|Research development on sodium-ion batteries|
N Yabuuchi, K Kubota, M Dahbi, S Komaba
Chemical reviews 114 (23), 11636-11682, 2014
|Negative electrodes for Na-ion batteries|
M Dahbi, N Yabuuchi, K Kubota, K Tokiwa, S Komaba
Physical chemistry chemical physics 16 (29), 15007-15028, 2014
|Potassium intercalation into graphite to realize high-voltage/high-power potassium-ion batteries and potassium-ion capacitors|
S Komaba, T Hasegawa, M Dahbi, K Kubota
Electrochemistry Communications 60, 172-175, 2015
|Towards K‐ion and Na‐ion batteries as “Beyond Li‐Ion”|
K Kubota, M Dahbi, T Hosaka, S Kumakura, S Komaba
The chemical record 18 (4), 459-479, 2018
|Comparative study of EC/DMC LiTFSI and LiPF6 electrolytes for electrochemical storage|
M Dahbi, F Ghamouss, F Tran-Van, D Lemordant, M Anouti
Journal of Power Sources 196 (22), 9743-9750, 2011
|Black phosphorus as a high-capacity, high-capability negative electrode for sodium-ion batteries: investigation of the electrode/electrolyte interface|
M Dahbi, N Yabuuchi, M Fukunishi, K Kubota, K Chihara, K Tokiwa, X Yu, ...
Chemistry of materials 28 (6), 1625-1635, 2016
|Layered oxides as positive electrode materials for Na-ion batteries|
K Kubota, N Yabuuchi, H Yoshida, M Dahbi, S Komaba
Mrs Bulletin 39 (5), 416-422, 2014
|Sodium carboxymethyl cellulose as a potential binder for hard-carbon negative electrodes in sodium-ion batteries|
M Dahbi, T Nakano, N Yabuuchi, T Ishikawa, K Kubota, M Fukunishi, ...
Electrochemistry communications 44, 66-69, 2014
|Challenges in developing electrodes, electrolytes, and diagnostics tools to understand and advance sodium‐ion batteries|
GL Xu, R Amine, A Abouimrane, H Che, M Dahbi, ZF Ma, I Saadoune, ...
Advanced Energy Materials 8 (14), 1702403, 2018
|Synthesis of hard carbon from argan shells for Na-ion batteries|
M Dahbi, M Kiso, K Kubota, T Horiba, T Chafik, K Hida, T Matsuyama, ...
Journal of Materials Chemistry A 5 (20), 9917-9928, 2017
|Iron phosphide as negative electrode material for Na-ion batteries|
W Zhang, M Dahbi, S Amagasa, Y Yamada, S Komaba
Electrochemistry Communications 69, 11-14, 2016
|Effect of Hexafluorophosphate and Fluoroethylene Carbonate on Electrochemical Performance and the Surface Layer of Hard Carbon for Sodium‐Ion Batteries|
M Dahbi, T Nakano, N Yabuuchi, S Fujimura, K Chihara, K Kubota, ...
ChemElectroChem 3 (11), 1856-1867, 2016
|Hard carbons issued from date palm as efficient anode materials for sodium-ion batteries|
I Izanzar, M Dahbi, M Kiso, S Doubaji, S Komaba, I Saadoune
Carbon 137, 165-173, 2018
|Interfacial Properties of LiTFSI and LiPF6-Based Electrolytes in Binary and Ternary Mixtures of Alkylcarbonates on Graphite Electrodes and Celgard Separator|
M Dahbi, D Violleau, F Ghamouss, J Jacquemin, F Tran-Van, ...
Industrial & engineering chemistry research 51 (14), 5240-5245, 2012
|High performance red phosphorus electrode in ionic liquid-based electrolyte for Na-ion batteries|
M Dahbi, M Fukunishi, T Horiba, N Yabuuchi, S Yasuno, S Komaba
Journal of Power Sources 363, 404-412, 2017
|Influence of graphite characteristics on the electrochemical performance in alkylcarbonate LiTFSI electrolyte for Li-ion capacitors and Li-ion batteries|
CM Ghimbeu, C Decaux, P Brender, M Dahbi, D Lemordant, ...
Journal of The Electrochemical Society 160 (10), A1907, 2013
|Polymer binder: a key component in negative electrodes for high-energy Na-ion batteries|
W Zhang, M Dahbi, S Komaba
Current Opinion in Chemical Engineering 13, 36-44, 2016
|Influence of electrolyte ion–solvent interactions on the performances of supercapacitors porous carbon electrodes|
C Decaux, CM Ghimbeu, M Dahbi, M Anouti, D Lemordant, F Beguin, ...
Journal of Power Sources 263, 130-140, 2014
|Advanced fluoride-based materials for energy conversion|
T Nakajima, H Groult
|CO2 capture using N-containing nanoporous activated carbon obtained from argan fruit shells|
O Boujibar, A Souikny, F Ghamouss, O Achak, M Dahbi, T Chafik
Journal of Environmental Chemical Engineering 6 (2), 1995-2002, 2018