| human | Q5 |
| P496 | ORCID iD | 0000-0002-7233-9818 |
| P106 | occupation | researcher | Q1650915 |
| Q91702867 | A Lithium-Free Energy-Storage Device Based on an Alkyne-Substituted-Porphyrin Complex |
| Q48059491 | A Porphyrin Complex as a Self-Conditioned Electrode Material for High-Performance Energy Storage |
| Q60163382 | A new class of non-corrosive, highly efficient electrolytes for rechargeable magnesium batteries |
| Q90446579 | A quasielastic and inelastic neutron scattering study of the alkaline and alkaline-earth borohydrides LiBH4 and Mg(BH4)2 and the mixture LiBH4 + Mg(BH4)2 |
| Q85124889 | Altered thermodynamic and kinetic properties of MgH(2) infiltrated in microporous scaffold |
| Q61448074 | Beyond Intercalation Chemistry for Rechargeable Mg Batteries: A Short Review and Perspective |
| Q60163381 | Bisamide based non-nucleophilic electrolytes for rechargeable magnesium batteries |
| Q90428966 | Copper Porphyrin as a Stable Cathode for High Performance Rechargeable Potassium Organic Batteries |
| Q59799139 | Fast kinetics of multivalent intercalation chemistry enabled by solvated magnesium-ions into self-established metallic layered materials |
| Q92271225 | Halide-Based Materials and Chemistry for Rechargeable Batteries |
| Q47678370 | Influence of nanoconfinement on morphology and dehydrogenation of the Li11BD4-Mg(11BD4)2 system. |
| Q58830205 | Interlayer-Expanded Vanadium Oxychloride as an Electrode Material for Magnesium-Based Batteries |
| Q63490086 | LiBH4−Mg(BH4)2: A Physical Mixture of Metal Borohydrides as Hydrogen Storage Material |
| Q53508493 | Magnesium anode for chloride ion batteries. |
| Q60163378 | Magnesium–sulfur battery: its beginning and recent progress |
| Q46154023 | Metal oxychlorides as cathode materials for chloride ion batteries. |
| Q91890898 | MgSc2 Se4 -A Magnesium Solid Ionic Conductor for All-Solid-State Mg Batteries? |
| Q95938224 | Modeling of ion agglomeration in magnesium electrolytes and its impacts on the battery performance |
| Q90706743 | Multi-electron reactions enabled by anion-participated redox chemistry for high-energy multivalent rechargeable batteries |
| Q91749638 | New Organic Electrode Materials for Ultrafast Electrochemical Energy Storage |
| Q57075454 | Performance Improvement of Magnesium Sulfur Batteries with Modified Non-Nucleophilic Electrolytes |
| Q53287150 | Performance study of magnesium-sulfur battery using a graphene based sulfur composite cathode electrode and a non-nucleophilic Mg electrolyte. |
| Q98565473 | Rechargeable Calcium-Sulfur Batteries Enabled by an Efficient Borate-Based Electrolyte |
| Q58830208 | Selenium and selenium-sulfur cathode materials for high-energy rechargeable magnesium batteries |
| Q44492484 | Small-angle scattering investigations of Mg-borohydride infiltrated in activated carbon. |
| Q61314067 | Synthesis and electrochemical performance of nanocrystalline Al0.4Mg0.2Sn0.4O1.6 and Al0.25Mg0.38Sn0.38O1.5 investigated by in situ XRD, 27Al/119Sn MAS NMR, 119Sn Mössbauer spectroscopy, and galvanostatic cycling |
| Q57528387 | Synthesis of nanocrystalline solid solutions AlySn1−yO2−y/2 (y = 0.57, 0.4) investigated by XRD, 27Al/119Sn MAS NMR, and Mössbauer spectroscopy |
| Q83780746 | The kinetic properties of Mg(BH4)2 infiltrated in activated carbon |
| Q53163923 | VOCl as a Cathode for Rechargeable Chloride Ion Batteries. |
| Q86045299 | Vanadium oxychloride/magnesium electrode systems for chloride ion batteries |
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