| A strategy to apply machine learning to small datasets in materials science Y Zhang, C Ling Npj Computational Materials 4 (1), 25, 2018 | 489 | 2018 |
| A high energy-density tin anode for rechargeable magnesium-ion batteries N Singh, TS Arthur, C Ling, M Matsui, F Mizuno Chemical communications 49 (2), 149-151, 2013 | 344 | 2013 |
| α-MnO2 as a cathode material for rechargeable Mg batteries R Zhang, X Yu, KW Nam, C Ling, TS Arthur, W Song, AM Knapp, ... Electrochemistry Communications 23, 110-113, 2012 | 321 | 2012 |
| Study of the electrochemical deposition of Mg in the atomic level: Why it prefers the non-dendritic morphology C Ling, D Banerjee, M Matsui Electrochimica Acta 76, 270-274, 2012 | 281 | 2012 |
| Boron-doped graphene as a promising anode for Na-ion batteries C Ling, F Mizuno Physical Chemistry Chemical Physics 16 (22), 10419-10424, 2014 | 237 | 2014 |
| First-principles study of alkali and alkaline earth ion intercalation in iron hexacyanoferrate: the important role of ionic radius C Ling, J Chen, F Mizuno The Journal of Physical Chemistry C 117 (41), 21158-21165, 2013 | 184 | 2013 |
| Unsupervised discovery of solid-state lithium ion conductors Y Zhang, X He, Z Chen, Q Bai, AM Nolan, CA Roberts, D Banerjee, ... Nature communications 10 (1), 5260, 2019 | 168 | 2019 |
| Intrinsic Barrier to Electrochemically Decompose Li2CO3 and LiOH C Ling, R Zhang, K Takechi, F Mizuno The Journal of Physical Chemistry C 118 (46), 26591-26598, 2014 | 164 | 2014 |
| Understanding the Electrochemical Mechanism of K-αMnO2 for Magnesium Battery Cathodes TS Arthur, R Zhang, C Ling, PA Glans, X Fan, J Guo, F Mizuno ACS applied materials & interfaces 6 (10), 7004-7008, 2014 | 142 | 2014 |
| How General is the Conversion Reaction in Mg Battery Cathode: A Case Study of the Magnesiation of α-MnO2 C Ling, R Zhang, TS Arthur, F Mizuno Chemistry of Materials 27 (16), 5799-5807, 2015 | 140 | 2015 |
| Phase Stability of Post-spinel Compound AMn2O4 (A = Li, Na, or Mg) and Its Application as a Rechargeable Battery Cathode C Ling, F Mizuno Chemistry of Materials 25 (15), 3062-3071, 2013 | 125 | 2013 |
| Activity and stability trends of perovskite oxides for oxygen evolution catalysis at neutral pH B Han, M Risch, YL Lee, C Ling, H Jia, Y Shao-Horn Physical Chemistry Chemical Physics 17 (35), 22576-22580, 2015 | 122 | 2015 |
| Capture Lithium in αMnO2: Insights from First Principles C Ling, F Mizuno Chemistry of Materials 24 (20), 3943-3951, 2012 | 119 | 2012 |
| Designing the next generation high capacity battery electrodes HC Yu, C Ling, J Bhattacharya, JC Thomas, K Thornton, A Van der Ven Energy & Environmental Science 7 (5), 1760-1768, 2014 | 116 | 2014 |
| Crystal structural framework of lithium super‐ionic conductors X He, Q Bai, Y Liu, AM Nolan, C Ling, Y Mo Advanced Energy Materials 9 (43), 1902078, 2019 | 110 | 2019 |
| Manganese dioxides as rechargeable magnesium battery cathode; synthetic approach to understand magnesiation process R Zhang, TS Arthur, C Ling, F Mizuno Journal of Power Sources 282, 630-638, 2015 | 107 | 2015 |
| First-principles study of the magnesiation of olivines: redox reaction mechanism, electrochemical and thermodynamic properties C Ling, D Banerjee, W Song, M Zhang, M Matsui Journal of Materials Chemistry 22 (27), 13517-13523, 2012 | 85 | 2012 |
| Fullerenes: non-transition metal clusters as rechargeable magnesium battery cathodes R Zhang, F Mizuno, C Ling Chemical Communications 51 (6), 1108-1111, 2015 | 81 | 2015 |
| Different catalytic behavior of amorphous and crystalline cobalt tungstate for electrochemical water oxidation H Jia, J Stark, LQ Zhou, C Ling, T Sekito, Z Markin RSC advances 2 (29), 10874-10881, 2012 | 81 | 2012 |
| Experimental and Computational Prediction of the Hydrogen Transport Properties of Pd4S BD Morreale, BH Howard, O Iyoha, RM Enick, C Ling, DS Sholl Industrial & engineering chemistry research 46 (19), 6313-6319, 2007 | 79 | 2007 |
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