Hasa, D Buchholz, S Passerini, J Hassoun
ACS applied materials & interfaces 7 (9), 5206-5212, 2015
A sodium-ion battery exploiting layered oxide cathode, graphite anode and glyme-based electrolyte
I Hasa, X Dou, D Buchholz, Y Shao-Horn, J Hassoun, S Passerini, ...
Journal of Power Sources 310, 26-31, 2016
Alternative materials for sodium ion–sulphur batteries
DJ Lee, JW Park, I Hasa, YK Sun, B Scrosati, J Hassoun
Journal of materials chemistry A 1 (17), 5256-5261, 2013
Pectin, hemicellulose, or lignin? Impact of the biowaste source on the performance of hard carbons for sodium‐ion batteries
X Dou, I Hasa, M Hekmatfar, T Diemant, RJ Behm, D Buchholz, ...
ChemSusChem 10 (12), 2668-2676, 2017
Insights into the reversibility of aluminum graphite batteries
GA Elia, I Hasa, G Greco, T Diemant, K Marquardt, K Hoeppner, RJ Behm, ...
Journal of Materials Chemistry A 5 (20), 9682-9690, 2017
Toward high energy density cathode materials for sodium-ion batteries: investigating the beneficial effect of aluminum doping on the P2-type structure
I Hasa, S Passerini, J Hassoun
Journal of materials chemistry A 5 (9), 4467-4477, 2017
Characteristics of an ionic liquid electrolyte for sodium-ion batteries
I Hasa, S Passerini, J Hassoun
Journal of Power Sources 303, 203-207, 2016
Nanostructured Na-ion and Li-ion anodes for battery application: A comparative overview
I Hasa, J Hassoun, S Passerini
Nano Research, 1-28, 2017
Transition metal oxide-carbon composites as conversion anodes for sodium-ion battery
I Hasa, R Verrelli, J Hassoun
Electrochimica Acta 173, 613-618, 2015
Understanding the electrode/electrolyte interface layer on the Li-rich nickel manganese cobalt layered oxide cathode by XPS
M Hekmatfar, A Kazzazi, GG Eshetu, I Hasa, S Passerini
ACS applied materials & interfaces 11 (46), 43166-43179, 2019
Sodium‐Ion Battery based on an Electrochemically Converted NaFePO4 Cathode and Nanostructured Tin–Carbon Anode
I Hasa, J Hassoun, YK Sun, B Scrosati
ChemPhysChem 15 (10), 2152-2155, 2014
A rechargeable sodium-ion battery using a nanostructured Sb–C anode and P2-type layered Na 0.6 Ni 0.22 Fe 0.11 Mn 0.66 O 2 cathode
I Hasa, S Passerini, J Hassoun
RSC Advances 5 (60), 48928-48934, 2015
Effects of nitrogen doping on the structure and performance of carbon coated Na3V2 (PO4) 3 cathodes for sodium-ion batteries
H Zhang, I Hasa, D Buchholz, B Qin, S Passerini
Carbon 124, 334-341, 2017
Impact of the acid treatment on lignocellulosic biomass hard carbon for sodium‐ion battery anodes
X Dou, I Hasa, D Saurel, M Jauregui, D Buchholz, T Rojo, S Passerini
ChemSusChem 11 (18), 3276-3285, 2018
Ionic liquid-based electrolytes for sodium-ion batteries: tuning properties to enhance the electrochemical performance of manganese-based layered oxide cathode
LG Chagas, S Jeong, I Hasa, S Passerini
ACS applied materials & interfaces 11 (25), 22278-22289, 2019
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