| Dependence of Ionic Conductivity on Composition of Fast Ionic Conductors Li1+ x Ti2-x Al x (PO4) 3, 0≤ x≤ 0.7. A Parallel NMR and Electric Impedance Study K Arbi, S Mandal, JM Rojo, J Sanz Chemistry of materials 14 (3), 1091-1097, 2002 | 240 | 2002 |
| Lithium mobility in titanium based Nasicon Li1+ xTi2− xAlx (PO4) 3 and LiTi2− x Zrx (PO4) 3 materials followed by NMR and impedance spectroscopy K Arbi, JM Rojo, J Sanz Journal of the European Ceramic Society 27 (13-15), 4215-4218, 2007 | 230 | 2007 |
| High lithium ion conducting solid electrolytes based on NASICON Li1+ xAlxM2− x (PO4) 3 materials (M= Ti, Ge and 0≤ x≤ 0.5) K Arbi, W Bucheli, R Jiménez, J Sanz Journal of the European Ceramic Society 35 (5), 1477-1484, 2015 | 222 | 2015 |
| Waste glass as partial mineral precursor in alkali-activated slag/fly ash system S Zhang, A Keulen, K Arbi, G Ye Cement and Concrete Research 102, 29-40, 2017 | 208 | 2017 |
| A Review on the Durability of Alkali-Activated Fly Ash/Slag Systems: Advances, Issues, and Perspectives K Arbi, M Nedeljkovic, Y Zuo, G Ye Ind. Eng. Chem. Res. 55 (19), 5439–5453, 2016 | 207 | 2016 |
| Structural Factors That Enhance Lithium Mobility in Fast-Ion Li1+ x Ti2–x Al x (PO4) 3 (0≤ x≤ 0.4) Conductors Investigated by Neutron Diffraction in the Temperature Range 100 … K Arbi, M Hoelzel, A Kuhn, F García-Alvarado, J Sanz Inorganic chemistry 52 (16), 9290-9296, 2013 | 127 | 2013 |
| Lithium mobility in Li1. 2Ti1. 8R0. 2 (PO4) 3 compounds (R= Al, Ga, Sc, In) as followed by NMR and impedance spectroscopy K Arbi, MG Lazarraga, D Ben Hassen Chehimi, M Ayadi-Trabelsi, JM Rojo, ... Chemistry of materials 16 (2), 255-262, 2004 | 104 | 2004 |
| RILEM TC 247-DTA round robin test: carbonation and chloride penetration testing of alkali-activated concretes GJG Gluth, K Arbi, SA Bernal, et al. Materials and Structures 53, 2020 | 80 | 2020 |
| Li mobility in triclinic and rhombohedral phases of the Nasicon-type compound LiZr 2 (PO 4) 3 as deduced from NMR spectroscopy K Arbi, M Ayadi-Trabelsi, J Sanz Journal of Materials Chemistry 12 (10), 2985-2990, 2002 | 79 | 2002 |
| RILEM TC 247-DTA round robin test: mix design and reproducibility of compressive strength of alkali-activated concretes JL Provis, K Arbi, SA Bernal, D Bondar, A Buchwald, A Castel, ... Materials and structures 52, 1-13, 2019 | 71 | 2019 |
| Alkali-activated blends of calcium aluminate cement and slag/diatomite K Arbi, A Palomo, A Fernández-Jiménez Ceramics International 39 (8), 9237-9245, 2013 | 71 | 2013 |
| Cation miscibility and lithium mobility in NASICON Li1+xTi2-xScx(PO4)3 (0≤x≤0.5) series: A combined NMR and Impedance study. R Kahlaoui, K Arbi, I Sobrados, R Jimenez, J Sanz, R Ternane Inorganic chemistry, 2016 | 65 | 2016 |
| Non-Arrhenius conductivity in the fast lithium conductor Li 1.2 Ti 1.8 Al 0.2 (P O 4) 3: A Li 7 NMR and electric impedance study K Arbi, M Tabellout, MG Lazarraga, JM Rojo, J Sanz Physical Review B 72 (9), 094302, 2005 | 61 | 2005 |
| Carbonation resistance of alkali-activated slag under natural and accelerated conditions M Nedeljković, Y Zuo, K Arbi, G Ye Journal of Sustainable Metallurgy 4, 33-49, 2018 | 56 | 2018 |
| Local structure and lithium mobility in intercalated Li 3 Al x Ti 2− x (PO 4) 3 NASICON type materials: a combined neutron diffraction and NMR study K Arbi, M Hoelzel, A Kuhn, F García-Alvarado, J Sanz Physical Chemistry Chemical Physics 16 (34), 18397-18405, 2014 | 38 | 2014 |
| Li mobility in Nasicon-type materials LiM 2 (PO 4) 3, M= Ge, Ti, Sn, Zr and Hf, followed by 7Li NMR spectroscopy K Arbi, MA Paris, J Sanz Dalton Transactions 40 (39), 10195-10202, 2011 | 38 | 2011 |
| NMR and electric impedance study of lithium mobility in fast ion conductors LiTi2− xZrx (PO4) 3 (0≤ x≤ 2) K Arbi, M Tabellout, J Sanz Solid State Ionics 180 (40), 1613-1619, 2010 | 30 | 2010 |
| Characterization of Lithium Insertion into NASICON-Type Li1+ x Ti2− x Al x (PO4) 3 and Its Electrochemical Behavior K Arbi, A Kuhn, J Sanz, F Garcia-Alvarado Journal of The Electrochemical Society 157 (6), A654, 2010 | 29 | 2010 |
| On the influence of the cation vacancy on lithium conductivity of Li1+ xRxTi2− x (PO4) 3 Nasicon type materials K Arbi, R Jimenez, T Šalkus, AF Orliukas, J Sanz Solid State Ionics 271, 28-33, 2015 | 25 | 2015 |
| Lithium Exchange Processes in the Conduction Network of the Nasicon LiTi2-x Zr x (PO4) 3 Series (0≤ x≤ 2) K Arbi, MA Paris, J Sanz The Journal of Physical Chemistry B 110 (13), 6454-6457, 2006 | 23 | 2006 |
Guang YeAssociate professor, Delft University of Technology在 tudelft.nl 的电子邮件经过验证
